Slip-in Cartridge Valves

Slip-in Cartridge Valves
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TABLE OF
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Slip-in Cartridge Valves
Pressure Control, Throttle, Check
Catalog HY14-3200/US
Return to
Slip-in Cartridge Valves
Catalog HY14-3200/US
TABLE OF
CONTENTS
WARNING – USER RESPONSIBILITY
FAILURE OR IMPROPER SELECTION OR IMPROPER USE OF THE PRODUCTS DESCRIBED HEREIN OR RELATED ITEMS CAN CAUSE DEATH, PERSONAL INJURY AND
PROPERTY DAMAGE.
•
This document and other information from Parker-Hannifin Corporation, its subsidiaries and authorized distributors provide product or system options for further investigation
by users having technical expertise.
•
The user, through its own analysis and testing, is solely responsible for making the final selection of the system and components and assuring that all performance, endurance,
maintenance, safety and warning requirements of the application are met. The user must analyze all aspects of the application, follow applicable industry standards, and follow
the information concerning the product in the current product catalog and in any other materials provided from Parker or its subsidiaries or authorized distributors.
•
To the extent that Parker or its subsidiaries or authorized distributors provide component or system options based upon data or specifications provided by the user, the user
is responsible for determining that such data and specifications are suitable and sufficient for all applications and reasonably foreseeable uses of the components or systems.
OFFER OF SALE
The items described in this document are hereby offered for sale by Parker-Hannifin Corporation, its subsidiaries or its authorized distributors. This offer and its acceptance are
governed by the provisions stated in the detailed “Offer of Sale” elsewhere in this document or available at www.parker.com/hydraulicvalve.
SAFETY GUIDE
For safety information, see Safety Guide SG HY14-1000 at www.parker.com/safety or call 1-800-CParker.
© Copyright 2012 Parker Hannifin Corporation, All Rights Reserved
Cat HY14-3200-frtcvr.indd, dd
II
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Contents
Series
Return to
Slip-in Cartridge Valves
Introduction
Catalog HY14-3200/US
Description
TABLE OF
CONTENTS
Size
Page
ISO 16 25 32 40 50 63 80 100
2-Way Slip-in Cartridge Valves
Introduction, Hydraulic Symbols, Installation Dimensions
3
CE / CP
2-Way Cartridge
• • • • • • • •
6
C*A
Cover without Auxilary Function
• • • • • • • •
11
C*B
Cover with Stroke Limiter
• • • • • • • •
12
C*C
Cover for Pilot System Mounting
• • • • • • • •
14
C*F
Cover for Pressure Relief Function
• • •
17
C*G
Cover for Pressure Relief Function plus Pilot Mounting
• • •
18
C*V
Cover with Shuttle Valve
• • • • • •
19
C*W
Cover with Shuttle Valve and Pilot Mounting
• • • • • •
20
Accessories
Pilot Valves
21
Adapter Plates NG6 to NG10
29
Cover – Sandwich Plates
30
Spare Parts, Seal Kits
32
Orifice Diagram, Orifice Kits
33
Extracting Tools
34
Cartridge Manifold Blocks
CB
35
Complete Valves and Combination Examples,
Pressure Function
Pressure Relief Valves, Manual Adjustment
R*E
• • • • • •
37
Pressure Relief Valves, Manual Adjustment, Electric Unloading • • • • • •
RS*E
37
Pressure Relief Valves, Proportional Adjustment
RE*E*W
• • • • • •
43
Pressure Relief Valves, Proportional Adjustment, OBE
RE*E*T
• • • • • •
49
Pressure Unloading Valves
UR*E
• • • • • •
56
Pressure Unloading Valves
US*E
• • • • • •
56
Combination Examples, Pressure Function
• • • • • •
61
Complete Valves, Flow Function
TEH
Throttle Valves, Manual with Pilot Interrupt Valve
• • • • • •
79
TDA
Throttle Valves, Proportional
• • • • • • • •
82
TEA
Throttle Valves, Proportional with Pilot Interrupt Valve
• • • • • •
86
TDL
Throttle Valves, Proportional with LVDT and OBE
• • • • •
90
TDP
Throttle Valves, Proportional with LVDT and OBE
• • • • • •
97
TPQ
Throttle Valves, Proportional with LVDT and OBE
• • • • •
109
Complete Valves and Combination Examples,
2-Way and Check Function
Check Valves, Direct Operated
C1DB
• • • • • • • • 120
Check Valves, Pilot Operated
SVLB
• • • • •
123
Combination Examples, 2-Way and Check Function
• • • • • • • • 126
Complete Valves, Directional Function
with Position Control
C10D*C
2-Way Seat Valves
• • • • • • • • 131
Complete Valves, Active Cartridges
2-Way Seat Valves with Position Control
C18D*C
• • • • •
136
C18DB107 2-Way Seat Valves without Auxilary Function
• • • • •
140
C18DB112 2-Way Seat Valves with Stroke Limiter
• • •
140
C18DB121 2-Way Seat Valves with Pilot Valve
• •
140
Installation and Troubleshooting....................... Starting Up Hydraulic Systems................................................. 144
Power Transmission.......................................... Hydraulic Fluid.......................................................................... 152
Terms of Sale with Warranty Limitations............................................................................................................. 157
Safety Guide....................................................................................................................................................... 158
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
TABLE OF
CONTENTS
Catalog HY14-3200/US
Notes
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Introduction
Catalog HY14-3200/US
Symbol Information
TABLE OF
CONTENTS
Port Identifications - Graphics
Control Surfaces - Graphics
Description
Description
Depending on valve function and design, power ports A
and B can be used for inlet or outlet.
AA Area, which is subjected to the pressure at port A
The control port C is the connection between cover and
cartridge unit.
AC Area, which is subjected to the pressure at port C
AB Area, which is subjected to the pressure at port B
Further Control Ports
X control oil connection, inlet
Y control oil connection, outlet
Z1 control oil connection, preferred inlet
Z2 control oil connection, preferred outlet
Control Surfaces - Schematics
Port Identifications - Schematics
Area Representation
Design Representation
Seat design
Spool design
Dampening poppet
TOC-Intro.indd, ddp
3
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Dimensions
Return to
Slip-in Cartridge Valves
Introduction
Code: ISO 7368-B*-*-2-A/B
NG16 to NG63
TABLE OF
CONTENTS
Code: ISO 7368-B*-*-2-A
NG80 to NG100
Required surface finish:
1 = √ Rmax16, 2 = √ Rmax8
Cartridge Manifold Block Series CB, see Pages 35 and 36
TOC-Intro.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Introduction
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
b1
d1 H7
d2 H7
d3
d3 max
d4
d4 max* d5 max
d6
d7 H13
m1±0.2
m2±0.2
m3±0.2
NG16
65.0
(2.56)
32.0
(1.26)
25.0
(0.98)
16.0
(0.63)
18.0
(0.71)
16.0
(0.63)
25.0
(0.98)
4.0
(0.16)
M8
4.0
(0.16)
46.0
(1.81)
25.0
(0.98)
23.0
(0.91)
NG25
85.0
(3.35)
45.0
(1.77)
34.0
(1.34)
25.0
(0.98)
25.5
(1.00)
25.0
(0.98)
32.0
(1.26)
6.0
(0.24)
M 12
6.0
(0.24)
58.0
(2.20)
33.0
(1.30)
29.0
(1.14)
NG32
102.0
(4.02)
60.0
(2.36)
45.0
(1.77)
32.0
(1.26)
36.0
(1.42)
32.0
(1.26)
40.0
(1.57)
8.0
(0.31)
M 16
6.0
(0.24)
70.0
(2.76)
41.0
(1.61)
35.0
(1.38)
NG40
125.0
(4.92)
75.0
(2.95)
55.0
(2.17)
40.0
(1.57)
43.0
(1.69)
40.0
(1.57)
50.0
(1.97)
10.0
(0.39)
M 20
6.0
(0.24)
85.0
(3.35)
50.0
(1.97)
42.5
(1.67)
NG50
140.0
(5.51)
90.0
(3.54)
68.0
(2.68)
50.0
(1.97)
56.0
(2.20)
50.0
(1.97)
63.0
(2.48)
10.0
(0.39)
M 20
8.0
(0.31)
100.0
(3.94)
58.0
(2.28)
50.0
(1.97)
NG63
180.0
(7.09)
120.0
(4.72)
90.0
(3.54)
63.0
(2.48)
74.0
(2.91)
63.0
(2.48)
80.0
(3.15)
12.0
(0.47)
M 30
8.0
(0.31)
125.0
(4.92)
75.0
(2.95)
62.5
(2.46)
NG80
250.0
(9.84)
145.0
(5.71)
110.0
(4.33)
80.0
(3.15)
93.0
(3.66)
80.0
(3.15)
100.0
(3.94)
16.0
(0.63)
M 24
10.0
(0.39)
200.0
(7.87)
—
—
NG100
300.0
(11.81)
180.0
(7.09)
135.0
(5.31)
100.0
(3.94)
115.0
(4.53)
100.0
(3.94)
125.0
(4.92)
20.0
(0.79)
M 30
10.0
(0.39)
245.0
(9.65)
—
—
Size
m4±0.2
t1+0.1
t2+0.1
t3
t4
t4 max*
t5
t6
t7
t8
t10
U
W
NG16
10.5
(0.41)
43.0
(1.69)
56.0
(2.20)
11.0
(0.43)
34.0
(1.34)
29.5
(1.16)
20.0
(0.79)
20.0
(0.79)
2.0
(0.08)
2.0
(0.08)
10.0
(0.39)
0.03
(0.001)
0.05
(0.002)
NG25
16.0
(0.63)
58.0
(2.28)
72.0
(2.83)
12.0
(0.47)
44.0
(1.73)
40.5
(1.59)
30.0
(1.18)
25.0
(0.98)
2.5
(0.10)
2.5
(0.10)
10.0
(0.39)
0.03
(0.001)
0.05
(0.002)
NG32
17.0
(0.67)
70.0
(2.76)
85.0
(3.35)
13.0
(0.51)
52.0
(2.05)
48.0
(1.89)
30.0
(1.18)
35.0
(1.38)
2.5
(0.10)
2.5
(0.10)
10.0
(0.39)
0.03
(0.001)
0.1
(0.004)
NG40
23.0
(0.91)
87.0
(3.43)
105.0
(4.13)
15.0
(0.59)
64.0
(2.52)
59.0
(2.32)
30.0
(1.18)
45.0
(1.77)
3.0
(0.12)
3.0
(0.12)
10.0
(0.39)
0.05
(0.002)
0.1
(0.004)
NG50
30.0
(1.18)
100.0
(3.94)
122.0
(4.80)
17.0
(0.67)
72.0
(2.83)
65.5
(2.58)
35.0
(1.38)
45.0
(1.77)
4.0
(0.16)
3.0
(0.12)
10.0
(0.39)
0.05
(0.002)
0.1
(0.004)
NG63
38.0
(1.50)
130.0
(5.12)
155.0
(6.10)
20.0
(0.79)
95.0
(3.74)
86.5
(3.41)
40.0
(1.57)
65.0
(2.56)
4.0
(0.16)
4.0
(0.16)
10.0
(0.39)
0.05
(0.002)
0.2
(0.008)
NG80
—
175.0
(6.89)
205.0
(8.07)
25.0
(0.98)
130.0
(5.12)
120.0
(4.72)
40.0
(1.57)
50.0
(1.97)
5.0
(0.20)
5.0
(0.20)
10.0
(0.39)
0.05
(0.002)
0.2
(0.008)
NG100
—
210.0
(8.27)
245.0
(9.65)
29.0
(1.14)
155.0
(6.10)
142.0
(5.59)
50.0
(1.97)
53.0
(2.09)
5.0
(0.20)
5.0
(0.20)
10.0
(0.39)
0.05
(0.002)
0.2
(0.008)
* Only together with d4max and t4max
TOC-Intro.indd, ddp
5
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Return to
Slip-in Cartridge Valves
Series CE, CP
TABLE OF
CONTENTS
General Description
Series CE, CP and C 2-way slip-in cartridge valves are
hydraulically controlled seat valves that are designed
for compact block installation. Slip-in cartridge, cover,
and pilot system are valve elements that permit single
and combined functions.
Series CE offers poppet and sleeve combinations for
directional functions. Series CP offers a cartridge for
pressure functions and has to be combined with
corresponding covers.
CE
C*B
C*A
C*C
Features
• Installation cavity and mounting pattern according to
ISO 7368.
•
• 5 poppet shapes.
• 5 poppet springs.
• Optional seal between ports B and C.
• Cover with adjustable stroke limitation.
• Cover with mounting pattern for pilot valve assembly.
• Combinations for complex functions.
• Normally open cartridge (CE*F04).
One sleeve only for all poppets.
Pilot Control for Directional Functions
CE-CP.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series CE, CP
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Cartridge Valve for Directional Function
1:1
AA = AC
1 : 1.67
AA = 0.6 AC
AB = 0.4 AC
1 : 1.04
AA = 0.96 AC
1 : 1.67
AA = 0.6 AC
AB = 0.4 AC
dampening poppet
1 : 1.67
AA = 0.6 AC
AB = 0.4 AC
normally open
Cartridge Valve for Pressure Function
1 : 1.04
AA = 0.96 AC
Pilot Control for Pressure Function
CE-CP.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series CE, CP
Catalog HY14-3200/US
Ordering Information
TABLE OF
CONTENTS
CE
Cartridge
Nominal
Size
Code
016
025
032
040
050
063
080
100
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
Code
Normal
Position
C
Closed
S1)
Closed
F
Open
2)
1)
2)
Design
Poppet
Area Ratio
Spring
Code
01
04
07 3)
Poppet Area Ratio
AA = AC
AA = 0.6AC, AB = 0.4AC
AA = 0.96AC
08
AA = 0.6AC, AB = 0.4AC
with dampening
Orifice
Seals
Code
N
V
Code
99
00
00
Not for NG80 and NG100
3)
Size
All
All
All
Description
Nitrile
Fluorocarbon
Design
Series
not required
for ordering
Poppet
Description
All
Without Orifice, Open
01
Orifice Optional 4)
04, 07, 08
Plugged, Closed
Orifice size in 1/10 mm, eg. 1.2 mm orifice - code 12
Thread size 1/16 NPTF
4)
Description
No Poppet
Sealing
With Poppet
Sealing
No Poppet
Sealing
Only for spring S and U.
Only with spring code L
CP
Orifice position
Code
L
N
S
T
U
Weight:
CE016
CE025
CE032
CE040
CE050
CE063
CE080
CE100
Description
Opening Pressure 0.1 Bar (1.45 PSI)
Opening Pressure 0.5 Bar (7.25 PSI)
Opening Pressure 1.6 Bar (23.2 PSI)
Opening Pressure 2.5 Bar (36.3 PSI)
Opening Pressure 4.0 Bar (58.0 PSI)
0.3 kg (0.7 lbs.)
0.6 kg (1.3 lbs.)
1.1 kg (2.4 lbs.)
1.7 kg (3.7 lbs.)
3.7 kg (8.2 lbs.)
7.1 kg (15.7 lbs.)
12.8 kg (28.2 lbs.)
27.0 kg (59.5 lbs.)
07
Cartridge
Nominal
Size
Code
016
025
032
040
050
063
Design
Poppet
Area Ratio
AA = 0.96AC
Spring
Normal
Position
C
Closed
S
Closed
Code
00
09
11
12
13
14
15
Description
No Poppet
Sealing
With Poppet
Sealing
Seals
Code
N
V
Description
NG16
NG25
NG32
NG40
NG50
NG63
Code
Orifice 1)
Description
Nitrile
Fluorocarbon
Design
Series
not required
for ordering
Description
Plug
0.9mm for NG16
1.1mm for NG25
1.2mm for NG32
1.3mm for NG40
1.4mm for NG50
1.5mm for NG63
Recommended diameter
1)
Code
S
T
U
Description
Opening Pressure 1.6 Bar (23.2 PSI)
Opening Pressure 2.5 Bar (36.3 PSI)
Opening Pressure 4.0 Bar (58.0 PSI)
Weight:
CP016
CP025
CP032
CP040
CP050
CP063
0.3 kg (0.7 lbs.)
0.6 kg (1.3 lbs.)
1.1 kg (2.4 lbs.)
1.7 kg (3.7 lbs.)
3.7 kg (8.2 lbs.)
7.1 kg (15.7 lbs.)
CE-CP.indd, ddp
8
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Specifications
General
Interface
Operation
Mounting Position
2-way slip-in cartridge valves according to ISO 7368
Hydraulic
Unrestricted
Ambient Temperature
-40°C to +60°C (-40°F to +140°F)
Hydraulic
Fluid
Viscosity Recomended
Viscosity Permitted
Fluid Temperature
Max. Contamination
Return to
Slip-in Cartridge Valves
Series CE, CP
Catalog HY14-3200/US
TABLE OF
CONTENTS
Operating Pressure
Hydraulic fluid according to DIN 51 524...525
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
-20°C to +60°C (-4°F to +140°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
420 Bar (6090 PSI) without pilot valve
Ports A, B, X, Z1, Z2: 350 Bar (5075 PSI), 420 Bar (6090 PSI)
(depending on pmax of pilot valves)
Nominal Size
Nominal Flow
at ∆p 5 Bar (73 PSI)
Port Y: 350 Bar (5075 PSI), according to pilot system, maximum
(depending on pmax of pilot valves)
NG16
NG25
NG32
NG40
NG50
NG63
LPM
LPM
LPM
LPM
LPM
LPM
(GPM)
(GPM)
(GPM)
(GPM)
(GPM)
(GPM)
NG80
LPM
(GPM)
NG100
LPM
(GPM)
poppet 01, 04, 07
250
(66)
450
(119)
900
(238)
1350
(357)
1800
(476)
3600
(952)
5250
(1576)
8000
(2116)
poppet 08
230
(61)
400
(106)
800
(212)
1250
(331)
1625
(430)
3400
(900)
5000
(1323)
7500
(1984)
cm3
2.0
2.0
2.0
2.0
cm3
6.5
6.5
6.5
7.4
cm3
10.2
12.2
10.2
15.3
cm3
17.4
20.3
17.4
23.2
L=
0.1 Bar
(1.5 PSI)
cm3
34.5
39.4
34.5
49.2
N=
0.5 Bar
(7.3 PSI)
cm3
77.4
94.6
77.4
111.8
S=
1.6 Bar
(23.2 PSI)
cm3
cm3
190.1
342.6
190.1
363.4
—
—
217.3
415.3
T=
U=
2.5 Bar
4.0 Bar
(36.3 PSI) (58.0 PSI)
L=
0.2 Bar
(2.9 PSI)
N=
S=
0.9 Bar
2.7 Bar
(13.1 PSI) (39.2 PSI)
T=
U=
4.0 Bar
6.6 Bar
(58.0 PSI) (95.7 PSI)
L=
0.3 Bar
(4.4 PSI)
N=
S=
1.3 Bar
4.0 Bar
(18.9 PSI) (58.0 PSI)
T=
U=
6.3 Bar
10.0 Bar
(91.4 PSI) (145.0 PSI)
Pilot Volume Requirement
at poppet 01
at poppet 04
at poppet 07
at poppet 08
Opening Pressure
Poppet 01 / 07
spring:
Poppet 04 / 08
spring:
Poppet 01 / 07
not possible
flow direction A → B
Opening Pressure
flow direction B → A Poppet 04 / 08
spring:
CE-CP.indd, ddp
9
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Performance Curves
Return to
Slip-in Cartridge Valves
Series CE, CP
Poppet 01, 04, 07*
Poppet 08*
Poppet 01, 04, 07*
Poppet 08*
TABLE OF
CONTENTS
* without spring and poppet seal, C-chamber unloaded
CE-CP.indd, ddp
10
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*A
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
C
Nominal
Size
Cover
Code
016
025
032
040
050
063
080
100
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
A
A
Cover with
X-Connection
and
Gauge Port
G1/4"
Without
Auxiliary
Function
Seals
Orifice
Code
N
V
Code
99
For orifice recommendations, bolt and seal kits,
see Accessories.
Description
Without Orifice,
Open Orifice Options
Orifice position
Dimensions
Description
Nitrile
Fluorocarbon
Weight:
C016A
C025A
C032A
C040A
C050A
C063A
C080A
C100A
Design
Series
not required
for ordering
0.9 kg (2.0 lbs.)
1.9 kg (4.2 lbs.)
2.9 kg (6.4 lbs.)
5.3 kg (11.7 lbs.)
8.5 kg (18.7 lbs.)
15.5 kg (34.2 lbs.)
34.0 kg (75.0 lbs.)
58.0 kg (127.9 lbs.)
Inch equivalents for millimeter dimensions are shown in (**)
NG16 to NG63
Size
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
NG80 to NG100
B
65.0
(2.56)
85.0
(3.35)
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
Ø250.0
(9.84)
Ø300.0
(11.81)
L
36.0
(1.42)
45.0
(1.77)
50.0
(1.97)
60.0
(2.36)
70.0
(2.76)
85.0
(3.35)
105.0
(4.13)
120.0
(4.72)
Orifice Thread
1/16 NPT
1/16 NPT
1/16 NPT
1/8 NPT
1/8 NPT
1/8 NPT
1/8 NPT
1/8 NPT
CE-CP.indd, ddp
11
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*B
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
C
B
Nominal
Size
Cover
Code
016
025
032
040
050
063
080
100
Cover with
X-Connection
and
Stroke
Limiter
Code
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
N
Y
Orifice
Adjustment
Description
Screw /
Spindle
Knob E10
lock, only
NG16-NG50
Seals
Code
N
V
Code
99
Description
Nitrile
Fluorocarbon
Description
Without Orifice,
Open Orifice Options
Weight:
C016B
C025B
C032B
C040B
C050B
C063B
C080B
C100B
For orifice recommendations, bolt and seal kits,
see Accessories.
Design
Series
not required
for ordering
0.9 kg (2.0 lbs.)
1.9 kg (4.2 lbs.)
2.9 kg (6.4 lbs.)
5.4 kg (11.9 lbs.)
8.4 kg (18.5 lbs.)
15.1 kg (33.3 lbs.)
34.0 kg (75.0 lbs.)
60.0 kg (132.3 lbs.)
Orifice position
Dimensions
Inch equivalents for millimeter dimensions are shown in (**)
NG16 to NG25 - Adjustment N
Size
NG16
NG25
B
65.0
(2.56)
85.0
(3.35)
Adjustment Y
L1
36.0
(1.42)
45.0
(1.77)
L2 max.
72.0
(2.83)
72.0
(2.83)
L4 max.
100.0
(3.94)
100.0
(3.94)
Gauge Port
Orifice Thread
G 1/4"
M6
CE-CP.indd, ddp
12
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*B
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG32 to NG50
Adjustment N
Adjustment Y (NG32)
NG63 NG80 to 100
Adjustment N Size
NG32
NG40
NG50
NG63
NG80
NG100
Adjustment Y (NG40/50)
Adjustment N
B
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
Ø250.0
(9.84)
Ø300.0
(11.81)
L1
50.0
(1.97)
60.0
(2.36)
70.0
(2.76)
85.0
(3.35)
105.0
(4.13)
120.0
(4.72)
L2 max.
48.0
(1.89)
50.0
(1.97)
50.0
(1.97)
65.0
(2.56)
95.0
(3.74)
120.0
(4.72)
L3
—
123.0
(4.84)
127.0
(5.00)
L4 max.
141.0
(5.50)
Gauge Port
Orifice Thread
1/16 NPT
—
1/16 NPT
—
1/16 NPT
G¼"
—
—
1/8 NPT
—
—
1/8 NPT
—
—
1/8 NPT
CE-CP.indd, ddp
13
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*C
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
C
Cover
Nominal
Size
Code
016
025
032
040
050
063
080
100
C
A
Cover
for
Pilot System
Mounting
Without
Auxiliary
Function
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
Attention:
For NG50 and larger:
If pilot system NG6 is used, mount
adapter plate PADA1007/A-B/B-A or
PADA1007/A-A/B-B (NG6 to NG10)
on cover.
1
Seals
2
3
4
Orifice / Choke
Code
N
V
Code
99
00
Description
Without Orifice,
Open Orifice Options
Plug, Closed
Orifice Options
NG16 to NG40
NG50 to NG100
Description
Nitrile
Fluorocarbon
Weight:
C016C
C025C
C032C
C040C
C050C
C063C
C080C
C100C
Design
Series
not required
for ordering
1.0 kg (2.12 lbs.)
1.9 kg (4.20 lbs.)
2.9 kg (6.40 lbs.)
5.3 kg (11.70 lbs.)
8.5 kg (18.70 lbs.)
15.3 kg (33.70 lbs.)
34.0 kg (75.0 lbs.)
60.0 kg (132.30 lbs.)
For orifice recommendations, bolt and seal kits,
see Accessories.
Orifice position
Dimensions
Inch equivalents for millimeter dimensions are shown in (**)
NG16
CE-CP.indd, ddp
14
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Dimensions
Return to
Slip-in Cartridge Valves
Series C*C
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG25 to NG40
NG50 to NG63
CE-CP.indd, ddp
15
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*C
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG80 to NG100
Size
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
B
L
79.0 1)
(3.11)
85.0
(3.35)
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
Ø250.0
(9.81)
Ø300.0
(11.81)
40.0
(1.57)
45.0
(1.77)
50.0
(1.97)
60.0
(2.36)
70.0
(2.76)
85.0
(3.35)
105.0
(4.13)
120.0
(4.72)
Orifice Thread
Gauge Port
M5
M5
M5
M5
M5
M5
M6
M6
M5
M5
M6
M6
M5
M5
M6
M6
M6
M6
M8
M8
M6
M6
M8
M8
1/16 NPT
1/16 NPT
M10x1
M10x1
1/16 NPT
1/16 NPT
M10x1
M10x1
G¼"
Width 65m (2.56 in.)
1)
CE-CP.indd, ddp
16
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*F with Relief
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
C
F
Nominal
Size
Cover
Code
016
025
032
Description
NG16
NG25
NG32
Cover
with
Pressure Relief
Valve
Code
07
10
17
21
25
35
Pressure
Range
Pressure
Adjustment
Code
N
V
Description
75 Bar (1088 PSI)
105 Bar (1522 PSI)
175 Bar (2538 PSI)
210 Bar (3000 PSI)
250 Bar (3625 PSI)
300 Bar (5075 PSI)
Code
S
L
For orifice recommendations, bolt and
seal kits, see Accessories in this chapter.
Seals
3
1
2
Orifice / Choke
Code
99
00
Description
Nitrile
Fluorocarbon
Design
Series
not required
for ordering
Description
Without Orifice, Open Orifice Options
Plug, Closed Orifice Options
Description
Screw with
Lock Nut
Knob E10 Lock
Orifice position
Dimensions
Inch equivalents for millimeter dimensions are shown in (**)
Ports Z1 and Z2: O-ring recess diameter on valve body
Size
NG16
NG25
NG32
B
H
L1
L2 max.
L3 max.
L4
65.0
(2.56)
85.0
(3.35)
102.0
(4.02)
40.0
(1.57)
45.0
(1.77)
50.0
(1.97)
32.5
(1.28)
42.5
(1.68)
51.0
(2.01)
114.0
(4.49)
102.0
(4.02)
95.0
(3.74)
125.5
(4.94)
114.0
(4.49)
106.0
(4.17)
79.0
(3.11)
85.0
(3.35)
102.0
(4.02)
Orifice Thread
M5
M4
M5
M5
M5
M5
M5
M6
M6
CE-CP.indd, ddp
17
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*G with Relief
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
G
C
Nominal
Size
Cover
Code
016
025
032
Description
NG16
NG25
NG32
Cover
with
Pressure Relief
and
Pilot System
Mounting
Code
07
10
17
21
25
35
Pressure
Range
Pressure
Adjustment
S
L
Seals
2
3
4
Orifice / Choke
Code
N
V
Description
75 Bar (1088 PSI)
105 Bar (1522 PSI)
175 Bar (2538 PSI)
210 Bar (3000 PSI)
250 Bar (3625 PSI)
300 Bar (5075 PSI)
Code
1
Code
99
00
Description
Screw with
Lock Nut
Knob E10 Lock
Design
Series
not required
for ordering
Description
Nitrile
Fluorocarbon
Description
Without Orifice, Open Orifice Options
Plug, Closed Orifice Options
Orifice position
For orifice recommendations, bolt and seal kits, see Accessories.
Dimensions
Inch equivalents for millimeter dimensions are shown in (**)
Size
NG16
NG25
NG32
B
H
L1
L2 max.
L3 max.
L4
65.0
(2.56)
85.0
(3.35)
102.0
(4.02)
40.0
(1.57)
45.0
(1.77)
50.0
(1.97)
32.5
(1.28)
42.5
(1.68)
51.0
(2.01)
114.0
(4.49)
102.0
(4.02)
95.0
(3.74)
125.5
(4.94)
114.0
(4.49)
106.0
(4.17)
79.0
(3.11)
85.0
(3.35)
102.0
(4.02)
Orifice Thread
M5
M5
M4
M5
M5
M5
M5
M5
M6
M6
M6
M6
CE-CP.indd, ddp
18
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*V with Shuttle Valve
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
C
Cover
Code
016
025
032
040
050
063
Nominal
Size
V
A
Cover
with
Shuttle Valve
Without
Additional
Option
1
Seals
2
3
4
Orifice / Choke
Code
N
V
Description
NG16
NG25
NG32
NG40
NG50
NG63
Code
99
Description
Nitrile
Fluorocarbon
Design
Series
not required
for ordering
Description
Without Orifice, Open Orifice Options
For orifice recommendations, bolt and seal kits,
see Accessories.
Orifice position
Dimensions
Inch equivalents for millimeter dimensions are shown in (**)
Port Z2: O-ring recess diameter on valve body
Size
B
H
L1
NG16
NG25
NG32
NG40
NG50
NG63
65.0 (2.56)
85.0 (3.35)
102.0 (4.02)
125.0 (4.92)
140.0 (5.51)
180.0 (7.09)
86.5 (3.41)
91.5 (3.60)
96.5 (3.80)
106.5 (4.19)
126.5 (4.98)
141.0 (5.55)
85.0 (3.35)
85.0 (3.35)
102.0 (4.02)
125.0 (4.92)
140.0 (5.51)
180.0 (7.09)
Orifice Thread
M5
M5
M5
M6
M8
M8
M5
M5
M5
M6
M8
M8
M5
M5
M5
M6
M8
M8
M5
M5
M5
M6
M8
M8
CE-CP.indd, ddp
19
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series C*W with Shuttle Valve
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
C
Cover
Code
016
025
032
040
050
063
Nominal
Size
Description
NG16
NG25
NG32
NG40
NG50
NG63
W
A
Cover
with
Shuttle Valve
and Pilot System
Mounting
Without
Additional
Option
1
Seals
2
3
4
Orifice / Choke
Code
N
V
Code
99
Description
Nitrile
Fluorocarbon
Design
Series
not required
for ordering
Description
Without Orifice, Open Orifice Options
For orifice recommendations, bolt and seal kits,
see Accessories.
Orifice position
Dimensions
Inch equivalents for millimeter dimensions are shown in (**)
Port Z2: O-ring recess diameter on valve body
Size
B
H
L1
NG16
NG25
NG32
NG40
NG50
NG63
65.0 (2.56)
85.0 (3.35)
102.0 (4.02)
125.0 (4.92)
140.0 (5.51)
180.0 (7.09)
40.0 (1.57)
45.0 (1.77)
50.0 (1.97)
60.0 (2.36)
70.0 (2.76)
85.0 (3.35)
79.0 (3.11)
85.0 (3.35)
102.0 (4.02)
125.0 (4.92)
140.0 (5.51)
180.0 (7.09)
Orifice Thread
M5
M5
M5
M6
M8
M8
M5
M5
M5
M6
M8
M8
M5
M5
M5
M6
M8
M8
M5
M5
M5
M6
M8
M8
CE-CP.indd, ddp
20
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Slip-in Cartridge Valves
Accessories
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Pilot Valve with Pressure Relief
Function R06M
Subplate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
Ordering Information
R06M
4
Pressure
Range
Code
10
17
21
25
35
Description
105 Bar (1523 PSI)
175 Bar (2538 PSI)
210 Bar (3045 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Pressure
Adjustment
Seal
Pilot
Oil
Code Description
S
Hand knob (standard)
L
Key lock
Code Description
N
Nitrile
V
Fluorocarbon
Design
Series
NOTE:
Not required
when ordering.
Dimensions R06M
Replaces DSDA (P07)
Accessories.indd, ddp
21
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Accessories
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Pilot Valve with Pressure Relief
Function RS06M
Sandwich Plate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
Ordering Information
RS06M
4
Pressure
Range
Code
10
17
21
25
35
Description
105 Bar (1523 PSI)
175 Bar (2538 PSI)
210 Bar (3045 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Pressure
Adjustment
Pilot
Oil
Code Description
S
Hand knob (standard)
L
Key lock
Seal
Code Description
N
Nitrile
V
Fluorocarbon
Design
Series
NOTE:
Not required
when ordering.
Dimensions RS06M
Replaces DSDA (Z07)
Accessories.indd, ddp
22
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Catalog HY14-3200/US
Technical Information
TABLE OF
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Pilot Valve with Proportional Relief
Function RPDM2*
Sandwich Mounting NG6
(see Combination Examples)
MTTFD value 150 years
* For technical details see Series RE06M*W.
Ordering Information
RPDM
2
V
Pressure
Adjustment
Pressure
Relief
Code Description
AT
A to T
PT
P to T
Pressure
Range
Code
10
17
25
35
Description
105 Bar (1523 PSI)
175 Bar (2538 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Solenoid
Voltage
Seal
Fluorocarbon
Code Description
K
12V, 2.3A
X
16V, 1.3A
Design
Series
NOTE:
Not required
when ordering.
Dimensions RPDM2
Accessories.indd, ddp
23
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Accessories
Catalog HY14-3200/US
Technical Information
TABLE OF
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Sandwich Valve with Pressure Relief
Function ZUD*AT*Z*
Sandwich Plate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
Z07
ZUDB1AT
Seal
Pressure
Adjustment
Code Description
Omit Nitrile
V
Fluorocarbon
Pressure
Range
Code Description
Hexagon Screw
2
with Locknut
61
Knob E10 Lock
Code
B
E
G
K
Description
70 Bar (1015 PSI)
175 Bar (2538 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Sandwich Valve with Pressure Relief
Function ZUD*PT*Z*
Sandwich Plate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
Z07
ZUDB1PT
Seal
Code Description
Omit Nitrile
V
Fluorocarbon
Pressure
Adjustment
Code Description
Hexagon Screw
2
with Locknut
61
Knob E10 Lock
Pressure
Range
Code
B
E
G
K
Description
70 Bar (1015 PSI)
175 Bar (2538 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Accessories.indd, ddp
24
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Accessories
Catalog HY14-3200/US
Technical Information
TABLE OF
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Pilot Valve with Preload Function DSB*P*
Subplate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
P07
DSBA100
Seal
Pressure
Adjustment
Code Description
Omit Nitrile
V
Fluorocarbon
Pressure
Range
Code Description
Hexagon Screw
2
with Locknut
61
Knob E10 Lock
Code
B
E
G
K
Description
70 Bar (1015 PSI)
175 Bar (2538 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Pilot Valve with Preload Function DSB*Z*
Sandwich Plate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
Z07
DSBA100
Seal
Code Description
Omit Nitrile
V
Fluorocarbon
Pressure
Adjustment
Code Description
Hexagon Screw
2
with Locknut
61
Knob E10 Lock
Pressure
Range
Code
B
E
G
K
Description
70 Bar (1015 PSI)
175 Bar (2538 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Accessories.indd, ddp
25
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Catalog HY14-3200/US
Technical Information
TABLE OF
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Pilot Valve with Unloading Function UR06M
Subplate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
UR 06 M
4
Pressure
Range
Code
07
17
25
35
Description
70 Bar (1015 PSI)
175 Bar (2538 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Pressure Pilot Oil Drain Seal
Adjustment
Internal
Code Description
S
Hand knob
L
Key lock
Code Description
N
Nitrile
V
Fluorocarbon
Replaces DAFA (P07)
Pilot Valve with Unloading Function US06M
Subplate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
US 06 M
4
Pressure
Range
Code
07
17
25
35
Description
70 Bar (1015 PSI)
175 Bar (2538 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Pressure Pilot Oil Drain Seal
Adjustment
Internal
Code Description
S
Hand knob
L
Key lock
Code Description
N
Nitrile
V
Fluorocarbon
Replaces DAFA (Z07)
Accessories.indd, ddp
26
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Accessories
Catalog HY14-3200/US
Technical Information
TABLE OF
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Pilot Valve with Pressure Sequence
Function S06M
Subplate Mounting NG6
(see Combination Examples)
MTTFD value 150 years
Ordering Information
S06M
4
Pressure
Range
Code
10
17
21
25
35
Description
105 Bar (1523 PSI)
175 Bar (2538 PSI)
210 Bar (3045 PSI)
250 Bar (3625 PSI)
350 Bar (5075 PSI)
Pressure
Adjustment
Pilot Oil
Inlet Internal/
Outlet Internal
Code Description
S
Hand knob (standard)
L
Key lock
Seal
Code Description
N
Nitrile
V
Fluorocarbon
Design
Series
NOTE:
Not required
when ordering.
Dimensions S06M
Replaces DNLA
Accessories.indd, ddp
27
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Return to
Slip-in Cartridge Valves
Accessories
Check Valve
Hydraulically Pilot Operated NG6
TABLE OF
CONTENTS
A
Size NG6 with pilot control for subplate assembly
B
Ordering Information
SVLA1006P07
C
D
E
F
Dimension
A
B
C
D
E
F
mm
(in.)
92.0
(3.62)
43.2
(1.70)
74.0
(2.91)
17.0
(0.67)
46.0
(1.81)
7.5
(0.30)
Shuttle Valve
Sandwich Plate NG6
A
Size NG6 with pilot control for subplate assembly
B
Ordering Information
ZSRA1PP0Z07
C
D
E
F
Dimension
A
B
C
D
E
F
mm
(in.)
80.0
(3.15)
43.2
(1.70)
74.0
(2.91)
17.0
(0.67)
46.0
(1.81)
7.5
(0.30)
Shuttle Valve
Sandwich Plate NG6
A
Size NG6 with pilot control for subplate assembly
B
Ordering Information
ZSRB1AA0Z07
C
D
E
F
Dimension
A
B
C
D
E
F
mm
(in.)
80.0
(3.15)
43.2
(1.70)
74.0
(2.91)
17.0
(0.67)
46.0
(1.81)
7.5
(0.30)
Accessories.indd, ddp
28
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Return to
Slip-in Cartridge Valves
Accessories
TABLE OF
CONTENTS
Adapter Plate
Size NG6 to NG10
Ordering Information
PADA1007/A-A/B-B
Adapter Plate
Size NG6 to NG10
Ordering Information
PADA1007/A-B/B-A
Attention:
For NG50 and larger: If pilot system NG6 is used, mount adapter plate PADA1007/A-B/B-A
or PADA1007/A-A/B-B (NG6 to NG10) on cover.
Adapter Plate: PADA1007/A-B/B-A or PADA1007/A-A/B-B
Sealing Kit: SK-PADA 1007
Bolt Kit: BK136
Accessories.indd, ddp
29
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Accessories
Catalog HY14-3200/US
Technical Information
Symbol
TABLE OF
CONTENTS
Type
Size
Height
PADA1007/A-A/B-B
NG6-NG10
25.0mm
(0.98 in.)
PADA1007/A-B/B-A
NG6-NG10
25.0mm
(0.98 in.)
H06-1044
NG6
30.0mm
(1.18 in.)
H06-1039
NG6
30.0mm
(1.18 in.)
H06-504
NG6
30.0mm
(1.18 in.)
H06-711
NG6
30.0mm
(1.18 in.)
H06-1274
NG6
30.0mm
(1.18 in.)
H06-1040
NG6
30.0mm
(1.18 in.)
Accessories.indd, ddp
30
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Accessories
Catalog HY14-3200/US
Technical Information
Symbol
TABLE OF
CONTENTS
Type
Size
Height
H06DO-1291
NG6
10.0mm
(0.39 in.)
H06DU-814
NG6
71.3mm
(2.81 in.)
SPD2T2SWS35
NG6
25.4mm
(1.00 in.)
CS06082N
NG6
40.3mm
(1.59 in.)
SPD2A1*NS35
NG6
19.1mm
(0.75 in.)
D51VP071D
NG6
26.3mm
(1.04 in.)
SPD2C1*NS35
SPD3C1*NS35
NG6
NG10
19.1mm (0.75 in.)
19.1mm (0.75 in.)
Accessories.indd, ddp
31
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series CE, C, CP
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Poppets, Cages, Spacer Rings
Size
Poppet 01
Poppet 04
Poppet 07
Poppet 08
CE-Sleeve
CP-Sleeve
Spacer Ring
NG16
RK-45036369
RK-45036370
RK-35037531
RK-45036368
RK-35038871
RK-35039384
RK-35036364
NG25
RK-45036379
RK-45036380
RK-45036964
RK-45036381
RK-35038872
RK-35039385
RK-35036375
NG32
RK-45036392
RK-45036395
RK-45036965
RK-45036391
RK-35038873
RK-35039386
RK-35036393
NG40
RK-45036409
RK-45036406
RK-45036966
RK-45036408
RK-35036403
RK-35039387
RK-35036402
NG50
RK-45036421
RK-45036422
RK-45036967
RK-45036424
RK-35036417
RK-35039388
RK-35036416
NG63
RK-45036437
RK-45036436
RK-45036968
RK-45036438
RK-35036432
RK-35039389
RK-35036435
NG80
RK-35036449
RK-35036460
—
RK-35036459
RK-25036452
—
RK-25036453
NG100
RK-35036467
RK-35036468
—
RK-35036469
RK-25036470
—
RK-25036471
Springs, Seals, Fitting Bolts
Size
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
Type L
0.1 Bar (1.5 PSI)
FK-CE016-L
FK-CE025-L
FK-CE032-L
FK-CE040-L
FK-CE050-L
FK-CE063-L
FK-CE080-L
FK-CE100-L
Type N
0.5 Bar (7.3 PSI)
FK-CE016-N FK-CE025-N FK-CE032-N
FK-CE040-N
FK-CE050-N FK-CE063-N FK-CE080-N
FK-CE100-N
Type S
1.6 Bar (23.2 PSI)
FK-CE016-S FK-CE025-S
FK-CE040-S
FK-CE050-S
FK-CE063-S FK-CE080-S
FK-CE100-S
FK-CE040-T
FK-CE050-T
FK-CE063-T
FK-CE040-U
FK-CE050-U FK-CE063-U FK-CE080-U
Spring *
FK-CE032-S
Type T
FK-CE016-T FK-CE025-T FK-CE032-T
2.5 Bar (36.3 PSI)
Type U
FK-CE016-U FK-CE025-U FK-CE032-U
4.0 Bar (58.0 PSI)
Seal Kits
Fluorcarbon SK-CBE160V SK-CBE250V SK-CBE320V
Nitrile SK-CBE160 SK-CBE250 SK-CBE320
Bolt Kits
(DIN 912 12.9)
Bolt Kits
(US)
Recommended
Torque Nm (lb.-ft.)
FK-CE080-T FK-CE0100-T
FK-CE100-U
SK-CBE400V SK-CBE500V SK-CBE630V SK-CBE800V SK-CBE1000V
SK-CBE400V SK-CBE500 SK-CBE630 SK-CBE800 SK-CBE1000
BK414
4x M8x40
BK391
4x M12x50
BK415
4x M16x55
BK416
4x M20x70
BK417
4x M2x75
BK418
4x M30x100
BK419
4x M24x120
BK420
4x M30x130
BK84
5/16–18x1.5
BK77
1/2–13x2
BK85
5/8–11x2.25
BK86
3/4–10x2.75
BK87
3/4–10x3.0
BK88
1 1/4–7x4.00
BK135
1–8x5.00
BK90
1 1/4–7x5.5
27
(19.9)
94
(69.3)
234
(172.6)
460
(339.3)
460
(339.3)
1570
(1157.9)
790
(582.6)
1570
(1157.9)
* 1 spring kit contains 10 springs
Ordering Example: FK-CE016 ⇒ 10 pcs., type U
Accessories.indd, ddp
32
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Return to
Slip-in Cartridge Valves
Series CE, C, CP
TABLE OF
CONTENTS
Diagram to Choose the Orifice Ø
Values measured at a viscosity of 40 cSt (187 SSU) and a temperature of 50°C (122°F).
Orifices
There are different orifices available to realize different opening / closing velocities.
The control volume of each nominal valve size can be found at the CE series.
Orifice Kits, Sorted by Thread with Different Diameters
Orifice Kit
Ø mm
(in.)
DK-M4
DK-M5
DK-M6
DK-M8
DK-M10x1
DK-1/16NPT
DK-1/8NPT
0.0
(0.0)
x
x
x
x
x
x
x
Orifice Kit, sorted by thread with different diameters, consisting of 2 pieces of each marked diameter
0.8
0.9
1.0
1.1
1.2
1.3
1.5
1.8
2.0
2.2
2.5
3.0
(0.03)
(0.04)
(0.04)
(0.04)
(0.05)
(0.05)
(0.06)
(0.07)
(0.08)
(0.09)
(0.10)
(0.12)
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
x
Orifice Kits, Thread with One Defined Diameter, 20 pieces per Box
Orifice kits of one size:
Ordering Examples:
DK-M4-06 ⇒ 20 pcs., orifice size 0.8mm (0.03 in.)
DK-M5-10 ⇒ 20 pcs., orifice size 1.0mm (0.04 in.)
DK-M8-12 ⇒ 20 pcs., orifice size 1.2mm (0.05 in.)
Orifice gauge: Order no. DK-05-30
Accessories.indd, ddp
33
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Slip-in Cartridge Valves
Series CE, C, CP
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Removal CE016 to CE063
The extracting tools consist of tee bar, slide hammer,
support handle, and expanding collet (Figure 1).
At first the spacer ring is removed. Next, spring and
poppet are withdrawn. Finally, the expanding collet is
inserted into the sleeve and braced by means of the
tee bar. Using the slide hammer, collet and sleeve are
extracted from the cavity.
Ordering Information
Valve Size
CE016
CE025
CE032
CE040
CE050
CE063
CE016 to CE063
Order No.
090460009779
090460009780
090460009781
090460009782
090460009783
090460009784
090460009785
Figure 1
Removal CE080 to CE100
The extracting tools consist of spacer ring puller
(Figure 4), puller (Figure 3), and puller thrust plate.
At first the spacer ring is removed. Next the puller is
inserted into the sleeve and aligned by the puller thrust
plate. Tightening the nut then extracts the sleeve from
the cavity.
Ordering Information
Valve Size
CE080
CE100
Order No.
090460010628
090460010629
Figure 2
Figure 3
Figure 4
Accessories.indd, ddp
34
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Cartridge Manifold Blocks
Series CB
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
General Description
Cartridge Manifold Blocks are bodies for 2/2-way slip-in
cartridge valves. They are used in systems with only
one cartridge valve without the need to design a specific manifold block.
The pilot ports X and Y can either be connected to A
and B or vice versa by changing the mounting position
of the cartridge cover.
The wide range of Parker slip-in cartridge valves allows
to design solutions for all hydraulic requirements.
Features
• Flanges SAE 61 or SAE 62 respectively CETOP square
flange.
• 2 options for pilot oil supply and drain.
• 7 sizes.
Specifications
General
Interface
ISO 7368-B*-*-2-A/B
Mounting Position
Unrestricted
Maximum Operating
Pressure
138 Bar (2000 PSI) to 420 Bar (6090 PSI) depending on pmax of flanges
Flanges
SAE 61 (3000 PSI Series), SAE 62 (6000 PSI Series) ISO 6162,
CETOP Square Flange (400 Bar series)
Ordering Information
CB
Cartridge
Manifold
Block
Nominal
Size
Code
016
025
032
040
050
063
080
A
1
Function
In – Out
Manifold
for
1 Cartridge
Flange
Size
Code
34
35
36
38
310
312
64
65
66
68
70
80
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
Size
016
025
032
040
050
063
016
025
032
040/050
063
080
10
W
Design
Series
Without
Assembly
Flange
1" SAE 61
1 1/4" SAE 61
1 1/2" SAE 61
2" SAE 61
2 1/2" SAE 61
3" SAE 61
1" SAE 62
1 1/4" SAE 62
1 1/2" SAE 62
2" SAE 62
3 1/2" PN400
4" PN400
Accessories.indd, ddp
35
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Cartridge Manifold Blocks
Series CB
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Dimensions are shown in millimeters only.
R
S
26.2
52.4
CB016A16410W
M8 x 16
M12x19
27.8
57.2
CB025A13510W
M10 x 18
M10x20
30.2
58.7
CB025A16510W
M10 x 18
M14x22
31.8
66.6
CB032A13610W
M16 x 30
M12x24
35.7
69.9
CB032A16610W
M16 x 30
M16x32
36.5
79.3
CB040A13810W
M16 x 30
M12x24
42.9
77.8
CB040A16810W
M16 x 30
M20x40
44.5
96.8
CB050A131010W
M16 x 30
M12x24
50.8
88.9
CB050A16810W
M16 x 30
M20x40
44.5
96.8
CB063A131210W
M16 x 30
M16x30
61.9
106.4
CB063A17010W
M16 x 30
M20x33
102.5
102.5
CB080A18010W
M16 x 30
M24x50
113.2
113.2
Ordering Code
CB016A13410W
CB016A16410W
CB025A13510W
CB025A16510W
CB032A13610W
CB032A16610W
CB040A13810W
CB040A16810W
CB050A131010W
CB050A16810W
CB063A131210W
CB063A17010W
CB080A18010W
Max. Operating
Pressure (Bar)
Dimensions are shown in millimeters only.
A
B
C
D
E
G
H
I
K
L
N
O
P
Q
Port A and B
350
420
280
420
210
420
210
420
172
420
138
400
400
105.0
105.0
125.0
125.0
125.0
125.0
145.0
145.0
155.0
155.0
192.0
192.0
270.0
80.0
80.0
100.0
100.0
125.0
125.0
145.0
145.0
155.0
155.0
192.0
192.0
270.0
105.0
105.0
125.0
125.0
145.0
145.0
170.0
170.0
190.0
190.0
240.0
240.0
270.0
38.5
38.5
50.0
50.0
72.5
72.5
85.0
85.0
95.0
95.0
120.0
120.0
135.0
34.0
34.0
43.0
43.0
51.0
51.0
65.0
65.0
70.0
70.0
86.5
86.5
120.0
38.5
38.5
50.0
50.0
72.5
72.5
85.0
85.0
95.0
95.0
120.0
120.0
135.0
45.0
45.0
55.0
55.0
55.0
55.0
70.0
70.0
70.0
70.0
86.5
86.5
120.0
13.0
13.0
15.0
15.0
15.0
15.0
20.0
20.0
20.0
20.0
20.0
20.0
20.0
13.5
13.5
17.0
17.0
31.5
31.5
35.0
35.0
37.0
37.0
45.0
45.0
35.0
75.5
75.5
94.5
94.5
125.0
125.0
150.0
150.0
170.0
170.0
220.0
220.0
250.0
10.0
10.0
10.0
10.0
15.0
15.0
15.0
15.0
15.0
15.0
15.0
15.0
15.0
10.0
10.0
10.0
10.0
15.0
15.0
15.0
15.0
15.0
15.0
15.0
15.0
15.0
85.0
85.0
105.0
105.0
95.0
95.0
115.0
115.0
125.0
125.0
165.0
162.0
240.0
85.0
85.0
105.0
105.0
115.0
115.0
140.0
140.0
160.0
160.0
210.0
210.0
240.0
1“ SAE 61
1“ SAE 62
1-1/4“ SAE 61
1-1/4“ SAE 62
1-1/2“ SAE 61
1-1/2“ SAE 62
2“ SAE 61
2“ SAE 62
2-1/2“ SAE 61
2“ SAE 62
3“ SAE 61
3-1/2“ PN 400
4“ PN 400
G1/4
G1/4
G1/4
G1/4
G1/4
G1/4
G3/8
G3/8
G3/8
G3/8
G3/8
G3/8
G3/8
M5 6.0
M5 6.0
M6 11.0
M6 11.0
M6 16.0
M6 16.0
M8 25.0
M8 25.0
M8 32.0
M8 32.0
M8 63.0
M8 63.0
M8 139.0
Cartridge Manifold Blocks are supplied with a set of plugs and orifices
Accessories.indd, ddp
36
Weight (kg)
M2
M10x20
Orifice thread
1 and 2
M1
M8 x 16
Port 1 and 2
Ordering Code
CB016A13410W
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Return to
Pressure Relief Valves
Series R / RS*E
TABLE OF
CONTENTS
General Description
Series R pressure relief valves consist of a manual
adjusted pilot stage and a cartridge main stage.
Series RS*E consists of a manual adjusted pilot stage
with a directional valve for an electrically controlled
vent function and a cartridge main part.
The R/RS*E model codes embrace the pilot valves,
covers and cartridges that are also offered as seperate
items. See combination examples for details.
RS*E
R*E
Features
• Pilot operated with manual adjustment.
• Cavity and mounting pattern according to ISO 7368.
• 4 pressure ranges.
• 2 switching types (series RS*E).
• 2 adjustment modes:
– Hand knob
– Key lock
•
• 6 sizes, NG16 to NG63.
RS*E (simplified symbol)
Remote control via port X.
Note: Port X only usable for remote vent function
R*E
RS*E
R-RS_E.indd, ddp
37
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Ordering Information
R
E
Pressure
Relief Valve
Code
16
25
32
40
50
63
Nominal
Size
Slip-in
Mounting
ISO 7368
Pressure
Range
Adjustment
S
Pilot Oil
Pilot Internal
Drain External
Poppet
Spring
E
Pressure Nominal Slip-in
Pressure
Relief Valve
Size
Mounting Range
with Electric
ISO 7368
Unloading
Description
NG16
NG25
NG32
NG40
NG50
NG63
CodeDescription
07
up to 70 Bar (1015 PSI)
10
up to 105 Bar (1522 PSI)
17
up to 175 Bar (2538 PSI)
21
up to 210 Bar (3000 PSI)
25
up to 250 Bar (3625 PSI)
35
up to 350 Bar (5075 PSI)
TABLE OF
CONTENTS
Seals
Design
Spool Type
Series
NOTE:
Not required
when ordering.
Code
Omit
S07
CodeDescription
07
up to 70 Bar (1015 PSI)
10
up to 105 Bar (1522 PSI)
17
up to 175 Bar (2538 PSI)
21
up to 210 Bar (3000 PSI)
25
up to 250 Bar (3625 PSI)
35
up to 350 Bar (5075 PSI)
Code
16
25
32
40
50
63
1
Description
NG16
NG25
NG32
NG40
NG50
NG63
RS
Return to
Pressure Relief Valves
Series R / RS*E
Catalog HY14-3200/US
Code
S
L
1
Adjustment Pilot Oil
Pilot
Internal
Drain
External
Code
S
L
Code
N
V
Description
Hexagon Screw
with Lock Nut
Key Lock
Code
1
9
2.2 kg (4.9 lbs.)
3.5 kg (7.7 (lbs.)
4.9 kg (10.8 lbs.)
8.0 kg (17.6 lbs.)
13.7 kg (30.2 lbs.)
22.8 kg (50.3 lbs.)
W
Poppet
Spring
Seals
Switching
Type
Solenoid Without Options
Plug
Design Spool Type
Series
NOTE:
Not required
when ordering.
Code
Omit
S
Description
Hexagon Screw
with Lock Nut
Key Lock
Code
N
V
Description
Nitrile
Fluorocarbon
Weight:
R16E
R25E
R32E
R40E
R50E
R63E
S
Description
Standard
With Poppet
Seals
Code
Omit
S07
Description
Nitrile
Fluorocarbon
Description
Solenoid not activated,
unpressurized circulation
Solenoid activated,
unpressurized circulation
Description
Standard
With Slow
Unloading
Code
K
J
U
G
1)
Description
Standard
With Poppet
Seals
Description
12V
24V
98V 1)
205V 1)
Use plug with rectifier
at AC
Weight:
RS16E
RS25E
RS32E
RS40E
RS50E
RS63E
2.7 kg (6.0 lbs.)
5.2 kg (11.5 (lbs.)
6.4 kg (14.1 lbs.)
9.5 kg (20.9 lbs.)
15.2 kg (33.5 lbs.)
24.3 kg (53.6 lbs.)
R-RS_E.indd, ddp
38
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Pressure Relief Valves
Series R / RS*E
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Specifications — R*E, RS*E
General
Size
Interface
Mounting Position
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Pressure Range
Nominal Flow
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
NG16
NG25
NG32
Slip-in mounting according to ISO 7368
As desired, horizontal mounting preferred
-20°C to +80°C (-4°F to +176°F)
NG40
NG50
Ports A and X up to 350 Bar (5075 PSI), Ports B and Y depressurized
70, 175, 250, 350 Bar (1015, 2538, 3625, 5075 PSI)
220 LPM
500 LPM
950 LPM
1400 LPM
2300 LPM
(58 GPM)
(132 GPM)
(251 GPM)
(370 GPM)
(609 GPM)
Hydraulic oil according to DIN 51524 ... 525
30 to 50 cSt (mm2s)
20 to 380 cSt (mm2s)
-20°C to +70°C (-4°F to +158°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
NG63
4000 LPM
(1058 GPM)
Specifications — RS*E
Electrical (Solenoid)
Duty Ratio
Maximum Switching Frequency
Protection Class
Direct Current
Code
Supply Voltage
Power
Current
Solenoid Connection
Wiring Minimum
Wiring Length Maximum
100% ED; CAUTION: coil temperature up to 180°C (356°F) possible
16000 switchings per hour
IP65 in accordance with EN 60529 (plugged and mounted)
K
J
U
G
12 VDC
24 VDC
98 VDC
205 VDC
31 W
31 W
31 W
31 W
2.5 amps
1.25 amps
0.31 amps
0.15 amps
Connector as per EN 175301-803
3 x 1.5 mm² recommended
50m (164 ft.) recommended
Performance Curves
p/Q Performance 1)
1)
Minimum Pressure
The performance curves are measured with external drain.
For internal drain the tank pressure has to be added to curve.
R-RS_E.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Pressure Relief Valves
Series R*E
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG16 - NG32
1)
NG40 - NG63 1)
Size
H
B
L1
L2
L3
L4
d1
d2
t
NG16
40.0
(1.57)
65.0 2)
(2.56)
32.5
(1.28)
–
114.0
(4.49)
125.5
(4.94)
32.0
(1.26)
25.0
(0.98)
56.0
(2.20)
NG25
47.0
(1.85)
85.0
(3.35)
42.5
(1.67)
–
102.0
(4.02)
114.0
(4.49)
45.0
(1.77)
34.0
(1.34)
71.0
(2.80)
NG32
50.0
(1.97)
102.0
(4.02)
51.0
(2.01)
–
95.0
(3.74)
106.0
(4.17)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
NG40 1)
106.0
(4.17)
125.0
(4.92)
62.5
(2.46)
66.5
(2.62)
106.0
(4.17)
144.0
(5.67)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
NG50
141.0
(5.55)
140.0
(5.51)
70.0
(2.76)
74.0
(2.91)
106.0
(4.17)
144.0
(5.67)
90.0
(3.54)
68.0
(2.68)
121.0
(4.76)
NG63
155.0
(6.10)
180.0
(7.09)
90.0
(3.54)
94.0
(3.70)
106.0
(4.17)
144.0
(5.67)
120.0
(4.72)
90.0
(3.54)
155.0
(6.10)
NG40 without adapter plate2) Width 79mm (3.11 in.)
NG
Bolt Kit
16
25
32
40
50
63
BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
DIN912 12.9
4 x M8x40
4 x M12x50
4 x M16x55
4 x M20x70
4 x M20x75
4 x M30x100
33 Nm (24.3 lb.-ft.)
115 Nm (84.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-R16E25
SK-R25E25
SK-R32E25
SK-R40E25
SK-R50E25
SK-R63E25
Fluorocarbon
SK-R16EV25
SK-R25EV25
SK-R32EV25
SK-R40EV25
SK-R50EV25
SK-R63EV25
R-RS_E.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
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Pressure Relief Valves
Series RS*E
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG16 - NG32
1)
NG40 - NG63 1)
Size
H
B
L1
L2
L3
L4
L5
d1
d2
t
NG16
133.0
(5.24)
65.0 2)
(2.56)
32.5
(1.28)
–
114.0
(4.49)
125.5
(4.94)
117.0
(4.61)
32.0
(1.26)
25.0
(0.98)
56.0
(2.20)
NG25
137.0
(5.39)
85.0
(3.35)
42.5
(1.67)
–
102.0
(4.02)
114.0
(4.49)
117.0
(4.61)
45.0
(1.77)
34.0
(1.34)
71.0
(2.80)
NG32
143.0
(5.63)
102.0
(4.02)
51.0
(2.01)
–
95.0
(3.74)
106.0
(4.17)
117.0
(4.61)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
NG40 1)
196.0
(7.72)
125.0
(4.92)
62.5
(2.46)
66.5
(2.62)
106.0
(4.17)
144.0
(5.67)
117.0
(4.61)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
NG50
231.0
(9.09)
140.0
(5.51)
70.0
(2.76)
74.0
(2.91)
106.0
(4.17)
144.0
(5.67)
117.0
(4.61)
90.0
(3.54)
68.0
(2.68)
121.0
(4.76)
NG63
246.0
(9.69)
180.0
(7.09)
90.0
(3.54)
94.0
(3.70)
106.0
(4.17)
144.0
(5.67)
117.0
(4.61)
120.0
(4.72)
90.0
(3.54)
155.0
(6.10)
NG40 without adapter plate2) Width 79mm (3.11 in.)
NG
Bolt Kit
16
25
32
40
50
63
BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
DIN912 12.9
4 x M8x40
4 x M12x50
4 x M16x55
4 x M20x70
4 x M20x75
4 x M30x100
33 Nm (24.3 lb.-ft.)
115 Nm (84.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-RS16E25
SK-RS25E25
SK-RS32E25
SK-RS40E25
SK-RS50E25
SK-RS63E25
Fluorocarbon
SK-RS16EV25
SK-RS25EV25
SK-RS32EV25
SK-Rs40EV25
SK-RS50EV25
SK-RS63EV25
R-RS_E.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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TABLE OF
CONTENTS
Catalog HY14-3200/US
Notes
R-RS_E.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Proportional Pressure Relief Valves
Series RE*E*W
General Description
Series RE*E*W proportional pressure relief valves
consist of a proportional pilot stage and a slip-in cartridge main stage. A mechanical maximum pressure
stage is optionally available. For sizes NG25 and NG32
a screw-in cartridge is used; for sizes NG40, NG50
and NG63 an additional sandwich unit is used.
The RE*W model code embraces the pilot valves,
covers and cartridges that are also offered as separate
items. See combination examples for details.
In combination with the digital power amplifier
PCD00A-400 the valve parameters can be saved,
changed and duplicated.
Features
• Pilot operated with proportional solenoid.
• Continuous adjustment by proportional solenoid.
• Optional mechanical maximum pressure stage.
• Cavity and mounting pattern according to ISO 7368.
• 4 pressure ranges.
• 6 sizes, NG16 to NG63.
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Parker Hannifin Corporation
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TABLE OF
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Proportional Pressure Relief Valves
Series RE*E*W
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Pressure Range
Nominal Flow
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
Electrical (Proportional Solenoid)
Duty Ratio
Protection Class
Nominal Voltage
Coil Resistance
Solenoid Connection
Power Amplifier Recommended
NG16
NG25
NG32
Slip-in mounting according to ISO 7368
As desired, horizontal mounting preferred
-20 to +80°C (-4 to +176°F)
NG40
NG50
Ports A and X: 350 Bar (5075 PSI), Ports B and Y: depressurized
105, 175, 250, 350 Bar (1523, 2538, 3625, 5075 PSI)
220 LPM
500 LPM
950 LPM
1400 LPM
2300 LPM
(58 GPM)
(132 GPM)
(251 GPM)
(370 GPM)
(609 GPM)
Hydraulic oil according to DIN 51524 ... 525
30 to 50 cSt (mm2/s)
20 to 380 cSt (mm2/s)
-20 to +70°C (-4 to +158°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
NG63
4000 LPM
(1058 GPM)
100% ED
IP65 in accordance with EN 60529 (plugged and mounted)
12 VDC (maximum current 2.3 amps), 16 VDC (maximum current 1.3 amps)
4 Ohm at 20°C (68°F)
Connector as per EN 175301-803
PCD00A-400
Ordering Information
RE
E
Proportional Nominal Slip-in
Size
Pressure
Mounting
Relief Valve
ISO 7368
Code
16
25
32
40*
50*
63*
W
Pressure Offboard
Range Electronics
Description
NG10
NG25
NG32
NG40
NG50
NG63
1
1
S
Pilot Oil
Pilot
Internal
Drain
External
Poppet
Spring
Code
N
V
Seals
Normally
Open
W
Solenoid Without Options Design Spool Type
Plug
Series
NOTE:
Not required
when ordering.
Description
Nitrile
Fluorocarbon
Code
Omit
M
Description
Standard
Mechanical
Maximum
Adjustment
Code
Omit
S07
* with poppet seal.
CodeDescription
10
up to 105 Bar (1523 PSI)
17
up to 175 Bar (2538 PSI)
25
up to 250 Bar (3625 PSI)
35
up to 350 Bar (5075 PSI)
Description
Standard
With Poppet
Seals
Code Description
K
12V, 2.3A
X
16V, 1.3A
Weight:
RE16E*W
RE25E*W
RE32E*W
RE40E*W
RE50E*W
RE63E*W
2.7 kg (6.0 lbs.)
5.2 kg (11.5 (lbs.)
6.4 kg (14.1 lbs.)
9.5 kg (20.9 lbs.)
15.2 kg (33.5 lbs.)
24.3 kg (53.6 lbs.)
RE_E_W.indd, ddp
44
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Performance Curves
Proportional Pressure Relief Valves
Series RE*E*W
The performance curves are measured with external drain. For internal drain the tank pressure has to be added to curve.
Signal / Pressure
p/Q Performance
Minimum Pressure
RE_E_W.indd, ddp
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Parker Hannifin Corporation
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Return to
TABLE OF
CONTENTS
Catalog HY14-3200/US
Dimensions
Proportional Pressure Relief Valves
Series RE*E*W
NG16 - NG32
NG40 - NG63
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Parker Hannifin Corporation
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TABLE OF
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Return to
Proportional Pressure Relief Valves
Series RE*E*W
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
H
135.0
(5.31)
B
79.0 1)
(3.11)
d1
32.0
(1.26)
d2
25.0
(0.98)
t
56.0
(2.20)
NG25
140.0
(5.51)
85.0
(33.5)
45.0
(1.77)
34.0
(1.34)
72.0
(2.83)
NG32
145.0
(5.71)
102.0
(4.02)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
NG40
137.0 (5.39) 2)
179.0 (7.05) 2)
125.0
(4.92)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
NG50
172.0 (6.77) 2)
214.0 (8.43) 2)
140.0
(5.51)
90.0
(3.54)
68.0
(2.68)
122.0
(4.80)
NG63
187.0 (7.36) 2)
229.0 (9.02) 2)
180.0
(7.09)
120.0
(4.72)
90.0
(3.54)
155.0
(6.10)
NG16
Width 65mm (2.56 in.)
With mechanical maximum adjustment
1)
2)
NG
16
25
32
40
50
63
Bolt Kit BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
33 Nm (24.3 lb.-ft.)
115 Nm (84.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-RE16E
SK-RE25E
SK-RE32E
SK-RE40E
SK-RE50E
SK-RE63E
Fluorcarbon
SK-RE16EV
SK-RE25EV
SK-RE32EV
SK-RE40EV
SK-RE50EV
SK-RE63EV
RE_E_W.indd, ddp
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Parker Hannifin Corporation
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TABLE OF
CONTENTS
Catalog HY14-3200/US
Notes
RE_E_W.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Proportional Pressure Relief Valves
Series RE*E*T (Onboard Electronics)
General Description
Series RE*E*T proportional pressure relief valves consist of a proportional pilot stage with onboard electronics and a slip-in cartridge main stage. A mechanical
maximum pressure stage is optionally available. For
sizes NG25 and NG32 a screw-in cartridge is used; for
sizes NG40, NG50 and NG63 an additional sandwich
unit is used.
The valve comes factory set with linearized characteristics.
The RE*T model code embraces the pilot valves,
covers and cartridges that are also offered as separate
items. The pilot valve with onboard electronics
(RE06M*T) is not shown in the combination examples
Features
• Pilot operated with proportional solenoid.
• Onboard electronics.
• Optional mechanical maximum pressure stage.
• Factory setting.
• Ramp time adjustment.
• Linearized characteristics.
• 4 pressure ranges.
• Cavity and mounting pattern according to ISO 7368.
• 6 sizes, NG16 to NG63.
RE_E_T.indd, ddp
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Parker Hannifin Corporation
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Return to
Proportional Pressure Relief Valves
Series RE*E*T (Onboard Electronics)
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Pressure Range
Nominal Flow
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
Electrical (Proportional Solenoid)
Duty Ratio
Protection Class
Supply Voltage
Ripple in Supply Voltage
Current Consumption
Input Range
Voltage Input
Current Input
Adjustment Range of Ramp Time
Installation Cross-section
Cable Length
Electrical Connection
NG16
NG25
NG32
Slip-in mounting according to ISO 7368
As desired, horizontal mounting preferred
-20 to +80°C (-4 to +176°F)
NG40
NG50
Ports A and X: 350 Bar (5075 PSI), ports B and Y: depressurized
105, 175, 250, 350 Bar (1523, 2538, 3625, 5075 PSI)
220 LPM
500 LPM
950 LPM
1400 LPM
2300 LPM
(58 GPM)
(132 GPM)
(251 GPM)
(370 GPM)
(609 GPM)
Hydraulic oil according to DIN 51524 ... 525
30 to 50 cSt (mm2/s)
20 to 380 cSt (mm2/s)
-20 to +70°C (-4 to +158°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
NG63
4000 LPM
(1058 GPM)
100% ED
IP65 in accordance with EN 60529 (plugged and mounted)
14.5 VDC to 30 VDC
5% maximum
2.8 amps maximum
0 to +10V maximum / 10k Ohm
4 to +20mA / 500 Ohm
0 to 5s
1 mm2 minimum, shielded
50 m (164 ft.) maximum
No. 5004072; 6 pole + PE / Connector as per EN 175201-804 / cable - 8 to 10 mm
Ordering Information
RE
E
Proportional Nominal Slip-in
Size
Pressure
Mounting
Relief Valve
ISO 7368
w/Electric
Unloading
Code
16
25
32
40
50
63
T
1
1
S
Pressure Offboard Pilot Oil Poppet
Range Electronics
Spring
Pilot
Internal
Drain
External
Description
NG16
NG25
NG32
NG40
NG50
NG63
Code
N
V
Seals
Normally Command Electrical Options
Open
Signal Attachments
Design Spool Type
Series
NOTE:
Not required
when ordering.
Description
Nitrile
Fluorocarbon
Code
F
R
CodeDescription
10
up to 105 Bar (1523 PSI)
17
up to 175 Bar (2538 PSI)
25
up to 250 Bar (3625 PSI)
35
up to 350 Bar (5075 PSI)
0
Description
Voltage input
0 to +10V with
ref. output +10V
Current input
4 to 20mA
Code
Omit
M
Description
Standard
Mechanical
Maximum
Adjustment
Code
Omit
S07 1)
Description
Standard
With Poppet
Seals
Not for NG16
1)
Weight:
RE16E*T 2.7 kg (6.0 lbs.)
RE25E*T 5.2 kg (11.5 (lbs.)
RE32E*T 6.4 kg (14.1 lbs.)
RE40E*T 9.5 kg (20.9 lbs.)
RE50E*T 15.2 kg (33.5 lbs.)
RE63E*T 24.3 kg (53.6 lbs.)
RE_E_T.indd, ddp
50
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Performance Curves
Proportional Pressure Relief Valves
Series RE*E*T (Onboard Electronics)
The performance curves are measured with external drain. For internal drain the tank pressure has to be added to curve.
Signal / Pressure
p/Q Performance
Minimum Pressure
RE_E_T.indd, ddp
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Parker Hannifin Corporation
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TABLE OF
CONTENTS
Catalog HY14-3200/US
Block Diagram — Wiring
Proportional Pressure Relief Valves
Series RE*E*T (Onboard Electronics)
Code F
6 + PE acc. EN 175201-804
Code R
6 + PE acc. EN 175201-804
RE_E_T.indd, ddp
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Parker Hannifin Corporation
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Catalog HY14-3200/US
Technical Information
Proportional Pressure Relief Valves
Series RE*E*T (Onboard Electronics)
ProPxD Interface Program
Features
• Simple editing of all parameters.
• Depiction and documentation of parameter sets.
• Storage and loading of optimized parameter adjustments.
• Executable with all Windows operating systems from
The ProPxD software permits comfortable parameter
setting for the electronic modules Series PCD, PWD,
PZD, PID and PWDXX.
Via the clearly arranged entry mask the parameters can
be displayed and modified. Storage of complete parameter sets is possible as well as printout or record as a
text file for further documentation. Stored parameter sets
may be loaded anytime and transmitted to the electronic
module in the same manner as the basic parameters
which are available for all usable valve series. Inside the
electronics a nonvolatile memory stores the data with
the option for recalling or modification.
®
Windows® 95 upwards.
• Communication between PC and electronic via serial
interface RS-232C and null modem cable.
• Simple to use PC user software, free of charge:
www.parker.com/euro_hcd
– see “Software Downloads”
The parametrizing cable may be ordered under item no. 40982923.
RE_E_T.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
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Return to
TABLE OF
CONTENTS
Catalog HY14-3200/US
Dimensions
Proportional Pressure Relief Valves
Series RE*E*T (Onboard Electronics)
NG16 - NG32
NG40 - NG63
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Parker Hannifin Corporation
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TABLE OF
CONTENTS
Proportional Pressure Relief Valves
Series RE*E*T (Onboard Electronics)
Catalog HY14-3200/US
Dimensions
Inch equivalents for millimeter dimensions are shown in (**)
Size
H
B
d1
d2
t
NG16
177.0
(6.97)
79.0 1)
(3.11)
32.0
(1.26)
25.0
(0.98)
56.0
(2.20)
NG25
122.0
(4.80)
85.0
(33.5)
45.0
(1.77)
34.0
(1.34)
72.0
(2.83)
NG32
127.0
(5.00)
102.0
(4.02)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
NG40
137.0 (5.39) 2)
179.0 (7.05) 2)
125.0
(4.92)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
NG50
172.0 (6.77) 2)
214.0 (8.43) 2)
140.0
(5.51)
90.0
(3.54)
68.0
(2.68)
122.0
(4.80)
NG63
187.0 (7.36) 2)
229.0 (9.02) 2)
180.0
(7.09)
120.0
(4.72)
90.0
(3.54)
155.0
(6.10)
Width 65mm (2.56 in.)
With mechanical maximum adjustment
1)
2)
NG
16
25
32
40
50
63
Bolt Kit BK414 (BK84)
BK391 (BK77)
BK415 (B K85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
33 Nm (24.3 lb.-ft.)
115 Nm (84.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-RE16E
SK-RE25E
SK-RE32E
SK-RE40E
SK-RE50E
SK-RE63E
Fluorocarbon
SK-RE16EV
SK-RE25EV
SK-RE32EV
SK-RE40EV
SK-RE50EV
SK-RE63EV
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TABLE OF
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Catalog HY14-3200/US
Technical Information
Pressure Unloading Valves
Series UR*E / US*E
General Description
Series UR*E unloading valves consist of a mechanical
pilot stage and a slip-in cartridge main stage. These
valves are used to unload a circuit at low pressure. The
mechanically adjustable pressure signal to unload the
main stage has to be applied to port X. The pressure
differential between opening and closing is 15%.
In addition, Series US*E is vented by electrical operation. The UR*E/US*E model codes embrace the pilot
valves, covers and cartridges that are also offered as
separate items. See combination examples for details.
US25E
UR*E
Features
• Pilot operated unloading valve.
• Cavity and mounting pattern according to ISO 7368.
• 4 pressure ranges.
• 2 adjustment modes:
– Hand knob
– Key lock
US*E
• 6 sizes, NG16 to NG63.
Note: Port X only usable for remote vent function.
UR*E
US*E
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Pressure Unloading Valves
Series UR*E / US*E
Catalog HY14-3200/US
Ordering Information
TABLE OF
CONTENTS
UR*E
UR
E
Unloading
Valve
Slip-in
Mounting
ISO 7368
Nominal
Size
Code
16
25
32
40
50
63
Pressure
Range
Adjustment
1
S
Pilot Oil
Pilot Internal
Drain External
Poppet
Spring
Description
NG16
NG25
NG32
NG40
NG50
NG63
Code
N
V
Code
L
S
CodeDescription
07
up to 70 Bar (1015 PSI)
17
up to 175 Bar (2538 PSI)
25
up to 250 Bar (3625 PSI)
35
up to 350 Bar (5075 PSI)
Seals
Design
Series
NOTE:
Not required
when ordering.
Description
Nitrile
Fluorocarbon
Weight:
UR16E
UR25E
UR32E
UR40E
UR50E
UR63E
Description
Key Lock
Hand Knob
(Standard)
2.2 kg (4.9 lbs.)
3.5 kg (7.7 (lbs.)
4.9 kg (10.8 lbs.)
8.0 kg (17.6 lbs.)
13.7 kg (30.2 lbs.)
22.8 kg (50.3 lbs.)
US*E
US
E
Unloading Nominal
Valve with
Size
Electric
Unloading
Code
16
25
32
40
50
63
Slip-in Pressure Adjustment
Mounting Range
ISO 7368
1
S
W
Pilot Oil
Pilot
Internal
Drain
External
Poppet
Spring
Seals
Switching
Type
Description
NG16
NG25
NG32
NG40
NG50
NG63
Code
L
S
2.7 kg (6.0 lbs.)
5.2 kg (11.5 (lbs.)
6.4 kg (14.1 lbs.)
9.5 kg (20.9 lbs.)
15.2 kg (33.5 lbs.)
24.3 kg (53.6 lbs.)
Without
Plug
Code
Omit
S
Code
K
J
U
G
CodeDescription
07
up to 70 Bar (1015 PSI)
17
up to 175 Bar (2538 PSI)
25
up to 250 Bar (3625 PSI)
35
up to 350 Bar (5075 PSI)
Weight:
US16E
US25E
US32E
US40E
US50E
US63E
Solenoid
Options
Design
Series
NOTE:
Not required
when ordering.
Description
Standard
With Slow
Unloading
Description
12V
24V
98V 1)
205V 1)
To be used in
combination with
rectifier plugs at
120VAC / 230VAC
power supply.
1)
Description
Key Lock
Hand Knob
(Standard)
Code
1
9
Code
N
V
Description
Solenoid not activated,
unpressurized circulation
Solenoid activated,
unpressurized circulation
Description
Nitrile
Fluorocarbon
UR_E-US_E.indd, ddp
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Pressure Unloading Valves
Series UR*E / US*E
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Specifications — UR*E / US*E
General
Size
Interface
Mounting Position
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Pressure Range
Pressure Differential
Nominal Flow
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
NG16
NG25
NG32
Slip-in mounting according to ISO 7368
As desired, horizontal mounting preferred
-20°C to +80°C (-4°F to +176°F)
NG40
NG50
Ports A and X: up to 350 Bar (5075 PSI), Ports B and Y: depressurized
70, 175, 250, 350 Bar (1015, 2538, 3625, 5075 PSI)
15%
220 LPM
500 LPM
950 LPM
1400 LPM
2300 LPM
(58 GPM)
(132 GPM)
(251 GPM)
(370 GPM)
(609 GPM)
Hydraulic oil according to DIN 51524 ... 525
30 to 50 cSt (mm2/s)
20 to 380 cSt (mm2/s)
-20°C to +70°C (-4°F to +158°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
NG63
4000 LPM
(1058 GPM)
Specifications — US*E
Electrical (Solenoid)
Duty Ratio
Maximum Switching Frequency
Protection Class
Direct Current
Code
Supply Voltage
Power
Current
Solenoid Connection
Wiring
Wiring Length
100% ED; CAUTION: coil temperature up to 180°C (356°F) possible
16000 switchings per hour
IP65 in accordance with EN 60529 (plugged and mounted)
K
J
U
G
12V
24V
98V
205V
31W
31W
31W
31W
2.5A
1.25A
0.31A
0.15A
Connector as per EN 175301-803
3 x 1.5 mm² minimum, recommended
50m (164 ft.) maximum, recommended
Performance Curves
p/Q Performance 1)
1) Minimum Pressure
The performance curves are measured with external drain.
For internal drain, the tank pressure has to be added to curve.
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Pressure Unloading Valves
Series UR*E
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
H
40.0
(1.57)
B
65.0 1)
(2.56)
L1
36.5
(1.44)
L2
32.5
(1.28)
L3
114.0
(4.49)
L4
125.5
(4.94)
d1
32.0
(1.26)
d2
25.0
(0.98)
t
56.0
(2.20)
NG25
47.0
(1.85)
85.0
(33.5)
46.5
(1.83)
42.5
(1.67)
102.0
(4.02)
114.0
(4.49)
45.0
(1.77)
34.0
(1.34)
71.0
(2.80)
NG32
50.0
(1.97)
102.0
(4.02)
55.0
(2.17)
51.0
(2.01)
95.0
(3.74)
106.0
(4.17)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
NG40 2)
106.0
(4.17)
125.0
(4.92)
66.5
(2.62)
62.5
(2.46)
106.0
(4.17)
144.0
(5.67)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
NG50
141.0
(5.55)
140.0
(5.51)
74.0
(2.91)
70.0
(2.76)
106.0
(4.17)
144.0
(5.67)
90.0
(3.54)
68.0
(2.68)
121.0
(4.76)
NG63
155.0
(6.10)
180.0
(7.09)
94.0
(3.70)
90.0
(3.54)
106.0
(4.17)
144.0
(5.67)
120.0
(4.72)
90.0
(3.54)
155.0
(6.10)
NG16
1)
Width 79mm (3.11 in.)
NG
16
25
32
40
50
63
2)
NG40 without adapter plate
Bolt Kit BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
33 Nm (24.3 lb.-ft.)
115 Nm (84.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-R16E25
SK-R25E25
SK-R32E25
SK-R40E25
SK-R50E25
SK-R63E25
Fluorocarbon
SK-R16EV25
SK-R25EV25
SK-R32EV25
SK-R40EV25
SK-R50EV25
SK-R63EV25
UR_E-US_E.indd, ddp
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Pressure Unloading Valves
Series US*E
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
NG16
NG25
NG32
NG40 2)
NG50
NG63
1)
H
40.0
(1.57)
47.0
(1.85)
50.0
(1.97)
106.0
(4.17)
141.0
(5.55)
155.0
(6.10)
Width 79mm (3.11 in.)
NG
16
25
32
40
50
63
B
65.0 1)
(2.56)
85.0
(33.5)
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
2)
L1
36.5
(1.44)
46.5
(1.83)
55.0
(2.17)
66.5
(2.62)
74.0
(2.91)
94.0
(3.70)
L2
32.5
(1.28)
42.5
(1.67)
51.0
(2.01)
62.5
(2.46)
70.0
(2.76)
90.0
(3.54)
L3
114.0
(4.49)
102.0
(4.02)
95.0
(3.74)
106.0
(4.17)
106.0
(4.17)
106.0
(4.17)
L4
125.5
(4.94)
114.0
(4.49)
106.0
(4.17)
144.0
(5.67)
144.0
(5.67)
144.0
(5.67)
d1
32.0
(1.26)
45.0
(1.77)
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
d2
25.0
(0.98)
34.0
(1.34)
45.0
(1.77)
55.0
(2.17)
68.0
(2.68)
90.0
(3.54)
t
56.0
(2.20)
71.0
(2.80)
85.0
(3.35)
105.0
(4.13)
121.0
(4.76)
155.0
(6.10)
NG40 without adapter plate
Bolt Kit BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
33 Nm (24.3 lb.-ft.)
115 Nm (84.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-RS16E25
SK-RS25E25
SK-RS32E25
SK-RS40E25
SK-RS50E25
SK-RS63E25
Fluorocarbon
SK-RS16EV25
SK-RS25EV25
SK-RS32EV25
SK-RS40EV25
SK-RS50EV25
SK-RS63EV25
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Technical Information
TABLE OF
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Pressure Relief Valve with Screw-in Cartridge within Control Cover
Type
Description
NG16
NG25
NG32
Cover incl. Pressure Valve 1)
C016Fxxxxxxxxxx
C025Fxxxxxxxxxx
C032Fxxxxxxxxxx
Cover Orifice
M5xØ1.0
M5xØ1.1
M6xØ1.2
Cover Orifice
M4xØ0.8
M5xØ0.9
M6xØ1.0
Cover Orifice
Cartridge
2)
M5xØ99
M6xØ99
CP016C07S00X
CP025C07S00X
Poppet Orifice
1/16NPT x 00 (plug)
Spring
Bolt Kit Cover
CP032C07S00X
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414, 4x M8x40
BK391, 4x M12x50
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK415, 4x M16x55
Complete type see Ordering Information C*F
Complete type see Ordering Information CP*
1)
2)
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TABLE OF
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Pressure Relief Valve with Separate Pilot
Type
Description
NG16
NG25
NG32
Pressure Valve 1)
NG40
NG50
NG63
R06Mxxx4x
Adapter Plate 2)
without
PADA1007/A-B/B-A
Cover 3)
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
Cover Orifice
M5xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.3
Cartridge
4)
Poppet Orifice
M6xØ1.5
M6xØ1.7
M8xØ99
M6xØ1.8
CP016C07*
CP025C07*
CP032C07*
CP040C07*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
Spring
Bolt Kit Cover
M6xØ00
M6xØ99
M8xØ2.0
M8xØ2.2
CP050C07*
CP063C07*
1/16NPT x Ø1.4 1/16NPT x Ø1.5
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414, 4x M8x40 BK391, 4x M12x50 BK415, 4x M16x55 BK416, 4x M20x70 BK417, 4x M20x75 BK418, 4x M30x100
Bolt Kit Pilot
BK443, 4x M5x45
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
3)
4)
1)
2)
Complete type see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CP*
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TABLE OF
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Pressure Relief Valve with Electrical Vent Function, Normally Open
and Screw-in Cartridge within Control Cover
Type
Description
NG16
NG25
4/2 DC Valve 1)
Cover incl. Pressure Valve 2)
Cover Orifice
C016Gxxxxxxxxxx
M5xØ1.0
Cover Orifice
Cover Orifice
Cover Orifice
Cartridge 3)
C025Gxxxxxxxxxx
C032Gxxxxxxxxxx
M5xØ1.1
M5xØ1.2
M5xØ99
M4xØ00
M6xØ99
M5xØ00
M6xØ00
M5xØ1.2
M5xØ1.3
M6xØ1.4
CP016C07*
CP025C07*
CP032C07*
Poppet Orifice
1/16NPT x Ø0.8
Spring
Bolt Kit Cover
NG32
D1VW104K*
1/16NPT x Ø1.0
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414, 4x M8x40
BK391, 4x M12x50
Bolt Kit 4/2 DC Valve
BK415, 4x M16x55
BK375, 4x M5x30
Complete type see Catalog HY14-2500/US, Series D1VW.
Complete type see Ordering Information C*G
3)
Complete type see Ordering Information CP*
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
1)
2)
Combination-Pressure.indd, ddp
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TABLE OF
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Pressure Relief Valve with Electrical Vent Function, Normally Open
and Pilot in Sandwich Design
Type
Description
NG16
NG25
NG32
4/2 DC Valve 1)
NG40
NG50
NG63
D1VW104K*
Pressure Valve 2)
Adapter Plate 3)
NG6 – NG10
Cover 4)
V-ZUDB1ATxZ07x
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
without
Cover Orifice
Cover Orifice
Cover Orifice
Cartridge 5)
Poppet Orifice
M5xØ00
M5xØ99
M6xØ00
M6xØ99
M5xØ1.3
M8xØ99
M6xØ1.8
M8xØ2.0
M8xØ2.2
CP016C07*
CP025C07*
M6xØ1.5
CP032C07*
CP040C07*
CP050C07*
CP063C07*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
1/16NPT x Ø1.4
1/16NPT x Ø1.5
Spring
Bolt Kit Cover
PADA1007/A-B/B-A
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414, 4x M8x40 BK391, 4x M12x50 BK415, 4x M16x55 BK416, 4x M20x70 BK417, 4x M20x75 BK418, 4x M30x100
Bolt Kit Pilot
TK1482
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
2)
3)
4)
5)
1)
Complete type see Catalog HY14-2500/US, Series D1VW.
Complete types see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CP*
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TABLE OF
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Pressure Relief Valve with Electrical Vent Function, Normally Closed
and Screw-in Cartridge within Control Cover
Type
Description
NG16
NG25
4/2 DC Valve 1)
Cover incl. Pressure Valve 2)
Cover Orifice
NG32
D1VW105K*
C016Gxxxxxxxxxxxx
C025Gxxxxxxxxxxxx
C032Gxxxxxxxxxxxx
M5xØ1.0
M5xØ1.1
M6xØ1.4
Cover Orifice
M5xØ99
M6xØ99
Cover Orifice
M4xØ00
M5xØ00
M6xØ00
Cover Orifice
M5xØ1.2
M5xØ1.3
M6xØ1.4
CP016C07*
CP025C07*
CP032C07*
Cartridge 3)
Poppet Orifice
1/16NPT x Ø0.8
Spring
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
Bolt Kit Cover
BK414, 4x M8x40
1/16NPT x Ø1.0
BK391, 4x M12x50
Bolt Kit 4/2 DC Valve
BK415, 4x M16x55
BK375, 4x M5x30
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
Complete type see Catalog HY14-2500/US, Series D1VW.
Complete type see Ordering Information C*G
3)
Complete type see Ordering Information CP*
1)
2)
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Pressure Relief Valve with Electrical Vent Function, Normally Closed
and Pilot in Sandwich Design
Type
Description
4/2 DC Valve
NG16
NG25
NG40
NG50
NG63
D1VW105K*
1)
Pressure Valve
V-ZUDB1ATxZ07x
2)
Adapter Plate 3)
Cover
NG32
4)
Cover Orifice
without
PADA1007/A-B/B-A
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
Cover Orifice
M5xØ00
M6xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.3
M6xØ1.5
M6xØ1.7
M6xØ1.8
M8xØ2.0
M8xØ2.2
CP016C07*
CP025C07*
CP032C07*
CP040C07*
CP050C07*
CP063C07*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
1/16NPT x Ø1.4
1/16NPT x Ø1.5
Cartridge
5)
Poppet Orifice
M6xØ99
Spring
Bolt Kit Cover
M8xØ99
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414, 4x M8x40 BK391, 4x M12x50 BK415, 4x M16x55 BK416, 4x M20x70 BK417, 4x M20x75 BK418, 4x M30x100
Bolt Kit Pilot
TK1482
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
Complete type see Catalog HY14-2500/US, Series D1VW.
Complete types see Pilot Valves
3)
Includes O-rings and mounting bolts
4)
Complete type see Ordering Information C*C
5)
Complete type see Ordering Information CP*
1)
2)
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Proportional Pressure Relief Valve
Type
Description
NG16
NG25
NG32
Pressure Valve 1)
Adapter Plate 2)
C016CA*
C025CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.2
Poppet Orifice
C040CA*
C050CA*
M5xØ1.4
C063CA*
M6xØ1.5
M6xØ00
M6xØ99
M6xØ1.4
M8xØ99
M6xØ1.5
CP016C07*
CP025C07*
CP032C07*
CP040S07*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
Spring
Bolt Kit Cover
NG63
PADA1007/A-B/B-A
C032CA*
M5xØ00
Cover Orifice
Cartridge
NG50
without
Cover 3)
4)
NG40
RE06MxW2V1KW
M8xØ1.6
CP050S07*
CP063S07*
1/16NPT x Ø1.4
0.5 Bar (7.3 PSI), Type S (order no. see spare parts)
BK414, 4x M8x40 BK391, 4x M12x50 BK415, 4x M16x55 BK416, 4x M20x70 BK417, 4x M20x75 BK418, 4x M30x100
Bolt Kit Pilot
BK375, 4x M5x30
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
3)
4)
1)
2)
Complete type see Catalog HY14-2550/US, Series RE06M*W.
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CP*
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Proportional Pressure Relief Valve
with Mechanical Maximum Pressure Protection
(Screw-in Cartridge within Control Cover)
Type
Description
NG16
NG25
Prop. DC Valve 1)
Cover incl. Pressure Valve 2)
Cover Orifice
NG32
RE06MxW2V1xW
C016Gxxxxxxxxxxxx
C025Gxxxxxxxxxxxx
C032Gxxxxxxxxxxxx
M5xØ1.0
M5xØ1.1
M6xØ1.4
Cover Orifice
M5xØ99
M6xØ99
Cover Orifice
M4xØ00
M5xØ00
M6xØ00
Cover Orifice
M5xØ1.2
M5xØ1.3
M6xØ1.7
CP016C07*
CP025C07*
CP032C07*
1/16NPT x Ø0.9
1/16NPT x Ø1.2
Cartridge 3)
Poppet Orifice
1/16NPT x Ø0.8
Spring
Bolt Kit Cover
1.6 Bar (23.2), Type S (order no. see spare parts)
BK414, 4x M8x40
BK391, 4x M12x50
Bolt Kit 4/2 DC Valve
BK415, 4x M16x55
BK375, 4x M5x30
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
Complete type see Catalog HY14-2550/US, Series RE06M*W.
Complete type see Ordering Information C*G
3)
Complete type see Ordering Information CP*
1)
2)
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Proportional Pressure Relief Valve
with Mechanical Maximum Pressure Protection in Sandwich Design
Type
Description
Pressure Valve
NG16
NG25
NG32
Max. Pressure Valve
Adapter Plate 3)
NG6 – NG10
Cover 4)
Cover Orifice
Cover Orifice
Cartridge 5)
Poppet Orifice
without
C016CA*
NG63
PADA1007/A-B/B-A
C025CA*
M5xØ1.1
C032CA*
C040CA*
M5xØ1.3
C050CA*
M5xØ1.4
M5xØ99
M6xØ00
M6xØ99
M5xØ1.2
C063CA*
M6xØ1.6
M5xØ00
M8xØ99
M6xØ1.4
M6xØ1.5
CP016C07*
CP025C07*
CP032C07*
CP040S07*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
Spring
Bolt Kit Cover
NG50
V-ZUDB1PTxZ07x
2)
Cover Orifice
Cover Orifice
NG40
RE06MxW2V1KW
1)
M8xØ1.6
CP050S07*
CP063S07*
1/16NPT x Ø1.4
0.5 Bar (7.3 PSI), Type N (order no. see spare parts)
BK414, 4x M8x40 BK391, 4x M12x50 BK415, 4x M16x55 BK416, 4x M20x70 BK417, 4x M20x75 BK418, 4x M30x100
Bolt Kit Pilot
TK1482
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
3)
4)
5)
1)
2)
Complete type see Catalog HY14-2550/US, Series RE06M*W.
Complete types see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CP*
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Unloading Valve
Type
Description
Unloading Valve 1)
NG16
NG25
NG32
–
–
–
On Request
On Request
On Request
C040CA*
C050CA*
C063CA*
M5xØ1.4
M5xØ1.5
M5xØ1.6
M5xØ1.7
M6xØ1.8
M6xØ1.9
Adapter Plate 2)
Cover 3)
Cover Orifice
Cover Orifice
Cartridge 4)
Poppet Orifice
M5xØ99
NG63
PADA1007/A-B/B-A
M5xØ00
M6xØ00
M6xØ99
M8xØ99
M5xØ1.5
M6xØ1.6
M6xØ1.7
M6xØ1.8
M8xØ1.9
M8xØ2.0
CP016C07*
CP025C07*
CP032C07*
CP040S07*
CP050C07*
CP063S07*
1/16NPT x Ø0.9
1/16NPT x Ø1.0
1/16NPT x Ø1.1
1/16NPT x Ø1.2
BK414 (BK84)
BK391 (BK77)
Spring
Bolt Kit Cover
NG50
UR06Mxxx4x
without
Cover Orifice
Cover Orifice
NG40
1/16NPT x Ø1.3 1/16NPT x Ø1.4
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK387
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
2)
3)
4)
1)
Complete types see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CP*
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Unloading Valve with Electrical Vent Function, Normally Open
Type
Description
NG16
NG25
NG32
4/2 DC Valve 1)
Pressure Valve 2)
Cover
Cover Orifice
NG50
NG63
US06Mxxx4x
Adapter Plate 3)
4)
NG40
D1VW076K*
without
PADA1007/A-B/B-A
On Request
On Request
On Request
C040CA*
C050CA*
C063CA*
M5xØ1.4
M5xØ1.5
M5xØ1.6
M5xØ1.7
M6xØ1.8
M6xØ1.9
Cover Orifice
M5xØ00
M6xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.5
M6xØ1.6
M6xØ1.7
M6xØ1.8
M8xØ1.9
M8xØ2.2
CP016C07*
CP025C07*
CP032C07*
CP040S07*
CP050S07*
CP063S07*
1/16NPT x Ø0.9
1/16NPT x Ø1.0
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
1/16NPT x Ø1.4
Cartridge
5)
Poppet Orifice
M6xØ99
Spring
Bolt Kit Cover
M8xØ99
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK401
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
3)
4)
5)
1)
2)
Complete type see Catalog HY14-2500/US, Series D1VW.
Complete types see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CP*
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Unloading Valve with Electrical Vent Function, Normally Closed
Type
Description
NG16
NG25
NG32
4/2 DC Valve 1)
Pressure Valve 2)
Cover
Cover Orifice
NG50
NG63
US06Mxxx4x
Adapter Plate 3)
4)
NG40
D1VW078K*
without
PADA1007/A-B/B-A
On Request
On Request*
On Request*
C040CA*
C050CA*
C063CA*
M5xØ1.4
M5xØ1.5
M5xØ1.6
M5xØ1.7
M6xØ1.8
M6xØ1.9
Cover Orifice
M5xØ00
M6xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.5
M6xØ1.6
M6xØ1.7
M6xØ1.8
M8xØ1.9
M8xØ2.2
CP016C07*
CP025C07*
CP032C07*
CP040S07*
CP050S08*
CP063S07*
1/16NPT x Ø0.9
1/16NPT x Ø1.0
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
1/16NPT x Ø1.4
Cartridge
5)
Poppet Orifice
M6xØ99
Spring
Bolt Kit Cover
M8xØ99
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK401
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
3)
4)
5)
1)
2)
Complete type see Catalog HY14-2500/US, Series D1VW.
Complete types see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CP*
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Pressure Sequence Valve
Type
Description
NG16
NG25
NG32
Press. Sequence Valve 1)
NG40
NG50
NG63
S06Mxxx4x
Adapter Plate 2)
without
PADA1007/A-B/B-A
Cover 3)
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
Cover Orifice
M5xØ0.9
M6xØ1.1
M6xØ1.2
M6xØ1.3
M8xØ1.4
M8xØ1.5
Cover Orifice
M5xØ1.3
M6xØ1.5
M6xØ1.7
M6xØ1.8
M8xØ2.0
M8xØ2.2
CE016C01*
CE025C01*
CE032C01*
CE040C01*
CE050C01*
CE063C01*
Cover Orifice
Cartridge
4)
M5xØ00
Poppet Orifice
1/16NPT x Ø00
Spring
Bolt Kit Cover
M6xØ00
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
Bolt Kit Pilot
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK401
3)
4)
1)
2)
Complete types see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CE*
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3-Way Compensator
(in Combination with Proportional Throttle Valve)
Type
Description
NG16
NG25
NG32
Preload Valve 1)
NG40
NG50
NG63
DSBA100xP07x
Adapter Plate 2)
without
PADA1007/A-B/B-A
Cover 3)
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
Cover Orifice
M5xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.3
Cartridge
4)
Poppet Orifice
M6xØ1.5
M8xØ99
M6xØ1.7
M6xØ1.8
CE016C01*
CE025C01*
CE032C01*
CE040C01*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
BK414 (BK84)
BK391 (BK77)
Spring
Bolt Kit Cover
M6xØ00
M6xØ99
M8xØ2.0
M8xØ2.2
CE050C01*
CE063C01*
1/16NPT x Ø1.4 1/16NPT x Ø1.5
1.6 Bar (3.2 PSI), Type S (order no. see spare parts)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK401
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
3)
4)
1)
2)
Complete type see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CE*
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3-Way Compensator
with Mechanical Maximum Pressure Protection
(in Combination with Proportion Throttle Valve)
Type
Description
NG16
NG25
NG32
Pressure Valve 1)
Preload Valve 1)
Cover
Cover Orifice
NG50
NG63
DSBA100xZ07x
Adapter Plate 2)
3)
NG40
R06Mxxx4x
without
PADA1007/A-B/B-A
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
Cover Orifice
M5xØ00
M6xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.3
M6xØ1.5
M6xØ1.7
M6xØ1.8
M8xØ2.0
M8xØ2.2
CE016C01*
CE025C01*
CE032C01*
CE040C01*
CE050C01*
CE063C01*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
Cartridge
4)
Poppet Orifice
M6xØ99
Spring
Bolt Kit Cover
M8xØ99
1/16NPT x Ø1.4 1/16NPT x Ø1.5
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK401
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
3)
4)
1)
2)
Complete type see Pilot Valve Examples
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CE*
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3-Way Compensator
with Proportional Pessure Relief Valve for Pressure Control
Type
Description
Prop. Pressure Valve
NG16
NG25
NG32
Preload Valve 2)
Adapter Plate
without
Cover 4)
C016CA*
C025CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
Cover Orifice
Cover Orifice
Cartridge 5)
Poppet Orifice
NG63
PADA1007/A-B/B-A
C032CA*
C040CA*
C050CA*
C063CA*
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
M5xØ00
M5xØ99
M6xØ00
M6xØ99
M8xØ99
M5xØ1.3
M6xØ1.5
M6xØ1.7
M6xØ1.8
M8xØ2.0
M8xØ2.2
CE016C01*
CE025C01*
CE032C01*
CE040C01*
CE050C01*
CE063C01*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
BK414 (BK84)
BK391 (BK77)
Spring
Bolt Kit Cover
NG50
DSBA100xZ07x
3)
Cover Orifice
NG40
RE06MxW2V1KW*
1)
1/16NPT x Ø1.4 1/16NPT x Ø1.5
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 BK88)
BK401
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
2)
3)
4)
5)
1)
Complete type see Catalog HY14-2550/US, Series RE06M*W.
Complete type see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CE*
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3-Way Compensator with Mechanical Maximum Pressure Protection
and Electrical Vent Function, Normally Open
(in Combination with Proportional Throttle Valve)
Type
Description
4/2 DC Valve
Press. Valve
NG16
NG25
NG32
NG50
NG63
ZUDB1ATxZ07x
2)
Preload Valve 2)
Adapter Plate
NG40
D1VW076K*
1)
DSBA100xZ07x
without
3)
PADA1007/A-B/B-A
Cover 4)
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
Cover Orifice
M5xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.3
Cartridge
5)
Poppet Orifice
M6xØ1.5
M8xØ99
M6xØ1.7
M6xØ1.8
CE016C01*
CE025C01*
CE032C01*
CE040C01*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
BK414 (BK84)
BK391 (BK77)
Spring
Bolt Kit Cover
M6xØ00
M6xØ99
M8xØ2.0
M8xØ2.2
CE050C01*
CE063C01*
1/16NPT x Ø1.4 1/16NPT x Ø1.5
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK424
Complete type see Catalog HY14-2500/US, Series D1VW.
2)
Complete type see Pilot Valves
3)
Includes O-rings and mounting bolt
4)
Complete type see Ordering Information C*C
5)
Complete type see Ordering Information CE*
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
1)
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TABLE OF
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3-Way Compensator
with Proportional Pressure Relief Function
and Mechanical Maximum Pressure Protection
(in Combination with Proportional Throttle Valve)
Type
Description
Prop. Pressure Valve
Press. Valve
NG16
NG25
NG32
NG50
NG63
ZUDB1ATxZ07x
2)
Preload Valve 2)
Adapter Plate
NG40
RE06MxW2V1KW*
1)
DSBA100xZ07x
without
3)
PADA1007/A-B/B-A
Cover 4)
C016CA*
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
Cover Orifice
M5xØ1.1
M5xØ1.3
M5xØ1.4
M5xØ1.5
M6xØ1.6
M6xØ1.7
Cover Orifice
M5xØ00
Cover Orifice
M5xØ99
Cover Orifice
M5xØ1.3
Cartridge
5)
Poppet Orifice
M6xØ1.5
M8xØ99
M6xØ1.7
M6xØ1.8
M8xØ2.0
M8xØ2.2
CE016C01*
CE025C01*
CE032C01*
CE040C01*
CE050C01*
CE063C01*
1/16NPT x Ø0.9
1/16NPT x Ø1.1
1/16NPT x Ø1.2
1/16NPT x Ø1.3
1/16NPT x Ø1.4
1/16NPT x Ø1.5
BK414 (BK84)
BK391 (BK77)
Spring
Bolt Kit Cover
M6xØ00
M6xØ99
1.6 Bar (23.2 PSI), Type S (order no. see spare parts)
BK415 (BK85)
Bolt Kit Pilot
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK424
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
2)
3)
4)
5)
1)
Complete type see Catalog HY14-2550/US, Series RE06M*W
Complete type see Pilot Valves
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CE*
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Technical Information
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Series TEH
TABLE OF
CONTENTS
General Description
Series TEH accumulator discharge valves are preferably used in hydraulic systems where high volume flow
rates are discharged from accumulators over a short
operating period (in the range of milliseconds).
Typical applications are injection molding and die casting machines as well as hydraulic presses.
The amplifier piston is pressed down onto the main
poppet by pilot pressure in the X-line and pushes the
main poppet into the seat. By switching the pilot valve
the pilot pressure pushes the amplifier piston against
the manual adjusted stroke limiter. The main poppet is
forced by pressure in the B-line to follow the amplifier
piston immediately and opens the adjusted area for
flow from B to A. In the neutral position, the flow from B
to A is blocked. With pilot pressure in X flow from A to
B is blocked as well. Without pilot pressure oil can pass
from A to B through the orifice in the poppet.
Note: This is not a complete shut off valve.
Example Accumulator System
for an Injection Cylinder
TEH.indd, ddp
79
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Manual Throttle Valves
Series TEH
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
Extracting Tools
Hydraulic
Maximum Operating Pressure
Nominal Flow
∆ p= 10 Bar (145 PSI)
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
Pilot Valve
NG32
NG40
NG50
Slip-in cartridge according to ISO 7368
Unrestricted
-20°C to +80°C (-4°F to +176°F)
See Accessories
NG63
NG80
NG100
Ports A, B and X: up to 350 Bar (5075 PSI), Port Y: 10 Bar (145 PSI) maximum
950 LPM
1400 LPM
2300 LPM
4000 LPM
6000 LPM
9500 LPM
(251 GPM)
(370 GPM)
(609 GPM) (1058 GPM) (1577 GPM) (2513 GPM)
Hydraulic oil according to DIN 51524 ... 525
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
0°C to +60°C (+32°F to +140°F)
ISO 4406 (1999); 18/16/13
4/2 flow control valve,
4/2 flow control valve,
See Catalog HY14-2500/US
See Catalog HY14-2500/US
Type D1VW
Type D3W
Ordering Information
E
L
0
9
Cartridge Valve
ISO 7368
Manual
Adjustment
with DIN-Lock
Spool
Form
Flow
Code
TEH
Throttle Valve
with Shut-off
Function
Code
032
040
050
063
080
100
Weight:
TEH032
TEH040
TEH050
Nominal
Size
Description
NG32
NG40
NG50
NG63
NG80
NG100
9.0 kg (19.8 lbs.)
13.0 kg (28.7 (lbs.)
22.0 kg (48.5 lbs.)
W
Flow
Direction
Seals
Code Description
A
A to B
B
B to A
Code
N
V
TEH063
TEH080
TEH100
Description
Nitrile
Fluorocarbon
Plug
Socket
without
Plug
Code
J
U
G
Solenoid
Voltage
Design
Series
NOTE:
Not required
when ordering.
Description
24V= / 1.25A
98V= / 0.31A *
205V= / 0.15A *
* For 110V / 50 Hz or
220V / 50 Hz use plug
with rectifier
38.0 kg (83.8 lbs.)
62.0 kg (136.7 lbs.)
85.0 kg (187.4 lbs.)
Performance Curve
TEH.indd, ddp
80
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Manual Throttle Valves
Series TEH
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG32 to NG50
Size
NG63
32
255.0
(10.04)
40
265.0
(10.43)
50
275.0
(10.83)
63
407.0
(16.02)
80
427.0
(16.81)
b1
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
Ø250.0 Ø300.0
(9.84) (11.81)
d1H7
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
145.0
(5.71)
180.0
(7.09)
d2H7
45.0
(1.77)
55.0
(2.17)
68.0
(2.68)
90.0
(3.54)
110.0
(4.33)
135.0
(5.31)
t2+0.1
85.0
(3.35)
105.0
(4.13)
122.0
(4.80)
155.0
(6.10)
205.0
(8.07)
245.0
(9.65)
B3total
205.0
(8.07)
216.0
(8.50)
224.0
(8.82)
255.0
(10.04)
290.0
(11.42)
315.0
(12.40)
H
NG
32
40
50
63
80
100
NG80 to NG100
100
442.0
(17.04)
Bolt Kit BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK419 (BK135)
BK420 (BK90)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
935 Nm (689.6 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
Fluorocarbon
SK-TEH032EN20
SK-TEH040EN20
SK-TEH050EN20
SK-TEH063EN20
SK-TEH080EN20
SK-TEH100EN20
SK-TEH032EV20
SK-TEH040EV20
SK-TEH050EV20
SK-TEH063EV20
SK-TEH080EV20
SK-TEH100EV20
TEH.indd, ddp
81
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Proportional Throttle Valves
Series TDA
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
General Description
Series TDA 2/2 way proportional throttle valves are
used to control large oil flows.
Features
• Cavity and mounting pattern according to ISO 7368.
• Fail-safe function at power failure.
• Leak-free from port B to A.
• Pressure differential up to 350 Bar (5075 PSI) possible.
• 8 sizes NG16 up to NG100.
Function Symbol
Short Symbol
2
W
Function
The TDA valve has a 3-stage design consisting of
the first solenoid operated pilot stage with a spool in
sleeve design, the second pilot stage with the control
spring and the sequence spool and as main stage the
poppet in the sleeve. The proportional solenoid operates the pilot spool against the feedback of the control
spring and controls the position of the sequence spool.
The main poppet follows the position of the sequence
spool and provides an open area for flow from B to A
(optional A to B) in proportion to the solenoid current.
The poppet is positioned independent of the differential
pressure, which can become as high as the maximum
working pressure.
In combination with the digital power amplifier
PCD00A-400 the valve parameters can be saved,
changed and duplicated.
Ordering Information
TDA
E
Proportional
Throttle Valve
Code
016
025
032
040
050
063
080
100
Weight:
TDA016
TDA025
TDA032
TDA040
Nominal Slip-in Valve
ISO 7368
Size
W
0
9
Design
Poppet
Shape
Nominal
Flow
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
3.1 kg (6.8 lbs.)
4.3 kg (9.5 (lbs.)
5.8 kg (12.8 lbs.)
9.2 kg (20.3 lbs.)
Flow
Direction
Piloting
Seals
Code Description
A
A to B
B
B to A
Code
N
V
TDA050
TDA063
TDA080
TDA100
Solenoid
Voltage
Plug
Socket
without
Plug
Design
Series
NOTE:
Not required
when ordering.
Code Description
L
6 VDC
X
16 VDC
Description
Nitrile
Fluorocarbon
15.0 kg (33.1 lbs.)
33.0 kg (72.8 lbs.)
63.0 kg (138.9 lbs.)
87.0 kg (191.8 lbs.)
TDA.indd, ddp
82
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Nominal Flow
LPM
∆p = 10 Bar (145 PSI)
GPM
Flow Direction
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
Minimum Pilot Pressure
Minimum Operating Pressure
Pilot Oil Supply
Pilot Oil Drain
Pilot Oil at p = 100 Bar (1450 PSI)
Opening Point
Manufacturing Tolerance
Static / Dynamic
Return to
Proportional Throttle Valves
Series TDA
Catalog HY14-3200/US
NG16
NG25
NG32
NG40
Slip-in cartridge according to ISO 7368
Unrestricted
-20°C to +80°C (-4°F to +176°F)
NG50
NG63
TABLE OF
CONTENTS
NG80
Ports A, B and X: 350 Bar (5075 PSI), Port Y 10: Bar (145 PSI) maximum
220
500
950
1400
2300
4000
6000
(58)
(132)
(251)
(370)
(609)
(1058)
(1587)
See Ordering Information
Hydraulic oil according to DIN 51524 ... 525
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
0°C to +60°C (+32°F to +140°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
> 25% of system pressure
Port A to B at 10 Bar (145 PSI), B to A at 15 Bar (208 PSI)
Depending on flow direction A or B using X or external X
External using Y, 10 Bar (145 PSI) maximum
Port X to Y < 1.5 LPM (0.4 GPM)
At 30% of nominal current
±5% of Qnom
Hysteresis
< 3%
Repeatability
Response Time
px = 50 Bar (725 PSI)
Electrical (Proportional Solenoid)
Duty Ratio
Protection Class
Solenoid
Code
Size
Solenoid Voltage
Nominal Current (100% ED)
Nominal Resistance
Power Amplifier Recommended
Solenoid Connection
< 1%
20 ms
25 ms
30 ms
35 ms
45 ms
55 ms
65 ms
NG100
9500
(2513)
80 ms
100% ED
IP65 in accordance with EN 60529 (plugged and mounted)
L
X
NG16-50
NG63-100
NG16-50
NG63-100
6 VDC
16 VDC
2.6 amps
1.05 amps
2.2 Ohm
2.5 Ohm
11.3 Ohm
14 Ohm
PCD00A-400
Connector as per EN 175301-803
The pilot pressure in X-line must be at least 25% (NG16-40) or 45% (NG50-100) of the pressure in the draining-off line of the cartridge to
make sure that the main poppet closes safely without malfunction.
TDA.indd, ddp
83
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Proportional Throttle Valves
Series TDA
Catalog HY14-3200/US
Performance Curves
∆pactual =
( QQ
actual
nominal
)2
• ∆pnominal
TDA.indd, ddp
84
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
TABLE OF
CONTENTS
Return to
Proportional Throttle Valves
Series TDA
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Valves
Valve Covers
Size
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
H
168.0
(6.61)
173.0
(6.81)
178.0
(7.01)
262.0
(10.31)
198.0
(7.80)
287.0
(11.30)
327.0
(12.87)
342.0
(13.46)
b1
65.0
(2.56)
85.0
(3.35)
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
Ø250.0
(9.84)
Ø300.0
(11.81)
d1H7
32.0
(1.26)
45.0
(1.77)
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
145.0
(5.71)
180.0
(7.09)
d2H7
25.0
(0.98)
34.0
(1.34)
45.0
(1.77)
55.0
(2.17)
68.0
(2.68)
90.0
(3.54)
110.0
(4.33)
135.0
(5.31)
t2+0.1
56.0
(2.20)
72.0
(2.83)
85.0
(3.35)
105.0
(4.13)
122.0
(4.80)
155.0
(6.10)
205.0
(8.07)
245.0
(9.65)
NG
16
25
32
40
50
63
80
100
Bolt Kit BK-M8x100-4pcs
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK419 (BK135)
BK420 (BK90)
33 Nm (24.3 lb.-ft.)
115 Nm (54.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
935 Nm (689.6 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-TDA016EN20
SK-TDA025EN20
SK-TDA032EN20
SK-TDA040EN20
SK-TDA050EN20
SK-TDA063EN20
SK-TDA080EN20
SK-TDA100EN20
Fluorocarbon
SK-TDA016EV20
SK-TDA025EV20
SK-TDA032EV20
SK-TDA040EV20
SK-TDA050EV20
SK-TDA063EV20
SK-TDA080EV20
SK-TDA100EV20
TDA.indd, ddp
85
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Proportional Throttle Valves
Series TEA
General Description
Series TEA accumulator discharge valves are preferably used in hydraulic systems where high flow rates
are discharged from hydraulic accumulators over a
short operating period (in the range of milliseconds).
Typical applications are injection molding and die casting machines as well as hydraulic presses.
Basically the function of an accumulator discharge
valve corresponds to the function of a TDA throttle
valve. In addition a directional valve is integrated in the
pilot circuit to meet the relevant safety regulations.
The directional valve provides the safety function.
When the solenoid is deenergized and the spring is
in the end position, pilot pressure from X presses the
control piston into lower end position and, the main
poppet is closed. As a result the flow from B to A or
from the reservoir system to the machine is blocked.
Example: Accumulator System
in a Die Casting Machine
TEA.indd, ddp
86
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
TABLE OF
CONTENTS
Return to
Proportional Throttle Valves
Series TEA
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
TEA
E
Proportional
Throttle Valve
with Shut-off
Function
Nominal Cartridge Valve Design
Size
ISO 7368
Code
032
040
050
063
080
100
Weight:
TEA032
TEA040
TEA050
TEA063
TEA080
TEA100
Description
NG32
NG40
NG50
NG63
NG80
NG100
W
0
9
Spool
Form
Flow
Code
2
Flow
Direction
Pilot Oil
Guide
W
Seals
Proportional Plug
Socket
Solenoid
without
Voltage
Plug
Code Description
A
A to B
B
B to A
Code
N
V
Description
Nitrile
Fluorocarbon
Code
L
X
9 kg (19.8 lbs.)
13 kg (28.7 (lbs.)
22 kg (48.5 lbs.)
38 kg (83.8 lbs.)
62 kg (136.7 lbs.)
85 kg (187.4 lbs.)
Code
J
U
G
Solenoid
Voltage
Design
Series
NOTE:
Not required
when ordering.
Description
24V= / 1.25A
98V= / 0.31A *
205V= / 0.15A *
* For 110V / 50 Hz or
220V / 50 Hz use plug
with rectifier
Description
6 VDC
16 VDC
Performance Curve
TEA.indd, ddp
87
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Proportional Throttle Valves
Series TEA
Catalog HY14-3200/US
Specifications
TABLE OF
CONTENTS
General
Size
Interface
Mounting Position
NG32
NG40
NG50
Slip-in cartridge according to ISO 7368
Unrestricted
Ambient Temperature
-20 to +80°C (-4 to +176°F)
Hydraulic
Maximum Operating Pressure
Nominal Flow
∆p = 10 Bar (145 PSI)
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
Minimum Pilot Pressure
Minimum Operating Pressure
Pilot Oil Supply
Pilot Oil at p = 100 Bar (1450 PSI)
Opening Point
Manufacturing Tolerance
Static / Dynamic
Ports A, B and X: 350 Bar (5075 PSI), Port Y: 10 Bar (145 PSI) maximum
950 LPM
1400 LPM
2300 LPM
4000 LPM
6000 LPM
9500 LPM
(251) GPM (370) GPM (609) GPM (1058) GPM (1587 GPM (2513) GPM
Hydraulic oil according to DIN 51524 ... 525
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
0 to +60°C (+32°F to +140°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
> 25% of system pressure
Port A to B at 10 Bar (145 PSI), B to A at 15 Bar (208 PSI)
Depending on flow direction A or B using X or external X
Port X to Y < 1.5 LPM (0.4 GPM)
At 30% of nominal current
±5% of Qnom
Hysteresis
< 3%
Repeatability
Response Time
px = 50 Bar (725 PSI)
< 1%
30 ms
35 ms
45 ms
NG63
55 ms
NG80
65 ms
NG100
80 ms
Electrical (Proportional Solenoid)
Duty Ratio
Protection Class
Solenoid
Code
Size
Solenoid Voltage
Nominal Current (100% ED)
Nominal Resistance
Power Amplifier Recommended
Solenoid Connection
Pilot Valve
100% ED
IP65 in accordance with EN 60529 (plugged and mounted)
L
X
NG16-50
NG63-100
NG16-50
NG63-100
6 VDC
16 VDC
2.6 amps
1.05 amps
2.2 Ohm
2.5 Ohm
11.3 Ohm
14 Ohm
PCD00A-400
Connector as per EN 175301-803
4/2 flow control valve,
4/2 flow control valve,
See Catalog HY14-2500/US
See Catalog HY14-2500/US
Type D1VW
Type D3W
TEA.indd, ddp
88
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
Proportional Throttle Valves
Series TEA
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG32 to NG50
Size
H
b1
d1H7
d2H7
t2+0.1
B2total
B3total
NG
32
40
50
63
80
100
32
250.0
(98.4)
102.0
(4.02)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
106.0
(4.17)
205.0
(8.07)
40
260.0
(10.24)
125.0
(4.92)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
118.0
(4.65)
216.0
(8.50)
NG63 to NG100
50
270.0
(10.63)
140.0
(5.51)
90.0
(3.54)
68.0
(2.68)
122.0
(4.80)
125.0
(4.92)
224.0
(8.82)
63
312.0
(12.28)
180.0
(7.09)
120.0
(4.72)
90.0
(3.54)
155.0
(6.10)
158.0
(6.22)
255.0
(10.04)
80
100
337.0
352.0
(13.27) (13.86)
Ø250.0 Ø300.0
(9.84) (11.81)
145.0
180.0
(5.71)
(7.09)
110.0
135.0
(4.33)
(5.31)
205.0
245.0
(8.07)
(9.65)
193.0
218.0
(7.60)
(8.58)
290.0
315.0
(11.42) (12.40)
Bolt Kit BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK419 (BK135)
BK420 (BK90)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
935 Nm (689.6 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
Fluorocarbon
SK-TEAN10E32
SK-TEAN10E40
SK-TEAN10E50
SK-TEAN10E63
SK-TEAN10E80
SK-TEAN10E100
SK-TEAN10E32V
SK-TEAN10E40V
SK-TEAN10E50V
SK-TEAN10E63V
SK-TEAN10E80V
SK-TEAN10E100V
TEA.indd, ddp
89
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Proportional Throttle Valves
Series TDL
General Description
Series TDL 2/2 way, proportional throttle valves are
used in applications where high flow has to be precisely controlled with a very fast response time. Typical
applications are die casting, injection molding and
hydraulic presses.
Function
The TDL valve has a 3-stage design consisting of the
DFplus pilot valve, the hydraulic follow-up system with
LVDT and the main stage with poppet and sleeve.
With the DFplus pilot valve the TDL achieves extremely
fast response times: from 14ms (NG40) up to 22ms
(NG100) with an adjustment precision of 0.5% of the
nominal adjusted flow. The follow-up spool enables the
poppet to be positioned independent of the differential
pressure, which can become as high as the maximum
working pressure.
The optimum dynamics are achieved at a control pressure >50 bar. The TDL has integrated electronics controlling both the position of the follow-up piston and the
spool position of the DFplus pilot valve. All this makes
the TDL a completely factory set unit with minimum or
no need for on-site setting.
Features
• Pilot operated 2/2 way proportional throttle valve.
• Cavity and mounting pattern according to ISO 7368.
• For speed and position control.
• Fast step response.
• Flow direction B to A.
• Completely calibrated unit with integrated electronics.
• Fail safe position.
• 5 sizes NG40 up to NG100.
Function Symbol
TDL.indd, ddp
90
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Return to
TABLE OF
CONTENTS
Return to
Proportional Throttle Valves
Series TDL
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
TDL
E
Proportional
Throttle Valve
with LVDT
Code
040
050
063
080
100
Weight:
TDL040
TDL050
TDL063
TDL080
TDL100
Nominal
Size
Slip-in
Cartridge
Description
NG40
NG50
NG63
NG80
NG100
H
9
Closed
Sinus
Pilot Circle, Poppet
Fast Valve
Type,
Integrated
Electronics
9
B
2
Nominal
Flow
Flow
Direction
B to A
Pilot Oil
Supply
External,
Drain
External
Code
N
V
0
Seals
Standard
Electronics
Design
Series
NOTE:
Not required
when ordering.
Description
Nitrile
Fluorocarbon
Code
B
E
15.0 kg (33.1 (lbs.)
26.0 kg (57.3 lbs.)
52.0 kg (114.7 lbs.)
105.0 kg (231.5 lbs.)
157.0 kg (346.2 lbs.)
Electronics
Description
Supply Voltage
0...+10 VDC
Supply
0...+20 mA
Please order plugs separately
Performance Curves
Flow / Signal Line
∆p = 5 to 20 Bar (73 to 290 PSI) Constant, Viscosity 25mm2/s
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Parker Hannifin Corporation
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Proportional Throttle Valves
Series TDL
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Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
Extracting Tool
Hydraulic
Maximum Operating Pressure
Nominal Flow
∆p = 20 Bar (290 PSI)
Flow Direction
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
Minimum Pilot Pressure
Pilot Oil Supply
Pilot Oil Drain
Leakage at p = 175 Bar (2538 PSI)
Release Off
Enable On
Supply Pressure at Port B
Pilot Fluid Flow
NG40
NG50
NG63
Slip-in cartridge according to ISO 7368
Unrestricted
-20 to +80°C (-4 to +176°F)
See Accessories
NG80
TABLE OF
CONTENTS
NG100
Ports A, B and X: 350 Bar (5075 PSI), Port Y: 10 Bar (145 PSI) maximum
2500 LPM
4100 LPM
6800 LPM
9500 LPM
13500 LPM
(661 GPM)
(1085 GPM)
(1799 GPM)
(2153 GPM)
(3571 GPM)
B to A
Hydraulic oil according to DIN 51524 ... 525
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
0 to +60°C (+32°F to +140°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
50% of system presssure
Depending on flow direction B using X or external X
External using Y, 10 Bar (145 PSI) maximum
Port X to Y
NG40 to NG63 <1.2 LPM (0.3 GPM), NG80 to NG100 <2.0 LPM (0.5 GPM)
NG40 to NG63 <2.5 LPM (0.7 GPM), NG80 to NG100 <4.0 LPM (1.1 GPM)
Approximately 5 Bar (73 PSI), minimum
13 LPM
24 LPM
42 LPM
54 LPM
65 LPM
(3.4 GPM)
(6.3 GPM)
(11.1 GPM)
(14.3 GPM)
(17.2 GPM)
Static / Dynamic
1)
Hysteresis
< 1%
Repeatability
Response Time
t at px = 50 Bar (725 PSI)
Electrical
Protection Class
Supply Voltage
Waviness Permitted
Power Consumption
Input Signal Range:
Voltage Input
Current Input
Release Input
Wiring
Wiring Length
< 0.5%
Flow at different ∆p
Qactual = Qnominal ·
12 ms
16 ms
20 ms
17.5 ms
22 ms
IP65
22 to 30V, ripple < 5% eff., surge free
5%, maximum
2.8 amps, maximum
0 to +10 VDC / 100k Ohm
0 to +20 mA / 250 Ohm
5 to 30 VDC
1.0 mm², minimum, shielded
50m (164 ft.), maximum
√
∆pactual
20
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Parker Hannifin Corporation
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Proportional Throttle Valves
Series TDL
Catalog HY14-3200/US
Technical Information
Block Circuit Diagram Electronics
Connection Diagrams
Electronics Code B
Electronics Code E
Connector
Inch equivalents for millimeter dimensions are shown in (**)
EMV Conforming
ID no. 5004072
Please order plugs separately
Complete Cable:
EHC158GE is 4.57m (15 ft.)
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Catalog HY14-3200/US
Dimensions
NG50 to NG63
Proportional Throttle Valves
Series TDL
Pilot Valve NG40
Pilot Valve NG80 to NG100
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Proportional Throttle Valves
Series TDL
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG
Bo.a.
H
H1
t2+0.1
a1
a2
a3
b1
40
275.0
(10.83)
280.0
(11.02)
90.0
(3.54)
105.0
(4.13)
50.0 ±0.2
(1.97 ±.01)
23.0 ±0.2
(0.91 ±.01)
42.0 ±0.2
(1.65 ±.01)
62.5
(2.46)
50
355.0
(13.98)
330.0
(12.99)
130.0
(5.12)
122.0
(4.80)
58.0 ±0.2
(2.28 ±.01)
30.0 ±0.2
(1.18 ±.01)
50.0 ±0.2
(1.97 ±.01)
70.0
(2.76)
63
395.0
(15.55)
325.0
(12.80)
115.0
(4.53)
155.0
(6.10)
75.0 ±0.2
(2.95 ±.01)
38.0 ±0.2
(1.50 ±.01)
62.5 ±0.2
(2.46 ±.01)
90.0
(3.54)
80
385.0
(15.16)
425.0
(16.73)
80.0
(3.15)
205.0
(8.07)
—
—
—
125.0
(4.92)
100
425.0
(16.73)
440.0
(17.32)
89.0
(3.50)
245.0
(9.65)
—
—
—
150.0
(5.91)
NG
b2
Ød1H7
Ød1H7
d3
d4
Ød5 max.
Ød6
M
40
210.0
(8.27)
75.0
(2.95)
55.0
(2.17)
125.0
(4.92)
85.0 ±0.2
(3.35 ±.01)
10.0
(0.39)
6+0.22x10
M20x45
50
285.0
(11.22)
90.0
(3.54)
68.0
(2.68)
140.0
(5.51)
100 ±0.2
(3.94 ±.01)
10.0
(0.39)
8+0.22x10
M20x45
63
305.0
(12.01)
120.0
(4.72)
90.0
(3.54)
180.0
(7.09)
125 ±0.2
(4.92 ±.01)
12.0
(0.47)
8+0.22x10
M30x65
80
260.0
(10.24)
145.0
(5.71)
110.0
(4.33)
250.0
(9.84)
200 ±0.2
(7.87 ±.01)
16.0
(0.63)
10+0.22x10
M24x55
100
275.0
(10.83)
180.0
(7.09)
135.0
(5.31)
300.0
(11.81)
245 ±0.2
(9.65 ±.01)
20.0
(0.79)
10+0.22x10
M30x65
NG
Bolt kit -
40
BK-M20x120-4pcs
50
BK-M20x160-4pcs
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
63
BK-M30x180-4pcs
1910 Nm (1408.6 lb.-ft.)
80
BK-M24x120-8pcs
935 Nm (689.6 lb.-ft.)
100
BK-M30x140-8pcs
1910 Nm (1408.6 lb.-ft.)
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Notes
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Catalog HY14-3200/US
Technical Information
Proportional Throttle Valves
Series TDP
General Description
Series TDP 2/2 way, proportional throttle valves are
used in applications where high flow has to be precisely controlled at maximum dynamics. Typical applications are die casting, injection molding and hydraulic
presses.
Function
The TDP valve has a 2-stage design consisting of a
DFplus pilot valve and a main stage with poppet and
LVDT.
Features
• Active pilot operated 2/2 way proportional throttle valve.
• Cavity and mounting pattern according to ISO 7368.
• Fast step response.
• Flow direction B to A and A to B.
• Completely mounted and adapted unit with integrated
With the DFplus pilot valve the TDP achieves extremely fast response times: from 12ms (NG32) up to 28ms
(NG100) with an accuracy of <0.1% of the nominal
flow. The pilot valve actively controls the poppet independent of the pressure conditions in the main ports.
It is basically required that the pilot pressure is at the
level of the system pressure. At low system pressure
the pilot pressure should be min. 140 Bar (2030 PSI),
when high valve dynamics are desired.
•
electronics.
Fail save position in case of electrical and/or hydraulic
power down.
• 6 sizes NG32 up to NG100.
The TDP has integrated electronics controlling both the
position of the main poppet and the spool position of
the DFplus pilot valve.
TDP040
Function Symbol
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Series TDP
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
TDP
E
Proportional
Throttle Valve
with LVDT
Code
032
040
050
063
080
100
Nominal
Size
H
Slip-in
Closed Pilot
Cartridge Loop, Fast
Valve Type,
Intgegrated
Electroniccs
9
9
C
2
Sinus
Poppet
Nominal
Flow
Flow
Direction
A to B
B to A
Pilot Oil
Supply
External
Drain
External
Seal
B
0
Command
Signal
0...+10V
Standard
Electronics
Design
Series
NOTE:
Not required
when ordering.
Code Description
N*
Nitrile
V
Fluorocarbon
Description
NG32
NG40
NG50
NG63
NG80
NG100
* HFC fluids suitable.
Weight:
TDA032
TDA040
TDA050
TDA063
TDA080
TDA100
Please order connector separately.
13.0 kg (28.7 lbs.)
15.0 kg (33.1 lbs.)
26.0 kg (57.3 lbs.)
52.0 kg (114.6 lbs.)
105.0 kg (231.5 lbs.)
157.0 kg (346.1 lbs.)
Performance Curves
Flow / Signal Line
Opening point factory set to 3%
Flow at different ∆p
Characteristic curve measured with HLP46 at 50°C.
Qactual = Qnominal ·
√
∆pactual
∆pnominal
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Parker Hannifin Corporation
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Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
MTTFD
Vibration Resistance
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Proportional Throttle Valves
Series TDP
Catalog HY14-3200/US
TABLE OF
CONTENTS
NG32
NG40
NG50
NG63
NG80
Proportional Throttle Valve, Slip-in Cartridge according to ISO 7368
Unrestricted
-20°C to +50°C (-4°F to +122°F)
NG100
50 years
g
10 sinus 5...2000 Hz acc. IEC 68-2-6
30 random noise 20...2000 Hz acc. IEC 68-2-36
15 shock acc. IEC 68-2-27
Hydraulic
Maximum Operating Pressure
Nominal Flow
LPM
∆p = 10 Bar (145 PSI)
GPM
Maximum Flow
LPM
Recommended
GPM
Fluid
Fluid Temperature
Viscosity Recommended
Viscosity Permitted
Filtration
Flow Direction
Pilot Pressure
Pilot Oil Supply
Pilot Oil Drain
Leakage in Pilot Valve
at 100 Bar (1450 PSI)
Pilot Valve Size
Maximum Pilot Flow
at 140 Bar (2030 PSI) Pilot Press.
Static / Dynamic 1)
Step Response at Pilot Pressure
>140 Bar (2030 PSI)
Frequency Resp. at Pilot Press.
>140 Bar (2030 PSI)
Amplitude -3dB; 10% ±5%
Phase -90°; 10% +5%
Hysteresis
Ports A, B, X, XX and SP, up to 350 Bar (5075 PSI),
Port Y, maximum 35 Bar (507.5 PSI)
850
1500
1900
3600
(224.5)
(396.3)
(501.9)
(951.0)
2000
(528.3)
3000
(792.5)
4500
1188.8)
4500
(1188.8)
8000
(2113.4)
8000
2113.4)
13000
(3434.2)
20000
(5283.4)
Hydraulic oil according to DIN 51524 ... 51525
0°C to +60°C (+32°F to +140°F)
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
B to A and A to B
Must be as high as system pressure
External via X
External via Y
<400 LPM (105.7 GPM)
30 LPM
(7.9 GPM)
NG6
40 LPM
(10.6 GPM)
40 LPM
(10.6 GPM)
70 LPM
(18.5 GPM)
NG10
80 LPM
(21.1 GPM)
100 LPM
(26.4 GPM)
12 ms
14 ms
20 ms
17 ms
23 ms
28 ms
80 Hz
63 Hz
74 Hz
59 Hz
66 Hz
52 Hz
52 Hz
56 Hz
46 Hz
51 Hz
41 Hz
47 Hz
< 1%
Sensitivity
< 0.05%
Temperature Drift
< 0.025%K
For optimal dynamics see installation recommendation.
1)
(Continued on next page)
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Technical Information
Specifications
Return to
Proportional Throttle Valves
Series TDP
Catalog HY14-3200/US
TABLE OF
CONTENTS
(Continued from previous page)
Electrical
Duty Ratio
Protection Class
Supply Voltage / Ripple
Current Consumption Max.
Pre-fusing
Input Signal
Voltage
Impedance
Input Capacitance Typ.
100% ED
IP65 in accordance with EN 60529 (with correctly mounted plug-in connector)
22...30V, ripple < 5% eff., surge free
3.5 A
4.0 A medium lag
Differential Input Maximum
Enable Signal
Diagnostic Signal
EMC
Electrical Connection
Wiring Minimum
Wiring Length Maximum
mm2
0...+10V, ripple < 0.01 % eff., surge free
100 kOhm
1 nF
30V for terminal D and E against PE (terminal G),
11V for terminal D and E against 0V (terminal B)
5...30V, Ri = 9 kOhm
0...+10V, rated max. 5mA
EN 61000-6-2, EN 61000-6-4
6 + PE as per EN 175201-804
7 x 1.0 (AWG16) overall braid shield
50 m (164 ft.)
Installation Recommendations
The maximum pilot flow is given in the technical data. At insufficient pilot oil supply – e.g. because of long
distances and/or small diameters – an accumulator can be connected to port XX. See selection guide for correct
dimensions.
Selection Guide
Size
NG40
NG50
NG63
NG80
NG100
Capacity
0.162 Liters (0.0428 Gallons)
0.243 Liters (0.0642 Gallons)
0.405 Liters (0.1070 Gallons
0.647 Liters (0.1709 Gallons)
0.944 Liters (0.2494 Gallons)
Product Type
ADE016-25R
ADE032-21R
ADE050-21R
ADE075-21R
ADE100-21R
Pressure Rating
126 Bar (1827.5 PSI)
126 Bar (1827.5 PSI)
126 Bar (1827.5 PSI)
126 Bar (1827.5 PSI)
126 Bar (1827.5 PSI)
Accu port XX
G 1/2
G 1/2
G1
G 3/4
G 3/4
Suction Port SP: Contact Parker for installation recommendation.
TDP.indd, ddp
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Parker Hannifin Corporation
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Catalog HY14-3200/US
Block Diagram — Wiring
Proportional Throttle Valves
Series TDP
Block Diagram
Electronics Connection
Code B
Female Connector
Angle Female Connector
(EMC conform)
(EMC conform)
Part No. 5004072
Part No. 5005160
Please order plugs separately.
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Series TDP
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG32
NG40
NG
Bolt Kit -
32
40
BK529
BK513
DIN912 12.9
4 x M16x100 DIN 912 12.8
4 x M20x120 DIN 912 12.8
281 Nm (207.2 lb-ft.)
553 Nm (407.8 lb.-ft.)
Nitrile
Fluorocarbon
SK-TDP032EN
SK-TDP040EN
SK-TDP032EV
SK-TDP040EV
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Series TDP
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Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG50
NG63
NG
Bolt Kit -
50
63
BK513
BK420
DIN912 12.9
4 x M20x120 DIN 912 12.8
4 x M30x140 DIN 912 12.9
553 Nm (407.8 lb-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
Fluorocarbon
SK-TDP050EN
SK-TDP063EN
SK-TDP050EV
SK-TDP063EV
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Series TDP
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Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG80
NG
Bolt Kit -
80
BK530
DIN912 12.9
8x M24x160 DIN 912 12.9
955 Nm (704.3 lb.-ft.)
Nitrile
Fluorocarbon
SK-TDP080EN
SK-TDP080EV
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Series TDP
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Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG100
NG
Bolt Kit -
100
BK517
DIN912 12.9
8x M30x150 DIN 912 12.9
1910 Nm (1408.6 lb.-ft.)
Nitrile
Fluorocarbon
SK-TDP100EN
SK-TDP100EV
TDP.indd, ddp
105
Parker Hannifin Corporation
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Catalog HY14-3200/US
Dimensions
Proportional Throttle Valves
Series TDP
Mounting Patterns
Code: ISO 7368-B*-*-2-A/B
NG32 to NG63
Code: ISO 7368-B*-*-2-A
NG80 to NG100
Required Surface Finish:
1 = √ Rmax16, 2 =
√ Rmax8
Deviating from ISO 7368 it is advisable to
increase the diameters d3, d4 and d5.
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Proportional Throttle Valves
Series TDP
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
32
40
50
63
80
100
Size
32
40
50
63
b1
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
250.0
(9.84)
300.0
(11.81)
m4±0.2
17.0
(0.67)
23.0
(0.91)
30.0
(1.18)
38.0
(1.50)
80
—
100
—
d1 H7
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
145.0
(5.71)
180.0
(7.09)
t1+0.5
70.0
(2.76)
87.0
(3.43)
100.0
(3.94)
130.0
(5.12)
175.0
(6.89)
210.0
(8.27)
d2 H7
45.0
(1.77)
55.0
(2.17)
68.0
(2.68)
90.0
(3.54)
110.0
(4.33)
135.0
(5.31)
t2+1
85.0
(3.35)
105.0
(4.13)
122.0
(4.80)
155.0
(6.10)
205.0
(8.07)
245.0
(9.65)
d3
32.0
(1.26)
40.0
(1.57)
50.0
(1.97)
63.0
(2.48)
80.0
(3.15)
100.0
(3.94)
t3
13.0
(0.47)
15.0
(0.59)
17.0
(0.67)
20.0
(0.79)
25.0
(0.98)
29.0
(1.14)
d3 max.
44.0
(1.73)
54.0
(2.13)
67.0
(2.64)
89.0
(3.50)
109.0
(4.29)
134.0
(5.28)
t4
52.0
(2.05)
64.0
(2.52)
72.0
(2.83)
95.0
(3.74)
130.0
(5.12)
155.0
(6.10)
d4 max.*
50.0
(1.97)
63.0
(2.48)
80.0
(3.15)
100.0
(3.94)
110.0
(4.33)
150.0
(5.91)
t4 max.*
44.0
(1.73)
54.0
(2.13)
59.0
(2.32)
78.0
(3.07)
115.0
(4.53)
133.0
(5.24)
t5
15.0
(0.59)
15.0
(0.59)
17.0
(0.67)
19.0
(0.75)
32.0
(1.26)
32.0
(1.26)
d5 max.
8.0
(0.31)
10.0
(0.39)
10.0
(0.39)
12.0
(0.47)
16.0
(0.63)
20.0
(0.79)
t6
35.0
(1.38)
45.0
(1.77)
45.0
(1.77)
65.0
(2.56)
50.0
(1.97)
53.0
(2.09)
d6
M 16
M 20
M 20
M 30
M 24
M 30
t7
2.5
(0.10)
3.0
(0.12)
4.0
(0.16)
4.0
(0.16)
5.0
(0.20)
5.0
(0.20)
d7 H13
6.0
(0.24)
6.0
(0.24)
8.0
(0.31)
8.0
(0.31)
10.0
(0.39)
10.0
(0.39)
t8
2.5
(0.10)
3.0
(0.12)
3.0
(0.12)
4.0
(0.16)
5.0
(0.20)
5.0
(0.20)
m1±0.2
70.0
(2.76)
85.0
(3.35)
100.0
(3.94)
125.0
(4.92)
200.0
(7.87)
245.0
(9.65)
t10
10.0
(0.39)
10.0
(0.39)
10.0
(0.39)
10.0
(0.39)
10.0
(0.39)
10.0
(0.39)
m2±0.2
41.0
(1.61)
50.0
(1.97)
58.0
(2.28)
75.0
(2.95)
m3±0.2
35.0
(1.38)
42.5
(1.67)
50.0
(1.97)
62.5
(2.46)
—
—
—
—
U
0.03
(0.001)
0.05
(0.002)
0.05
(0.002)
0.05
(0.002)
0.05
(0.002)
0.05
(0.002)
W
0.1
(0.004)
0.1
(0.004)
0.1
(0.004)
0.2
(0.008)
0.2
(0.008)
0.2
(0.008)
* Only in combination with d4max and t4max.
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Parker Hannifin Corporation
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Elyria, Ohio, USA
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Catalog HY14-3200/US
Notes
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Parker Hannifin Corporation
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Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Proportional Throttle Valves
Series TPQ
General Description
Series TPQ 3/2 way, proportional throttle valves are
used in applications where high flow has to be precisely controlled at maximum dynamics. Typical applications are die casting, injection molding and hydraulic
presses.
Function
The TPQ valve has a 2-stage design consisting of a
DFplus pilot valve and a main stage with spool and
LVDT.
Features
• Active pilot operated 3/2 way proportional throttle valve.
• Cavity according to Parker house norm.
• Mounting pattern according to ISO 7368.
• Fast step response.
• Flow direction A to T and P to A.
• Completely mounted and adapted unit with integrated
With the DFplus pilot valve the TPQ achieves extremely fast response times: from 9ms (NG32) up to 23ms
(NG80) with an accuracy of <0.1% of the nominal flow.
The pilot valve actively controls the poppet independent of the pressure conditions in the main ports.
It is basically required that the pilot pressure is at the
level of the system pressure. At low system pressure
the pilot pressure should be min. 140 Bar (2030 PSI),
when high valve dynamics are desired.
electronics.
• Fail save position in case of electrical and/or hydraulic
•
The TPQ has integrated electronics controlling both
the position of the main poppet and the spool position
of the DFplus pilot valve.
power down.
5 sizes NG32 up to NG80.
TPQ040
Function Symbol
Failsafe Position Spool Type U
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Series TPQ
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
TPQ
W
Proportional
Throttle Valve
with LVDT
Code
032
040
050
063
080
Nominal
Size
H
Parker Closed Pilot
Slip-in
Loop, Fast
Cartridge Valve Type,
Intgegrated
Electroniccs
Description
NG32
NG40
NG50
NG63
NG80
2
2
5
Linear
Spool
Nominal
Flow
Spool
Type
0
Pilot Oil
Supply
External
Drain
External
Seal
Input Signal
Code
Zerolap
Spool Type
Code Input signal
- 0+
B
S
Fail save
Code
N
V
H
A
R
P to A
P T
Please order connector separately.
Standard
Electronics
Design
Series
NOTE:
Not required
when ordering.
Description
0...±10V
4...+20mA
Description
NBR
FPM
For HFC Fluid
A
Weight:
TPQ032
TPQ040
TPQ050
TPQ063
TPQ080
U
13.0 kg (28.7 lbs.)
15.0 kg (33.1 lbs.)
26.0 kg (57.3 lbs.)
52.0 kg (114.6 lbs.)
105.0 kg (231.5 lbs.)
A to T
P T
Performance Curves
Flow / Signal Line
Flow at different ∆p
Qactual = Qnominal ·
√
∆pactual
∆pnominal
Characteristic curve measured with HLP46 at 50°C.
TPQ.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
MTTFD
Vibration Resistance
Return to
Proportional Throttle Valves
Series TPQ
Catalog HY14-3200/US
TABLE OF
CONTENTS
NG32
NG40
NG50
NG63
Proportional Throttle Valve, Slip-in Cartridge according to ISO 7368
Unrestricted
-20°C to +50°C (-4°F to +122°F)
NG80
50 years
g
10 sinus 5...2000 Hz acc. IEC 68-2-6
30 random noise 20...2000 Hz acc. IEC 68-2-36
15 shock acc. IEC 68-2-27
Hydraulic
Maximum Operating Pressure
Ports A, P, T, X, XX1) and SP1) , up to 350 Bar (5075 PSI),
Port Y, maximum 35 Bar (507.5 PSI)
320
550
800
1450
(84.5)
(145.3)
(211.3)
(383.0)
1000
1600
2250
3500
(264.2)
(422.7)
(594.4)
(924.6)
Hydraulic oil according to DIN 51524...51525
0°C to +60°C (+32°F to +140°F)
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
< 1.5%
A to T and P to A
Must be as high as system pressure
External via X
External via Y
Nominal Flow
LPM
2700
∆p = 5 Bar (72.5 PSI)
GPM
(713.3)
Maximum Flow
LPM
6500
Recommended
GPM
(1717.1)
Fluid
Fluid Temperature
Viscosity Recommended
Viscosity Permitted
Filtration
Nominal Overlap
Flow Direction
Pilot Pressure
Pilot Oil Supply
Pilot Oil Drain
Leakage in Pilot Valve
<400 LPM (105.7 GPM)
at 100 Bar (1450 PSI)
Leakage in Main Stage
NG32 to 63 <2.5 LPM (0.7 GPM); NG80 <4.0 LPM (1.06 GPM)
at 100 Bar (1450 PSI)
Pilot Valve Size
NG6
NG10
Maximum Pilot Flow
25 LPM
25 LPM
25 LPM
50 LPM
60 LPM
at 140 Bar (2030 PSI) Pilot Press.
(6.6 GPM)
(6.6 GPM)
(6.6 GPM)
(13.2 GPM)
(15.9 GPM)
Static / Dynamic 2)
Step Response at Pilot Pressure
9 ms
11 ms
18 ms
15 ms
23 ms
>140 Bar (2030 PSI)
Frequency Resp. at Pilot Press.
>140 Bar (2030 PSI)
105 Hz
95 Hz
54 Hz
30 Hz
34 Hz
Amplitude -3dB; 10% ±5%
90 Hz
82 Hz
72 Hz
62 Hz
56 Hz
Phase -90°; ±5%
Hysteresis
< 1%
Sensitivity
Temperature Drift of
Center Position
< 0.05%
< 0.025%K
1) Suction port SP and accu port XX: Please contact Parker for installation recommendation.
2)For optimal dynamics see installation recommendation.
(Continued on next page)
TPQ.indd, ddp
111
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Proportional Throttle Valves
Series TPQ
Catalog HY14-3200/US
Specifications
Specifications
(Continued from previous page)
Electrical
Duty Ratio
Protection Class
Supply Voltage / Ripple
Current Consumption Max.
Pre-fusing
Input Signal
Voltage
Impedance
Input Capacitance Typ.
Current
Impedance
Differential Input Maximum
Enable Signal
Diagnostic Signal
EMC
Electrical Connection
Wiring Minimum
Wiring Length Maximum
mm2
100% ED
IP65 in accordance with EN 60529 (with correctly mounted plug-in connector)
22...30V, ripple < 5% eff., surge free
3.5 A
4.0 A medium lag
+10...0...-10, ripple < 0.01% eff., surge free
100 kOhm
1 nF
4...12...20 mA, ripple < 0.01% eff., surge free
< 3.6 mA = enable off, > 3.8 mA = enable on acc. NAMUR NE43
250 Ohm
30V for terminal D and E against PE (terminal G),
11V for terminal D and E against 0V (terminal B)
5...30V, Ri = 9 kOhm
0...+10V, rated max. 5mA
EN 61000-6-2, EN 61000-6-4
6 + PE as per EN 175201-804
7 x 1.0 (AWG16) overall braid shield
50 m (164 ft.)
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Parker Hannifin Corporation
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Catalog HY14-3200/US
Block Diagram — Wiring
Proportional Throttle Valves
Series TPQ
Block Diagram
Wiring Connections
Electronics Code B
Electronics Code S
Female Connector
Angle Female Connector
(EMC conforming)
(EMC conforming)
Part No. 5004072
Please order plugs separately.
Part No. 5005160
TPQ.indd, ddp
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Proportional Throttle Valves
Series TPQ
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG32
NG40
Bolt Kit -
NG
32
40
BK529
BK513
4x M16x100 DIN 912 12.8
4 x M20x120 DIN 912 12.8
281 Nm (207.2 lb. -ft.)
553 Nm (407.8 lb.-ft.)
Nitrile
Fluorocarbon
SK-TPQ032EN
SK-TPQ040EN
SK-TPQ032EV
SK-TPQ040EV
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Parker Hannifin Corporation
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Proportional Throttle Valves
Series TPQ
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG50
Bolt Kit -
NG
50
BK513
4 x M20x120 DIN 912 12.8
553 Nm (407.8 lb.-ft.)
Nitrile
Fluorocarbon
SK-TPQ050EN
SK-TPQ050EV
TPQ.indd, ddp
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Parker Hannifin Corporation
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Proportional Throttle Valves
Series TPQ
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG63
NG
Bolt Kit -
63
BK420
DIN912 12.9
4x M30x140 DIN 912 12.9
1910 Nm (1408.6 lb.-ft.)
Nitrile
Fluorocarbon
SK-TPQ063EN
SK-TPQ063EV
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Parker Hannifin Corporation
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Proportional Throttle Valves
Series TPQ
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG80
NG
Bolt Kit -
80
BK530
DIN912 12.9
8x M24x160 DIN 912 12.9
955 Nm (704.3 lb.-ft.)
Nitrile
Fluorocarbon
SK-TPQ080EN
SK-TPQ080EV
TPQ.indd, ddp
117
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Dimensions
NG32 to NG63
Proportional Throttle Valves
Series TPQ
NG80
Required surface finish:
√ Rmax25,
1=
√ Rmax8
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Hydraulic Valve Division
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TABLE OF
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Proportional Throttle Valves
Series TPQ
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
b1
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
250.0
(9.84)
32
40
50
63
80
d1 H7
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
145.0
(5.71)
d2 H7
58.0
(2.28)
73.0
(2.87)
87.0
(3.43)
116.0
(4.57)
140.0
(5.51)
d3 H7
55.0
(2.17)
55.0
(2.17)
68.0
(2.68)
90.0
(3.54)
110.0
(4.33)
d3 min.
32.0
(1.26)
40.0
(1.57)
50.0
(1.97)
63.0
(2.48)
80.0
(3.15)
d3 max.
54.0
(2.13)
54.0
(2.13)
67.0
(2.64)
89.0
(3.50)
109.0
(4.29)
d4
28.0
(1.10)
38.0
(1.50)
63.0
(2.48)
64.0
(2.52)
70.0
(2.76)
d5
28.0
(1.10)
32.0
(1.26)
38.0
(1.50)
52.0
(2.05)
66.0
(2.60)
d7
M 16
M 20
M 20
M 30
M 24
Size
m1
±0.2
m2
±0.2
m3
±0.2
m4
±0.2
t1 +1
t2 ±0.2
t3 ±0.2
t4
t5
t6
t7 ±0.2
t8 ±0.2
32
70.0
(2.76)
41.0
(1.61)
35.0
(1.38)
17.0
(0.67)
100.0
(3.94)
85.0
(3.35)
43.0
(1.69)
13.5
(0.53)
16.0
(0.63)
18.0
(0.71)
71.0
(2.80)
28.5
(1.12)
40
85.0
(3.35)
50.0
(1.97)
42.5
(1.67)
23.0
(0.91)
125.0
(4.92)
105.0
(4.13)
54.0
(2.13)
15.0
(0.59)
18.0
(0.71)
21.0
(0.83)
88.0
(3.46)
34.0
(1.34)
50
100.0
(3.94)
58.0
(2.28)
50.0
(1.97)
30.0
(1.18)
165.0
(6.50)
143.0
(5.63)
86.0
(3.39)
22.0
(0.87)
18.0
(0.71)
21.0
(0.83)
122.0
(4.80)
53.0
(2.09)
63
125.0
(4.92)
75.0
(2.95)
62.5
(2.46)
38.0
(1.50)
195.0
(7.68)
165.0
(6.50)
83.5
(3.29)
20.0
(0.79)
29.5
(1.16)
33.0
(1.30)
138.5
(5.45)
50.0
(1.97)
80
200.0
(7.87)
—
—
—
245.0
(9.65)
215.0
(8.46)
123.0
(4.84)
25.0
(0.98)
27.0
(1.06)
60.0
(2.36)
181.0
(7.13)
87.0
(3.43)
+3
d8 H13
6.0
(0.24)
6.0
(0.24)
8.0
(0.31)
8.0
(0.31)
10.0
(0.39)
t9
t10
2.5
(0.10)
x15°
3.0
(0.12)
x15°
4.0
(0.16)
x15°
4.0
(0.16)
x15°
5.0
(0.20)
x15°
2.5
(0.10)
x15°
3.0
(0.12)
x15°
3.0
(0.12)
x15°
4.0
(0.16)
x15°
5.0
(0.20)
x15°
d9
8.0
(0.31)
10.0
(0.39)
10.0
(0.39)
12.0
(0.47)
16.0
(0.63)
t11
t12
10.0
(0.39)
35.0
(1.38)
10.0
(0.39)
45.0
(1.77)
10.0
(0.39)
45.0
(1.77)
10.0
(0.39)
65.0
(2.56)
10.0
(0.39)
50.0
(1.97)
TPQ.indd, ddp
119
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Technical Information
Return to
Check Valves
Series C1DB
TABLE OF
CONTENTS
General Description
Series C1DB check valves consist of a slip-in valve,
that is designed for a compact block installation.
Features
• Installation hole and mounting pattern according to
ISO 7368.
•
• 8 sizes NG16 to NG100.
5 different springs.
Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
Hydraulic
Maximum Operating
Pressure
Nominal Flow
Flow Direction
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
Nominal Pressure
Opening Spring Pressure
NG16
NG25
NG32
NG40
2-way cartridge valve according to ISO 7368
Unrestricted
-40°C to +60°C (-40°F to +140°F)
NG50
NG63
NG80
NG100
Ports A, B and X 350 Bar (5075 PSI), port Y 10 Bar (145 PSI) maximum
250 LPM 450 LPM 900 LPM 1300 LPM 1800 LPM 3600 LPM 5250 LPM 8000 LPM
(66 GPM) (119 GPM) (238 GPM) (344 GPM) (476 GPM) (952 GPM) (1389 GPM) (2116 GPM)
See Symbols
Hydraulic oil according to DIN 51524 ... 536
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
-20°C to +60°C (-4°F to +140°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
350 Bar (5075 PSI)
L = 0.1 Bar (1.5 PSI), N = 0.5 Bar (7.3 PSI), S = 1.6 Bar (23.2 PSI), U = 4.0 Bar (58.0 PSI)
C1DB.indd, ddp
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Check Valves
Series C1DB
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Ordering Information
C1DB
101
E
0
0
Check
Valve
Cover
Slip-in
Valve
Valve
Size
Design
Series
Seals
Code
Omit
V
Description
Nitrile
Fluorocarbon
Weight:
C1DB16
C1DB25
C1DB32
C1DB40
C1DB50
C1DB63
C1DB80
C1DB100
1.2 kg (2.6 lbs.)
2.5 kg (5.5 (lbs.)
3.9 kg (8.6 lbs.)
7.0 kg (15.4 lbs.)
11.4 kg (25.1 lbs.)
21.8 kg (48.1 lbs.)
45.0 kg (99.2 lbs.)
74.0 kg (163.2 lbs.)
Code
16
25
32
40
50
63
80
100
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
Code
L
N
S
T
U
99
00
Closing
Spring
Description
0.1 Bar (1.5 PSI)
0.5 Bar (7.3 PSI)
1.6 Bar (23.2 PSI)
2.5 Bar (36.3 PSI)
4.0 Bar (58.0 PSI)
Springs
Spring Type
L (0.1 Bar) (1.5 PSI)
N (0.5 Bar) (7.3 PSI)
S (1.6 Bar) (23.2 PSI)
T (2.5 Bar) (36.3 PSI)
U (4.0 Bar) (58.0 PSI)
NG16
45051368
45051369
45051370
45051670
45051371
NG25
45051375
45051374
45051372
45051671
45051373
NG32
45051376
45051377
45051378
45051672
45051379
Ordering Number
NG40
NG50
45051382
45051384
45051381
45051385
45051380
45051386
45051673
45051674
45051383
45051387
NG63
45051388
45051389
45051390
—
45051391
NG80
45051395
45051396
45051397
—
45051398
NG100
45051400
45051401
45051402
—
45051403
Performance Curves
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Check Valves
Series C1DB
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
NG16
40.0
(1.57)
NG25
45.0
(1.77)
NG32
50.0
(1.97)
NG40
60.0
(2.36)
NG50
70.0
(2.76)
NG63
85.0
(3.35)
NG80
105.0
(4.13)
NG100
120.0
(4.72)
b1
65.0
(2.56)
85.0
(3.35)
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
250.0
(9.84)
300.0
(11.81)
d1H7
32.0
(1.26)
45.0
(1.77)
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
145.0
(5.71)
180.0
(7.09)
d2H7
25.0
(0.98)
34.0
(1.34)
45.0
(1.77)
56.0
(2.20)
68.0
(2.68)
90.0
(3.54)
110.0
(4.33)
135.0
(5.31)
t2+0.1
55.5
(2.19)
72.0
(2.83)
85.0
(3.35)
105.0
(4.13)
122.0
(4.80)
155.0
(6.10)
205.0
(8.07)
245.0
(9.65)
H
NG
16
25
32
40
50
63
80
100
Bolt Kit BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
BK418 (BK88)
BK419 (BK135)
BK420 (BK90)
33 Nm (24.3 lb.-ft.)
115 Nm (54.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
935 Nm (689.6 lb.-ft.)
1910 Nm (1408.6 lb.-ft.)
Nitrile
SK-CB-E160
SK-CB-E250
SK-CB-E320
SK-CB-E400
SK-CB-E500
SK-CB-E630
SK-CB-E630
SK-CB-E630
Fluorcarbon
SK-CB-E160V
SK-CB-E250V
SK-CB-E320V
SK-CB-E400V
SK-CB-E500V
SK-CB-E630V
SK-CB-E630V
SK-CB-E630V
C1DB.indd, ddp
122
Parker Hannifin Corporation
Hydraulic Valve Division
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Catalog HY14-3200/US
Technical Information
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Check Valves
Series SVLB
TABLE OF
CONTENTS
General Description
Series SVLB hydraulically pilot operated check valves
allow free flow from A to B. The counter-flow direction
is blocked.
When pressure is applied to control port X, the ring
chamber flow from B to A is released. The pilot control
ratio is 6:1.
Function
When no pressure is applied to the X-port, the flow
from B to A is blocked, because the pressure in B is
also effective on top of the poppet.
Pressurizing the X-port relieves the area on top of the
poppet to the drain port and allows flow from B to A.
The seat design of the SVLB valve series provides
leak-free separation of port A and B in the closed
position.
Features
• Pilot operated check valve.
• Cavity and mounting pattern according to ISO 7368.
• Dampening poppet optional.
• 5 sizes NG16 to NG50.
Performance Curves
Poppet Type 04, 08, without spring
SVLB.indd, ddp
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Series SVLB
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Technical Information
TABLE OF
CONTENTS
Ordering Information
SVL
B
10
Seals
Hydraulically
Operated
Check Valve
Slip-in
Mounting
Design Style
according to
ISO 7368
Code
Omit
V
Description
Nitrile
Fluorocarbon
E
Pilot
Control
Ratio 6:1
Slip-in
Cartridge
Valve
Code Description
4 04
8 1)08
1)
Weight:
SVLB16
SVLB25
SVLB32
SVLB40
SVLB50
Poppet
Type
6
Code
16
25
32
40
50
with damping nose
2.3 kg (5.1 lbs.)
3.2 kg (7.1 (lbs.)
4.6 kg (10.1 lbs.)
7.8 kg (17.2 lbs.)
12.0 kg (26.5 lbs.)
Valve
Size
Description
NG16
NG25
NG32
NG40
NG50
Closing
Spring
Code
N
S
T
U
Design
Series
NOTE:
Not required
when ordering.
Description
0.5 Bar (7.3 PSI)
1.6 Bar (23.2 PSI)
2.5 Bar (36.3 PSI
4.0 Bar (58.0 PSI)
Specifications
General
Size
Interface
Mounting Position
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Nominal Flow
LPM
GPM
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature
Filtration
NG16
NG25
Slip-in mounting, according to ISO 7368
Unrestricted
-20°C to +80°C (-4°F to +176°F)
NG32
350 Bar (5075 PSI)
250
450
900
(66)
(119)
(238)
Hydraulic oil according to DIN 51524 ... 525
30 to 50 cSt (mm2/s)
20 to 380 cSt (mm2/s)
-20°C to +70°C (-4°F to +158°F)
ISO 4406 (1999); 18/16/13 (meet NAS 1638:7)
NG40
NG50
1300
(344)
1800
(476)
Standard Orifices
Position
1
2
3
4
E16
open (M5)
Ø1.2 (M5)
open (M5)
Ø1.0 (M5)
E25
open (M5)
Ø1.2 (M6)
open (M6)
Ø1.2 (M6)
E32
open (M5)
Ø1.2 (M6)
open (M6)
Ø1.3 (M6)
E40
open (M5)
Ø1.2 (M6)
open (M6)
Ø1.5 (M6)
E50
open (M6)
Ø1.2 (M8)
open (M8)
Ø2.0 (M8)
SVLB.indd, ddp
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Series SVLB
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Size
H
b1
d1H7
d2H7
t2+0.1
Bges.
NG16
84.0
(3.31)
79.0*
(3.11)
32.0
(1.26)
25.0
(0.98)
56.0
(2.20)
99.0
(3.90)
NG25
88.0
(3.46)
85.0
(3.35)
45.0
(1.77)
34.0
(1.34)
72.0
(2.83)
94.0
(3.70)
NG32
93.0
(3.66)
102.0
(4.02)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
103.0
(4.06)
NG40
103.0
(4.06)
125.0
(4.92)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
125.0
(4.92)
NG50
138.0
(5.43)
140.0
(5.51)
90.0
(3.54)
68.0
(2.68)
122.0
(4.80)
140.0
(5.51)
Width 65mm (2.56 in.)
1)
NG
16
25
32
40
50
Bolt Kit BK414 (BK84)
BK391 (BK77)
BK415 (BK85)
BK416 (BK86)
BK417 (BK87)
33 Nm (24.3 lb.-ft.)
115 Nm (54.8 lb.-ft.)
281 Nm (207.2 lb.-ft.)
553 Nm (407.8 lb.-ft.)
553 Nm (407.8 lb.-ft.)
Nitrile
SK-SVLB10-E16
SK-SVLB10-E25
SK-SVLB10-E32
SK-SVLB10-E40
SK-SVLB10-E50
Fluorcarbon
SK-SVLB10-E16V
SK-SVLB10-E25V
SK-SVLB10-E32V
SK-SVLB10-E40V
SK-SVLB10-E50V
SVLB.indd, ddp
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2-Way Seat Valve, Flow A ⇒ B
Type
Description
Cover 1)
Cover Orifice
Cartridge
1
2)
Poppet Orifice
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
C016AA*
C025AA*
C032AA*
C040AA*
C050AA*
C063AA*
C080AA*
C100AA*
1/16xØ0.8
1/16xØ1.0
1/16xØ1.2
1/8xØ1.5
1/8xØ1.8
1/8xØ2.0
1/8xØ2.2
1/8xØ2.5
CE016C01*
CE025C01*
CE032C01*
CE040C01*
CE050C01*
CE063C01*
CE080C01*
CE100C01*
BK419
BK135)
BK420
(BK90)
1
1/16xØ00
Spring
1.6 Bar (23.2 PSI), Type S (Order no. see spare parts)
BK414
(BK84)
Bolt Kit Cover
BK391
(BK77)
BK415
(BK85)
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK416
(BK86)
1)
2)
BK417
(BK87)
BK418
(BK88)
Complete type see Ordering Information C*A
Complete type see Ordering Information CE*
2-Way Seat Valve with Stroke Limiter, Flow A ⇒ B
Type
Description
Cover 1)
Cover Orifice
1
Cartridge 2)
Poppet Orifice
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
C016B**
C025B**
C032B**
C040B**
C050B**
C063B**
C080B**
C100B**
M6xØ0.8
M6xØ1.0
1/16xØ1.2
1/16xØ1.5
1/16xØ1.8
1/8xØ2.0
1/8xØ2.2
1/8xØ2.5
CE016C01*
CE025C01*
CE032C01*
CE040C01*
CE050C01*
CE063C01*
CE080C01*
CE100C01*
BK419
BK135)
BK420
(BK90)
1
1/16xØ00
Spring
Bolt Kit Cover
1.6 Bar (23.2 PSI), Type S (Order no. see spare parts)
BK414
(BK84)
BK391
(BK77)
BK415
(BK85)
BK416
(BK86)
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
1)
2)
BK417
(BK87)
BK418
(BK88)
Complete type see Ordering Information C*B
Complete type see Ordering Information CE*
Combination-2-way.indd, ddp
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2-Way Functions with Dampening Poppet, Flow A ⇔ B
Type
Description
Cover 1)
Cover Orifice
Cartridge
1
2)
Poppet Orifice
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
C016AA*
C025B*
C032AA*
C040AA*
C050AA*
C063AA*
C080AA*
C100AA*
1/16xØ0.8
1/16xØ1.0
1/16xØ1.2
1/8xØ1.5
1/8xØ1.8
1/8xØ2.0
1/8xØ2.2
1/8xØ2.5
CE016C08*
CE025C08*
CE032C08*
CE040C08*
CE050C08*
CE063C08*
CE080C08*
CE100C08*
BK419
(BK135)
BK420
(BK90)
1
1/16xØ00
Spring
1.6 Bar (23.2 PSI), Type S (Order no. see spare parts)
BK414
(BK84)
Bolt Kit Cover
BK391
(BK77)
BK415
(BK85)
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK416
(BK86)
1)
2)
BK417
(BK87)
BK418
(BK88)
Complete type see Ordering Information C*A
Complete type see rdering Information CE*
2-Way Functions with Stroke Limiter and Dampening Poppet, Flow A ⇔ B
Type
Description
Cover 1)
Cover Orifice
1
Cartridge 2)
Poppet Orifice
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
C016B*
C025B*
C032B*
C040B*
C050B*
C063B*
C080B*
C100B*
M6xØ0.8
M6xØ1.0
1/16xØ1.2
1/16xØ1.5
1/16xØ1.8
1/8xØ2.0
1/8xØ2.2
1/8xØ2.5
CE016C08*
CE025C08*
CE032C08*
CE040C08*
CE050C08*
CE063C08*
CE080C08*
CE100C08*
BK419
(BK135)
BK420
(BK90
1
1/16xØ00
Spring
Bolt Kit Cover
1.6 Bar, (23.2 PSI) Type S (Order no. see spare parts)
BK414
(BK84)
BK391
(BK77)
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK415
(BK85)
BK416
(BK86)
1)
2)
BK417
(BK87)
BK418
(BK88)
Complete type see Ordering Information C*B
Complete type see Ordering Information CE*
Combination-2-way.indd, ddp
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2-Way Seat Valve with Pilot, Normally Closed, Flow A ⇔ B
NG16 - 40 with
Pilot NG06
NG50 - 63 with
Pilot NG06
NG50 - 100 with
Pilot NG10
Type
Description
NG16
Pilot NG6
NG32
NG40
NG25
4/2-DC Valve 1)
NG100
PADA1007/A-B/B-A
without
C025CA*
C032CA*
C040CA*
C050CA*
C063CA*
C050CA*
C063CA*
C080CA*
C100CA*
M5xØ0.8
M5xØ1.0
M5xØ1.2
M5xØ1.5
M6xØ1.8
M6xØ2.0
M6xØ1.8
M6xØ2.0
1/16xØ2.2
1/16xØ2.5
1
Cover Orifice
2
Cover Orifice
3
M5xØ1.0
Cover Orifice
4
M5xØ99
4)
Pilot NG10
NG63
NG80
C016CA*
Cover Orifice
M5xØ00
M6xØ1.2
M6xØ1.5
M6xØ00
M6xØ1.8
M8xØ2.0
M8xØ2.2
M6xØ99
M8xØ2.0
1/16xØ00
M8xØ2.2
M10x1xØ2.5 M10x1xØ3.0
M8xØ99C
M10x1xØ99
CE016C04* CE025C04* CE032C04* CE040C04* CE050C04* CE063C04* CE050C04* CE063C04* CE080C04* CE100C04*
Poppet Orifice 1
1/16NPTxØ00
Spring
1.6 Bar (23.2 PSI), Type S (Order no. see spare parts)
BK414
(BK84)
Bolt Kit Cover
Bolt Kit Pilot
NG50
D3W20H*
without
3)
Cartridge
NG63
D1VW020B*
Adapter Plate 2)
Cover
NG50
BK391
(BK77)
BK415
(BK85)
BK416
(BK86)
BK417
(BK87)
BK375
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK418
(BK88)
BK417
(BK87)
BK418
(BK88)
BK419
(BK135)
BK420
(BK90)
BK385
3)
4)
1)
2)
Complete type see Catalog HY14-2500/US, Series D1VW, D3W.
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CE*
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2-Way Seat Valve with Pilot and Dampening Poppet, Normally Closed, Flow A ⇔ B
NG16 - 40 with
Pilot NG06
NG50 - 63 with
Pilot NG06
NG50 - 100 with
Pilot NG10
Type
Description
NG16
Pilot NG06
NG32
NG40
NG25
4/2-DC Valve 1)
PADA1007/A-B/B-A
C032CA*
C040CA*
C050CA*
C063CA*
C050CA*
C063CA*
C080CA*
C100CA*
M5xØ0.8
M5xØ1.0
M5xØ1.2
M5xØ1.5
M6xØ1.8
M6xØ2.0
M6xØ1.8
M6xØ2.0
1/16xØ2.2
1/16xØ2.5
1
2
Cover Orifice
3
M5xØ1.0
Cover Orifice
4
M5xØ99
M5xØ00
M6xØ1.2
M6xØ1.5
M6xØ00
M6xØ1.8
M8xØ2.0
M8xØ2.2
M6xØ99
1/16xØ00
M8xØ2.0
M8xØ2.2
M10x1xØ2.5 M10x1xØ3.0
M8xØ99C
M10x1xØ99
CE016C08* CE025C08* CE032C08* CE040C08* CE050C08* CE063C08* CE050C08* CE063C08* CE080C08* CE100C08*
Poppet Orifice 1
1/16NPTxØ00
Spring
Bolt Kit Pilot
without
C025CA*
Cover Orifice
4)
NG100
C016CA*
Cover Orifice
Bolt Kit Cover
Pilot NG10
NG63
NG80
NG50
D3W20H*
without
3)
Cartridge
NG63
D1VW020B*
Adapter Plate 2)
Cover
NG50
1.6 Bar (23.2 PSI), Type S (Order no. see spare parts)
BK414
(BK84)
BK391
(BK77)
BK415
(BK85)
BK416
(BK86)
BK417
(BK87)
BK375
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK418
(BK88)
BK417
(BK87)
BK418
(BK88)
BK419
(BK135)
BK420
(BK90)
BK385
3)
4)
1)
2)
Complete type see Catalog HY14-2500/US, Series D1VW, D3W.
Includes O-rings and mounting bolts
Complete type see Ordering Information C*C
Complete type see Ordering Information CE*
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Check Valve, Flow A ⇒ B
Type
Description
Cover
1)
Cover Orifice
NG25
C016AA*
C025AA*
1
Cartridge 2)
Poppet Orifice
NG16
NG32
NG40
NG50
C032AA*
C040AA*
C050AA*
M5xØ00
CE016C01*
CE025C01*
CE032C01*
NG80
NG100
C063AA*
C080AA*
C100AA*
M6xØ99
CE040C01*
1
CE050C01*
1/16xØ99
CE063C01*
CE080C01*
CE100C01*
BK419
(BK135)
BK420
(BK90)
1/16NPTxØ00
Spring
Bolt Kit Cover
NG63
1.6 Bar (23.2 PSI), Type S (Order no. see spare parts)
BK414
(BK84)
BK391
(BK77)
Shown orifice Ø and springs are recommendations.
xxØ00 = plug
xxØ99 = open
BK415
(BK85)
BK416
(BK86)
1)
2)
BK417
(BK87)
BK418
(BK88)
Complete type see Ordering Information C*A
Complete type see Ordering Information CE*
Combination-2-way.indd, ddp
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Series C10D*C
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
General Description
Series C10D*C 2/2 way seat valves are equipped with
an inductive switch to monitor the closed position. After
the poppet is lifted from the seat, the design of the
poppet ensures that only a minimum amount of oil can
pass the seat before the inductive switch changes the
signal.
The poppet has a 60/40 area ratio (AA = 0.6 AC, AB =
0.4 Ac) and is capable for flow from A to B and B to A.
For sizes NG80 and NG100 a proximity switch 90° to
the poppet is used.
Features
• German trade association certificate, No. 00 077.
• Cavity and mounting pattern according to ISO 7368.
• Monitored closed position.
• Inductive switch CE conform.
• Optional poppet sealing.
• 8 sizes NG16 up to NG100.
Ordering Information
C
Seals
10
D
101
E
2/2 Way Poppet Hydraulically Design Inductive Cover
Slip-in Valve
Valve Shape
Operated Series Monitoring
Cartridge Size
German Trade
Association
Certificate
00 077 1)
CodeDescription
ENG16-NG63
F
NG80 - NG100
Code
Omit
V
C
Description
Nitrile
Fluorocarbon
Weight:
C10DEC*16
C10DEC*25
C10DEC*32
C10DEC*40
C10DEC*50
C10DEC*63
C10DFC*80
C10DFC*100
Code
16
25
32
40
50
63
80
100
Description
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
1.5 kg (3.3 lbs.)
2.7 kg (6.0 (lbs.)
4.3 kg (9.5 lbs.)
7.4 kg (16.3 lbs.)
12.0 kg (26.5 lbs.)
23.0 kg (50.7 lbs.)
53.0 kg (116.9 lbs.)
89.0 kg (196.2 lbs.)
0
99
Cavity
and
Mounting
Pattern
ISO 7368
Code
L
N
S
U
Spring
00
Poppet
Seal
1
Orifice
Description
0.1 Bar (1.5 PSI)
0.5 Bar (7.3 PSI)
1.6 Bar (23.2 PSI)
4.0 Bar (58.0 PSI)
Code
Omit
X425
Description
None
Only with
Spring Codes
S and U
Code Description
99 Without Orifice,
Open Orifice Options
Orifice (See
Accessories)
1)Certificate only for NG16-NG63
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Orifice Recommendation and Thread
Orifice
NG16
NG25
NG32
NG40
NG50
NG63
NG80
NG100
No.: 1
1/16 Ø0.8
1/16 Ø1.2
1/16 Ø1.5
1/8 Ø2.0
1/8 Ø2.5
1/8 Ø3.0
1/8 Ø3.0
1/8 Ø3.0
80
100
Orifices Ø in mm, thread in NPT
Seal and Bolt Kits
Nominal Size
16
Seal Kit
Fluorocarbon SK-CBE160V
Nitrile
Bolt Kit
Recommended
Torque
SK-CBE160
25
SK-CBE250V
SK-CBE250
32
40
50
63
SK-CBE320V SK-CBE400V SK-CBE500V SK-CBE630V SK-CBE800V SK-CBE100V
SK-CBE320
SK-CBE400
SK-CBE500
SK-CBE630
BK414 (BK84) BK391 (BK77) BK415 (BK85) BK416 (BK86) BK417 (BK87) BK418 (BK88)
27 Nm
(19.9 lb.ft.)
94 Nm
(69.3 lb.ft)
234 Nm
(172.6 lb.ft)
460 Nm
(339.3 lb.ft)
460 Nm
(339.3 lb.ft)
1570 Nm
(1157.9 lb.ft)
SK-CBE800
SK-CBE100
BK419
BK420
935 Nm
1910 Nm
(689.6 lb.-ft.) (1408.6 lb.-ft.)
Attention! The switch may only be adjusted by the valve manufacturer. The exchange of individual modules is not permitted.
Performance Curve
C10D_C.indd, ddp
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Specifications
General
Size
NG16
NG25
NG32
NG40
NG50
NG63
Interface
2-way slip-in cartridge valve according to ISO 7368
Mounting Position
Unrestricted
Operation
Hydraulic
Ambient Temperature
-40°C to +60°C (-40°F to +140°F)
Hydraulic
Maximum Operating Pressure
350 Bar (5075 PSI)
Nominal Flow
LPM
220
450
900
1300
1800
3600
∆p = 5 Bar (73 PSI)
GPM
(58)
(119)
(238)
(344)
(476)
(952)
Fluid
Hydraulic oil according to DIN 51524 ... 525
Viscosity Recommended
30 to 80 cSt (mm2/s)
Viscosity Permitted
20 to 380 cSt (mm2/s)
Fluid Temperature Recommended
+30°C to +50°C (+86°F to +122°F)
Fluid Temperature Permitted
-20°C to +60°C (-4°F to +140°F)
Filtration
NAS 1638 class 9, to be achieved by ß10 > 75 ISO 18/16/13
Control Volume at
2.03
6.45
12.21
20.32
39.40
94.56
Maximum Stroke
cm3
Control Surface
Approximately 60% / 40% related on surface C
(Surface C = 100%) A/B
Opening Pressure
L = 0.25 Bar (3.6 PSI), N 1.25 Bar (18.1 PSI),
Flow Direction B to A
S = 4.0 Bar (58.0 PSI), U = 10.0 Bar (58.0 PSI)
Opening Pressure
L = 0.16 Bar (2.3 PSI), N 0.85 Bar (12.3 PSI),
Flow Direction A to B
S = 2.7 Bar (39.2 PSI), U = 6.6 Bar (95.7 PSI)
Electrical (Position Control per IEC 61076-2-101 (M12x1) NG16 to NG63
Protection Class
IP65 in accordance with EN60529 (plugged and mounted)
Ambient Temperature
0°C to +50°C (+32°F to +122°F)
Supply Voltage / Ripple
18V to 42V / 10%
Current Consumption without Load ≤30mA
Output Current per Channel, Ohmic 400mA, maximum
Output Load per Channel, Ohmic
100k Ohm, minimum
Output Drop at 0.2A
≤1.1 VDC, maximum
Output Drop at 0.4A
≤1.6 VDC, maximum
EMC
EN50081-1 / EN50082-2
Ambient Field Strength
<1200A/m, maximum tolerance
Distance to Next AC Solenoid
>0.1 m (3.9 in.), minimum
Interface
Mx12x1
Wiring
5 x 0.25 mm2, minimum, brad shield recommended
Wiring Length
50 m (164 ft.), maximum recommended
NG80
NG100
5000
(1322)
7500
(1984)
950
1300
M12 Pin Assignment
1 + Supply 18...42V
2 Normally open
30V
4 Normally closed
5 Earth ground
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Parker Hannifin Corporation
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Slip-in Cartridge Valves
Series C10D*C
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Extract from the German Trade Association Certificate (Applies to NG16 to NG63 only)
Fachausschuss Maschinenbau,
Hebezeuge, Hütten- und
Walzwerksanlagen
Prüf- und Zertifizierungsstelle
im BG-PRÜFZERT
Hauptverband der gewerblichen
Berufsgenossenschaften
Name und Anschrift des Bescheinigungsinhabers: (Auftraggeber) Parker Hannifin GmbH
Hydraulic Controls Division
Gutenbergstr. 38 - 40, D- 41564 Kaarst
Name und Anschrift des Herstellers: Parker Hannifin GmbH
Hydraulic Controls Division
Gutenbergstr. 38 - 40, D- 41564 Kaarst
Zeichen des Auftraggebers: Zeichen der Prüf- und Zertifizierungsstelle: MHHW 612.1:612.28-UB Gb/bt Produktbezeichnung: 2/2- Wegesitzventil mit Überwachung
Einbauventil nach DIN 24342 (entspricht DIN ISO 7368)
Typ:
C10 DEC 101.....
00 077
Bescheinigungs-Nummer
Das geprüfte Baumuster entspricht den einschlägigen Bestimmungen der EG-Maschinenrichtline 2006/42/EG.
Electrical Specifications
Electrical (Position Control per IEC 61076-2-101 (M12x1) NG80 to NG100
Protection Class
IP65 in accordance with EN60529 (plugged and mounted)
Ambient Temperature
0°C to +50°C (+32°F to +122°F)
Supply Voltage Us / Ripple
10V to 30V / 10%
Current Consumption without Load
≤10mA
Output Current per Channel, Ohmic
200mA, maximum
Output Load per Channel, Ohmic
100k Ohm, minimum
Output Drop at 0.2A
≤2 VDC, maximum
EMC
EN61000-6-4 / EN61000-6-2
Distance to Next AC Solenoid
>0.1 m (3.9 in.), minimum
Interface
Mx12x1
Wiring
3 x 0.14 mm2, minimum, brad shield recommended
Wiring Length
50 m (164 ft.), maximum recommended
M12 Pin Assignment
1+ US 10...30V
2 Out A: not connected
30V
4 Out A: normally closed
Definition
Start position monitored:
The switching point of the inductive switch is within the closed position of the poppet.
After the inductive switch changes the signal the valve opens.
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Slip-in Cartridge Valves
Series C10D*C
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
NG16 to NG63
NG80 to NG100
Cavity and mounting patterm according to ISO7368
Nominal Size
H
130.0
(5.12)
h
40.0
(1.57)
b1
79.0 1)
(3.11)
d1
32.0
(1.26)
d2
25.0
(0.98)
t2 +0.1
56.0
(2.20)
25
135.0
(5.31)
45.0
(1.77)
85.0
(3.35)
45.0
(1.77)
34.0
(1.34)
72.0
(2.87)
32
140.0
(5.51)
50.0
(1.97)
102.0
(4.02)
60.0
(2.36)
45.0
(1.77)
85.0
(3.35)
40
150.0
(5.91)
60.0
(2.36)
125.0
(4.92)
75.0
(2.95)
55.0
(2.17)
105.0
(4.13)
50
160.0
(6.30)
70.0
(2.76)
140.0
(5.51)
90.0
(3.54)
68.0
(2.68)
122.0
(4.80)
63
175.0
(6.89)
85.0
(3.35)
180.0
(7.09)
120.0
(4.72)
90.0
(3.54)
155.0
(6.10)
80
195.0
(7.68)
105.0
(4.13)
250.0
(9.84)
145.0
(5.71)
110.0
(4.33)
205.0
(8.07)
100
210.0
(8.27)
120.0
(4.72)
300.0
(11.81)
180.0
(7.09)
135.0
(5.31)
245.0
(9.65)
16
Width 65mm (2.56 in.)
1)
C10D_C.indd, ddp
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Parker Hannifin Corporation
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Slip-in Cartridge Valves
Series C18D*C
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
General Description
Series C18D*C 2/2 way, monitored seat valves with
cartridge design according to ISO 7368 are preferably
used for safety circuits: mainly for safety guards, mold
form tools and locking mechanisms for presses and
injection moulding machines. Pilot pressure actively
opens and closes the main poppet independent of
pressure in the main ports.
Position control
Features
• German trade association certificate, No. 00 078.
• Cavity and mounting pattern according to ISO 7368.
• Monitored closed position.
• Inductive switch CE conform.
• Active design with separate control surfaces.
• Sealing between control surfaces and connection B.
• 5 sizes NG25 up to NG63.
The two orifices 1A and 1B
have always the same Ø
Ordering Information
C
18
D
E
C
107
E
0
Seals
2/2 Way Poppet Hydraulically Design Inductive Cover Slip-in Valve
Cavity and
Spring
1
2
3
4
Valve
Shape Operated Series Monitoring
Mounting
Orifice
Cartridge Size
German Trade
Pattern
Association
ISO 7368
Certificate
Code Description
00 078
Omit Nitrile
ode Description
C
Code Description
V Fluorocarbon
S
1.6 Bar (23.2 PSI)
99 Without Orifice, Open
U
4.0 Bar (58.0 PSI)
Weight:
C18DEC*25 3.2 kg (7.1 lbs.)
C18DEC*32 6.7 kg (14.8 (lbs.)
Code
Description
C18DEC*40 8.7 kg (19.2 lbs.)
25
NG25
Orifice (See
C18DEC*50 13.8 kg (30.4 lbs.)
32
NG32
Accessories)
C18DEC*63 26.3 kg (58.0 lbs.)
40
NG40
50
NG50
63
NG63
Orifice Thread
Orifice
NG25
1
M6
2
M6
3
M6
4
M6
* Thread in NPT
Orifice Recommendation
NG32
M6
M6
M6
M6
NG40
M6
M6
M6
M6
NG50
*1/16
*1/16
*1/16
*1/16
NG63
*1/8
*1/16
*1/8
*1/16
Orifice
NG25
NG32
NG40
NG50
NG63
1 - 4
Ø 1.2
Ø 1.5
Ø 2.0
Ø 2.5
Ø 3.0
Depending on function, plugs must be used.
Seal and Bolt Kits
Nominal Size
Seal Kit
25
32
40
50
63
Fluorocarbon SK-C13DB10-E25V SK-C13DB10-32V SK-C13DB-E40V SK-C13DB10-E50V SK-C13DB10-E63V
Nitrile SK-C13DB10-E25 SK-C13DB10-32 SK-C13DB10-E40 SK-C13DB10-E50 SK-C13DB10-E63
Bolt Kit
BK-M12x90-4pcs BK-M16x90-4pcs BK-M20x110-4pcs BK-M20x120-4pcs BK-M30x160-4pcs
Recommemded Torque
Nm (lb.-ft.)
94 (69.3)
234 (172.6)
460 (39.3)
460 (339.3)
1570 (1157.9)
Attention! The switch may only be adjusted by the valve manufacturer. The exchange of individual modules is not permitted.
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Slip-in Cartridge Valves
Series C18D*C
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Technical Information
TABLE OF
CONTENTS
Specifications
General
Size
Interface
Mounting Position
Operation
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Nominal Flow, ∆p = 5 Bar (73 PSI)
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature Recommended
Fluid Temperature Permitted
Filtration
Control Volume Spring Chamber
Surface C
Control Surface
NG25
NG32
NG40
2-way slip-in cartridge valve according to ISO 7368
Unrestricted
Hydraulic
-40°C to +60°C (-40°F to +140°F)
NG50
350 Bar (5075 PSI)
400 LPM
800 LPM
1250 LPM
1625 LPM
(105.7 GPM)
(211.3 GPM)
(330.2 GPM)
(429.3 GPM)
Hydraulic oil according to DIN 51524 ... 525
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
+30°C to +50°C (+86°F to +122°F)
-20°C to +60°C (-4°F to +140°F)
NAS 1638 class 9, to be achieved by ß10 > 75 ISO 18/16/13
6.45 (cm³)
12.21 (cm³)
20.32 (cm³)
39.40 (cm³)
NG63
3400 LPM
(898.2 GPM)
94.56 (cm³)
F/C
100%
FSt
123.8%
108.6%
121.5%
117.0%
121.0%
FA/B
Approximately 60% / 40% related on surface C
Opening Pressure Flow Direction B to A L=0.25 Bar (3.6 PSI), N=1.25 Bar (18.1 PSI), S=4.0 Bar (58.0 PSI), U=10.0 Bar (5=145.0 PSI)
Opening Pressure Flow Direction A to B L=0.16 Bar (2.3 PSI), N=0.85 Bar (12.3 PSI), S=2.7 Bar (39.2 PSI), U=6.6 Bar (95.7 PSI)
Electrical (Position Control per IEC 61076-2-101 (M12x1)
Protection Class
IP65 in accordance with EN60529 (plugged and mounted)
Ambient Temperature
0°C to +50°C (+32°F to +122°F)
Supply Voltage / Ripple
18V to 42V / 10%
Current Consumption without Load
≤ 30mA
Output Current per Channel, Ohmic
400mA, maximum
Output Load per Channel, Ohmic
100k Ohm, minimum
Output Drop at 0.2A
≤1.1V, maximum
Output Drop at 0.4A
≤1.6V, maximum
EMC
EN50081-1 / EN50082-2
Ambient Field Strength
<1200A/m, maximum tolerance
Distance to Next AC Solenoid
>0.1 m (3.9 in.), minimum
Interface
Mx12x1
Wiring
5 x 0.25 mm2, minimum, brad shield recommended
Wiring Length
50 m (164 ft.), maximum recommended
Performance Curve
M12 Pin Assignment
1 + Supply 18...42V
2 Normally open
30V
4 Normally closed
5 Earth ground
C18D_C.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Dimensions
Return to
Slip-in Cartridge Valves
Series C18D*C
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Nominal
Size
25
32
40
50
63
H
174.0
(6.85)
174.0
(6.85)
194.0
(7.64)
214.0
(8.14)
234.0
(9.21)
h
90.0
(3.54)
90.0
(3.54)
110.0
(4.33)
130.0
(5.12)
150.0
(5.91)
b1
85.0
(3.35)
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
d1
45.0
(1.77)
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
d2
34.0
(1.34)
45.0
(1.77)
55.0
(2.17)
68.0
(2.68)
90.0
(3.54)
12 +0.1
72.0
(2.83)
85.0
(3.35)
105.0
(4.13)
122.0
(4.80)
155.0
(6.10)
Control Surfaces
NG
25
32
40
50
63
AA [%]
60
60
60
60
60
AB [%]
40
40
40
40
40
AC [%]
100
100
100
100
100
ASt [%]
124
109
121
117
121
Pilot Guide Inside the Poppet
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Parker Hannifin Corporation
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Slip-in Cartridge Valves
Series C18D*C
Catalog HY14-3200/US
Position Control
TABLE OF
CONTENTS
Extract from the German Trade Association Certificate
Fachausschuss
Maschinenbau,Hebezeuge,
Hütten- und
Walzwerksanlagen
Prüf- und Zertifizierungsstelle
im BG-PRÜFZERT
Name und Anschrift Parker Hannifin GmbH
des Bescheinigungsinhabers: Hydraulic Controls Division
(Auftraggeber) Gutenbergstr. 38 - 40, D- 41564 Kaarst
Hauptverband der gewerblichen
Berufsgenossenschaften
00 078
Bescheinigungs-Nummer
Name und Anschrift des Herstellers: Parker Hannifin GmbH
Hydraulic Controls Division
Gutenbergstr. 38 - 40, D- 41564 Kaarst
Zeichen des Auftraggebers: Zeichen der Prüf- und Zertifizierungsstelle:
MHHW 612.1:612.28-UB Gb/bt Produktbezeichnung: 2/2- Wegesitzventil mit Überwachung
aktiv gesteuerte Einbauventile nach DIN 24342 (entspricht DIN ISO 7368)
Typ:
C18 DEC 107.....
Das geprüfte Baumuster entspricht den einschlägigen Bestimmungen der EG-Maschinenrichtline 2006/42/EG.
C18D_C.indd, ddp
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Parker Hannifin Corporation
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Slip-in Cartridge Valves
Series C18DB
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
General Description
Series C18DB 2/2 way seat valves with cartridge
design according to ISO 7368 are preferably used
where opening and closing should be controlled by
pilot pressure only, independent of the pressure in the
main ports.
Series C18DB is offered as hydraulically controlled
valve (C18DB107), with additional stroke limiter
(C18DBN112) and with the mounting pattern for a pilot
valve (C18DB121).
C18DB107
Features
• Cavity and mounting pattern according to ISO 7368.
• Active design with separate control areas.
• Sealing between control surfaces and connection B.
• Up to 5 sizes:
– C18DB107
5 sizes NG25 up to NG63
– C18DBN112 3 sizes NG25 up to NG40
– C18DB121
2 sizes NG32 up to NG40
C18DBN112
C18DB107
C18DBN112
C18DB121
C18DB121
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Slip-in Cartridge Valves
Series C18DB
Catalog HY14-3200/US
Technical Information
TABLE OF
CONTENTS
Specifications
General
Size
Interface
Mounting Position
Operation
Ambient Temperature
Hydraulic
Maximum Operating Pressure
Nominal Flow, ∆p = 5 Bar (73 PSI)
Fluid
Viscosity Recommended
Viscosity Permitted
Fluid Temperature Recommended
Fluid Temperature Permitted
Filtration
Control Volume Spring Chamber
Surface C
Control Surface
FC
FSt
FA/B
Opening Pressure Flow Direction B to A
Opening Pressure Flow Direction A to B
NG25
NG32
NG40
2-way slip-in cartridge valve according to ISO 7368
Unrestricted
Hydraulic
-40°C to +60°C (-40°F to +140°F)
NG50
350 Bar (5075 PSI)
450 LPM
900 LPM
1300 LPM
1800 LPM
(119 GPM)
(238 GPM)
(344 GPM)
(476 GPM)
Hydraulic oil according to DIN 51524 ... 525
30 to 80 cSt (mm2/s)
20 to 380 cSt (mm2/s)
+30°C to +50°C (+86°F to +122°F)
-20°C to +60°C (-4°F to +140°F)
NAS 1638 class 9, to be achieved by ß10 > 75 ISO 18/16/13
6.45 (cm³)
12.21 (cm³)
20.32 (cm³)
39.40 (cm³)
NG63
3600 LPM
(952 GPM)
94.56 (cm³)
100%
123.8%
108.6%
121.5%
117.0%
121.0%
Approximately 60% / 40% related on surface C
L=0.25 Bar (3.6 PSI), N=1.25 Bar (18.1 PSI), S=4.0 Bar (58.0 PSI), U=10.0 Bar (145.0 PSI)
L=0.16 Bar (2.3 PSI), N= 0.85 Bar (12.3 PSI), S=2.7 Bar (39.2 PSI), U=6.6 Bar (95.7 PSI)
Performance Curve
C18DB.indd, ddp
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Parker Hannifin Corporation
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Ordering Information
C
Seals
Code
Omit
V
18
D
B
E
2/2 Way Poppet Hydraulically Design
with
Valve
Operated Series
Damping
Description
Nitrile
Fluorocarbon
Weight:
C18DB*25
C18DB*32
C18DB*40
C18DB*50
C18DB*63
Code
Omit
N
3.2 kg (7.1 (lbs.)
6.7 kg (14.8 (lbs.)
8.7 kg (19.2 lbs.)
13.8 kg (30.4 lbs.)
26.3 kg (58.0 lbs.)
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Slip-in Cartridge Valves
Series C18DB
Catalog HY14-3200/US
Stroke
Limiter
Code
107
112
121
0
Cover Slip-in Nominal Cavity and Spring
Mounting
Cartridge Size
Pattern
ISO 7368
Description
Cover 107 and 121,
No Stroke Limiter
Cover 112, with
Stroke Limiter,
Adjustment Spindle
and Lock Nut
Code
25
32
40
50
63
Description
Standard, without
Add. Function
With Stroke Limiter,
only NG25, NG32
and NG40
Designed for DC
Pilot Valves
NG32 and NG40
only
TABLE OF
CONTENTS
1
2
3
Orifice
Code
99
00
Description
NG25
NG32
NG40
NG50
NG63
1)
4
5
Only for ‘121’ Cover
Omit for ‘107’ and ‘112’
Description 1)
Without Orifice,
Open Orifice Options
Plug,
Closed Orifice Options
only for code 121
The two orifices
1A and 1B have
always the
same Ø
Code Description
S
1.6 Bar (23.2 PSI)
U
4.0 Bar (58.0 PSI)
Orifices (See Accessories)
Orifice Recommendation
Orifice Thread
Orifice
1
2
3
4
5
NG25
M6
M6
M6
M6
—
NG32
M6
M6
M6
M6
M6
NG40
M6
M6
M6
M6
M6
NG50
*1/16
*1/16
*1/16
*1/16
—
NG63
*1/8
*1/16
*1/8
*1/16
—
Orifice
NG25
NG32
NG40
NG50
NG63
1 - 5
Ø 1.2
Ø 1.5
Ø 2.0
Ø 2.5
Ø 3.0
Depending on function, plugs and orifices must be used.
* Thread in NPT
Seal Kits
Nominal Size
Seal Kit
25
32
Fluorocarbon SK-C13DB10-E25V SK-C13DB10-32V
Nitrile SK-C13DB10-E25
SK-C13DB10-32
40
50
63
SK-C13DB-E40V SK-C13DB10-E50V SK-C13DB10-E63V
SK-C13DB10-E40 SK-C13DB10-E50 SK-C13DB10-E63
Mounting Kits
Nominal size
Cover code 107
Consisting of:
Cover code 112
Consisting of:
Cover code 121
Consisting of:
Recommended
Torque
25
32
BK-M16x90-4pcs
BK529
BK-M16x90-4pcs
BK529
40
BK-M20x110-4pcs
BK481
BK-M20x110-4pcs
BK481
—
BK-M16x90-4pcs
BK529
94 (69.3)
234 (172.6)
BK391 (BK77)
BK391 (BK77)
Nm (lb.-ft.)
50
63
BK-M20x120-4pcs
BK-M30x160-4pcs
—
—
BK-M20x110-4pcs
BK481
—
—
460 (339.3)
460 (339.3)
1570.0 (1157.9)
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Parker Hannifin Corporation
Hydraulic Valve Division
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Slip-in Cartridge Valves
Series C18DB
Catalog HY14-3200/US
Dimensions
TABLE OF
CONTENTS
Inch equivalents for millimeter dimensions are shown in (**)
Nominal
Size
25
32
40
50
63
H max.
234.0
(9.21)
142.0
(5.59)
208.0
(8.19)
189.0
(7.44)
241.0
(9.49)
HN max.
162.0
(6.38)
197.0
(7.76)
227.0
(8.94)
202.0
(7.95)
222.0
(8.74)
h
90.0
(3.54)
125.0
(4.92)
140.0
(5.51)
130.0
(5.12)
150.0
(5.91)
b1
85.0
(3.35)
102.0
(4.02)
125.0
(4.92)
140.0
(5.51)
180.0
(7.09)
d1
45.0
(1.77)
60.0
(2.36)
75.0
(2.95)
90.0
(3.54)
120.0
(4.72)
d2
34.0
(1.34)
45.0
(1.77)
55.0
(2.17)
68.0
(2.68)
90.0
(3.54)
12 +0.1
72.0
(2.83)
85.0
(3.35)
105.0
(4.13)
122.0
(4.80)
155.0
(6.10)
Control Surfaces
NG
25
32
40
50
63
AA [%]
60
60
60
60
60
AB [%]
40
40
40
40
40
AC [%]
100
100
100
100
100
ASt [%]
124
109
121
117
121
C18DB.indd, ddp
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
Starting Up Hydraulic Systems
Installation Information
Transport
A hydraulic system that operates economically, safely,
and trouble-free requires careful planning, as well as
proper installation and start-up. Conscientious maintenance has a considerable effect on the service life of
the hydraulic elements.
The power unit or the completely mounted manifold
was properly packed and handed over to the transport
company. If there are damages, please contact the
manufacturer or your transport company.
The following methods are to be observed when starting up and performing maintenance. There are helpful
tips for fault correction in the troubleshooting section.
For further transportation the hydraulic must be
handled with care.
Storage
The information given in these instructions are of a
general nature and require other professional procedures. The commissioning of the hydraulic equipment
must be in accordance with the putting into operation
of the entire machine or installation, and shall be done
by experts who have the special hydraulic knowledge.
For a safe and successful start-up, the information for
installation and commissioning of each component
particularly must be observed.
The power unit, manifolds and components must be
protected from contamination, as well as from mechanical and weather damage.
Suitable measures must be taken to prevent corrosion
if they are stored for longer periods of time without final
painting.
Mounting
Technical Safety Instructions
The pipe connection joints of the unit must be connected with the externally mounted devices and manifolds
or the machine according to the positions shown in the
hydraulic scheme.
The hydraulic system is to be planned and executed so
that personnel cannot be endangered during possible
malfunctions. This requires that the diverse pumps
and devices are operated within their specified operating pressure ranges. Possible damage to the system
and the electrical control system must be limited to a
minimum.
Particularly the following points are to be observed:
• Use cold-drawn precision steel pipes, with the exception
•
Welding performed afterwards on oil reservoir may
only be carried out by specialists at their own risk. Remaining oil and the cleaning cover must be removed.
• Remove plastic plugs immediately before beginning
pipeline work.
• Assemble pipe bends using bending devices.
• The pipe cross-section may not be pinched when bending.
• The pipes, after being cut to their exact lengths, are to be
Preventive steps must be introduced to avoid danger
through the welding work.
Further measures must be arranged, depending on
where the hydraulic system is set up, such as whether
an oil receiver must be provided in water protection
areas, etc., or whether hardly inflammable liquids must
be used with an increased fire hazard.
•
thoroughly debarred and cleaned.
Fittings corresponding to pressure and environmental
conditions are to be used on the system, and the
manufacturer’s assembly instructions followed.
• Pipelines are to be lain and tightened without stress.
• Heat-treated pipes must be mechanically cleaned and
Hydraulic Accumulator
descaled.
For putting in operation and using accumulators the
national rules, guidelines and regulations must be
observed.
of nominal widths bigger than or equal NW50.
Observe pipe cross-sections and permissible working
pressure.
• Drain lines are not to be crimped, and if possible, at a
•
falling angle to the tank, above the oil level.
If hose lines must be used, they must be selected
according to the pressure and the environmental
conditions of the system. Note their stability, working
pressure, and nominal width.
Hydraulic accumulators must be pre-charged only
with nitrogen. Therefore, the filling up of the
accumulator must be done according to the
instructions of the producer by using only the
special tools.
• The pipes must be sufficiently mounted with pipe brackets
to avoid vibrations.
The testing documents of the hydraulic accumulators
and safety valves must be stored separately. If necessary, they must be presented to the safety commissioner. It`s not allowed to remove the lead seal of the
safety valves. Observe information signs.
• It is advisable to provide venting connections at the
•
highest position in the pipeline network.
The power units, the manifolds and the connected parts
of the system must be installed and mounted safely for
operation.
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Catalog HY14-3200/US
Starting Up Hydraulic Systems
Installation Information
Fluids
After filling the reservoir with fluid, we recommend the
flushing of the fluid inside the hydraulic system where
the fluid flushes around many times in the reservoir.
In order to facilitate the selection of suitable fluids, we
refer to the following chapter. This contains information
about appropriate oil types. The fluids must meet the
requirements of DIN 51524 sections 1 and 2.
Before starting the flushing the servovalves and
proportional valves must be removed and replaced by
flushing plates to avoid damages of these valves according contamination. Start-up up of the components
and the function of the entire system should only begin
once the required minimum cleanliness and the operating temperature are reached.
Separate instructions must be observed for other fluids
(e.g. compatibility with sealing materials).
Commissioning
Start-up may only be carried out by specialists.
Particularly the special instructions of the
manufacturer and the producer of the components
must be observed.
The hydraulic scheme, the parts list, and the control
system flow chart should be present. The planned
pressure setting must be indicated for all pressure
valves in the hydraulic scheme.
It is recommended to flush the long pipelines by short
circuiting the pressure and return lines, especially for
large, central pressure oil stations. This prevents the
installation dirt from entering the pilot valves (especially important for servo and proportional valves) or
the drives (cylinder, hydro-motors, etc.). The diverse
measures should be coordinated during design.
Starting-up Safety Instructions
Electrical Connections
Before start‑up the assembly of the complete hydraulic
equipment must be inspected by specialists. Particularly the following points are to be observed:
Are the correct current and voltage types available?
• Motor
Check available current with the E-motor type plate.
• Mounting of pipes including clamping.
• Accurate connection of pressure and return pipes.
• Accurate connection of the pilot pressure pipes.
• Accurate assembly of the hydraulic components.
• Accurate connection of the power unit.
• Accurate connection of the manifolds.
• Accurate connection of the cylinder and hydraulic motors.
• Accurate connection of the electrics.
• Hydraulic equipment must be mounted safely for the
• Solenoids
Are the type of current (~ or =) and the voltage correct?
Check the labels of these devices.
• Plugs
The electronic connections must be done according to the
technical rules by using the appropriate plugs.
• Grounding
Power units, parts of the system and single mounted
components must be grounded.
Pumps and Devices
operation.
Parts of the entire system where driven by the hydraulics
must be mounted safely for the operation.
The pump case must be filled with the clean operating
hydraulic fluid before start‑up to lubricate the bearing
with oil.
Before start‑up of the hydraulic system the specialists
must prepare all necessary requirements to protect
individuals and parts of the system against damage.
Particularly the special start-up instructions for pumps
and hydraulic and electric devices must be observed.
•
The following section contains only the most important
aspects:
The start‑up must be done very carefully according to
the safety regulation.
• Pumps
Filling
It is advantageous to keep the pressure setting low at first
when starting the pump for the first time. The pressure
compensator for variable displacement pumps and the
pressure limiting valve for fixed displacement pumps are
set to approx. 15 - 20 Bar (218 - 290 PSI).
Before the hydraulic fluid is poured into the tank, its
interior must be checked again for cleanliness, and be
cleaned if necessary.
• Pressure Valves
The tank is to be filled using a fine filter, so that the
desired cleanliness class of the fluid is ensured when
starting up. Special filling units or equipment provided
with the system are especially suitable for this, e.g. the
return line filter.
Depending on the machine function, first begin with
a minimum pressure setting. Enter pressure onto the
measuring location plate after the final pressure is
established.
The oil type is indicated on a separate sign next to the
filling opening.
An exception are the design-tested and preset
accumulator safety valves.
Pumps and Devices (continued)
Flushing
• Pressure Unloading Valves
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Catalog HY14-3200/US
Starting Up Hydraulic Systems
Installation Information
noted, however, that the full cylinder stroke must be
travelled several times. These venting screws must be
at the top for horizontally arranged cylinders.
For setting the pressure unloading valves according the
pressure information in hydraulic schematic particularly
the start-up instructions for this valve must be observed.
• Throttle Valves
After filling the cylinder, the oil level in the tank must be
checked, and refilled as necessary.
Set every drive (cylinder etc.) in steps via the throttle or
flow control valves at the desired speed or stroke time.
Filter
• Directional Valves
Select the direction using the electric control system for
electrically operated valves.
The function and service life of pumps and hydrodevices are strongly affected by the cleanliness of the
fluid. Dirt is the greatest enemy of hydraulic systems.
There are three important sources of dirt to watch out
for:
Manual override of the solenoid requires a suitable
tool.
• Proportional Valves
• Contamination arising during installation, installation dirt.
• Contamination arising during operation, operation dirt.
• Impurities from the environment.
Proportional pressure flow and DC valves must be first
started with a low electrical command signal.
• Hydraulic Accumulators
If hydraulic accumulators are assembled into the system,
these must be verified at and/or filled up to the correct
gas pre-load level. Suitable testing and filling equipment is
necessary.
The correct filtering method is specified during system
planning or determined by the necessary cleanliness
class. Depending on requirements, pressure or return
line filtering as well as additional bypass flow filtration
is used. Only a return line filter with β25 ≥ 75 (25 µm
filter) is used for noncritical systems. Thus contamination of the tank is prevented, and the pump only sucks
in clean oil. Pressure filters are used for systems with
higher demands, e.g. smallest oil flows (Q > 200 cm3/
min) or high, constant pressure on pressure valves.
Hydraulic accumulators may only be filled with
nitrogen for reasons of safety. The pre-loading
coordinated with the working pressure is indicated
in the hydraulic scheme.
In general, the following applies:
Gas pre-loading = min. working pressure x 0.9
After testing or filling, the hydro-storage can be
switched into the system via ball valve.
Pressure filters are to be installed whenever proportional valves are used. Typically, filters with fineness of
β10 ≥ 75 (10 µm) or β3 ≥ 75 (3 µm) are used. Filters can
only fulfil their function when built-in filter cartridges
are cleaned or replaced in time, especially in the initial
operating period. During operation, the level of pollution is checked by mechanical or electrical level. For
further information, see ‘Oil Change’.
Switch On
First the motor is quickly switched on and directly
switched off to determine the rotation direction. The
correct rotation direction is indicated by an arrow on
the pump housing. If the rotation direction is incorrect,
reverse the polarity of the e-motor. The pump is started
by multiple short start-ups (on-off operation). After approx. 1 min run time, the working pressure can be set
to its nominal value (see also "Troubleshooting" 1.1
and 1.2).
Servicing and Maintenance
Service work may only be carried out by specialists.
This requires knowledge of the machine’s functions
regarding switching on and off, as well as measures of
safety engineering.
Start-up information provided by the pump manufacturer has higher priority than these instructions.
Work on systems that include accumulators may
only be carried out after the fluid pressure is
unloaded.
Air Bleeding
Air in the hydraulic system is very disadvantageous
and undesirable for the control system. The system
must be carefully vented, especially for the first startup, for oil changes, or when lines and valves were
opened. All functions are run through, one after the
other, in no-load operation with low pressure and with
full cylinder stroke.
Regular Inspection
The hydraulic system is subject to a simple inspection
at short, regular intervals. An automatic monitoring
system is already partly provided. Particularly the following is inspected:
The pipeline network is vented at its highest point.
The fitting can be loosened a little so that the air can
escape with only a small amount of oil escaping. When
the oil is no longer foaming, the fitting is retightened.
• Oil level in the tank.
• Working temperature is not to exceed 60ºC (140º).
• Condition of the fluid (visual inspection, color and smell of
If the air bleeding cylinder is provided with venting
screws, these should be used for venting. It must be
Regular Inspection (continued)
the hydraulic oil).
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Starting Up Hydraulic Systems
Installation Information
delayed, or, depending on the evaluation of laboratory
tests, completely omitted.
• Working pressures.
• Gas pre-load pressure on the accumulator.
• Leaks on the pump, valves, and pipelines.
• Filter elements, for cleanliness (see ‘Filter’).
• Hose must be checked according to conditions and age.
• All mechanical and electronic sensors must be checked
We refer to the service of well known oil or filter suppliers concerning fluid laboratory tests.
It is mandatory to inspect the breather filters regularly.
Spare Parts
on function.
Original spare parts are to be used for repairs. For
questions about purchasing spare parts or for malfunctions, please contact our After Sales Service.
• All parts of the entire system must be checked on
damage.
• Cleanliness must be checked.
• All safety equipment and labelling must be checked.
Warrantry
Fault correction without charge is only possible within
the framework of the arranged guarantee. The information given in these instructions are of a general nature
and require other professional procedures. Assistance
with installation, start-up, and maintenance by our
personnel can be arranged according to our service
conditions.
Oil Change
The frequency of oil changes is dependent on:
• Kind of liquid (aging).
•Filtering.
• Operating and environmental conditions (operating
temperature).
Additional regulations and guidelines
Prescribed change intervals
Particularly we recommend the following regulations
and guidelines:
The required cleanliness class as per ISO 4406 or
NAS 1638 is dependent on the use of hydraulic components. It requires conscientious planning for filtering
and periodic fluid inspection in order to guarantee the
desired service life of the pumps and devices. Under
these conditions, an oil change can be considerably
• International standard ISO 4413.
• German standard VDMA 24572.
Checklist for the inspection of hydraulic systems in
industrial machines.
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Troubleshooting
1. Excessive Noise in the System
Cause
1.1 Cavitation in the system.
1.2 Foam or air in the fluid.
Reason
Remedy
Suction filter is blocked.
Clean or recondition.
Internal width of the suction line is too
small. Or: Objects in the suction line.
Install pipes with larger internal width.
Too many bends in the suction line.
Lay new pipes or use pipes with
larger internal width.
Local constrictions in the suction line, e.g.
partially closed valve, spring is too strong
in check valve, damaged pipe or kinked
hose.
Make valves accessible or change
pipes or hoses are to be repaired
or replaced.
Fluid is too cold.
Use electric heating to warm pressure fluid
to the recommended temperature.
Viscosity of fluid is too high.
Check fluid.
Vapor forms.
Lower working temperature to the
correct value: Refill fluid or replace
with suitable fluid.
Feed pump fails.
Repair feed pump or replace.
Speed of pump is too high.
Check speed of the motor (see also
specifications in the hydraulic plan).
Completely sealed tank.
Install breather.
Suction line is too small or too long.
Increase diameter of the suction line.
Fluid level in the tank is too low.
Refill oil. For systems with strongly
changing oil level: Only fill between
the minimum and maximum oil level.
Incorrect tank design.
Improve design.
Return line ends in tank above the
fluid level.
Lay return flow line lower than the fluid
level.
Incorrect fluid.
Replace with the correct fluid, if
necessary, contact the system supplier.
Shaft seal on pump allows air to penetrate. Replace seal.
Fitting in the suction line allows air to
invade.
Tighten fitting or replace.
Porous suction hose.
Recondition hose.
Poor air bleeding.
Vent system.
(continued on next page)
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Troubleshooting
1. Excessive Noise in the System
Cause
1.3 Mechanical vibrations.
Reason
Remedy
Faulty alignment or loose coupling.
Aligning or tightening.
Vibrations in the pipelines.
Tighten or improve mounting.
Pump defective or damaged.
Repair or replace.
Unsuitable pump type.
Replace with more suitable pump type.
Drive defective or damaged.
Repair or replace.
Unsuitable drive type.
Replace with more suitable drive type.
Pressure valve is unstable (oscillates).
Set correctly or replace with more
suitable valve.
2. No Pressure or Insufficient Pressure
Cause
2.1 Pump does not deliver correctly.
2.2 High pump temperature.
2.3 Pump speed is too low or drive
performance too small.
2.4 Loss due to leakage from the
pressure side in the return line.
2.5 Feed pump fails (only for piston
pump with feed pump).
Reason
Remedy
Penetration of air into the suction lines. See error 1.2.
Worn out or damaged pump.
Repair or replace.
Too little fluid viscosity.
See error 1.1.
Insufficient or incorrectly adjusted
cooling.
Improve cooling line or adjust correctly.
Ensure flow of cooling water.
Coupling or belts slip or motor is faulty. Remove defect parts.
Motor is too small.
Use the correct driving motor.
Incorrect pressure setting.
Correct setting.
Safety valve does not close because
of dirt or there are defective parts.
Clean, repair or replace damaged
parts.
Directional valve or another valve is
open because dirt or some other
defective part is present, or due to
electrical failure.
Damaged device is to be determined,
adjusted, cleaned, repaired, or
replaced.
Damage to the cylinder hole, piston
rod, or seal.
Damaged parts are to be repaired,
replaced.
Failure of piston seal, because the
seal material is not suitable for the
fluid used.
Use seals made of the correct
material.
Damaged pump, faulty drive,
unsuitable fluid viscosity.
See error 1.3.
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Troubleshooting
3. Pressure Pulsations or Flow Fluctuations
Cause
Reason
Remedy
3.1 Cavitation in the pump.
See error 1.1.
See error 1.1.
3.2 Foam or air in the fluid.
See error 1.2.
See error 1.2.
3.3 Mechanical vibrations.
See error 1.3.
See error 1.3.
See error 1.3.
See error 1.3.
Damaged valve seat.
Repair or replace.
Valve has insufficient or no damping.
Install a more suitable device or
damping equipment.
Contamination.
Drain fluid, clean system and parts,
fill with clean fluid.
Defective or warped.
Replace device, remove warping.
3.4 Unstable pressure relief
or safety valves.
3.5 Valves stick.
3.6 Unsteady pump delivery.
3.7 Air in the system, which causes
an irregular or yielding motion.
Replace with more suitable pump
Unsuitable pump type or pump design. after contacting the pump system
manufacturer.
System is incompletely vented.
see error 1.2.
Electrical system is defective e.g.
valves switch constantly.
Find and remove faults.
4. Too Little or No Pressure Flow
Cause
Reason
Remedy
4.1 Cavitation of the pump.
See error 1.1.
See error 1.1.
4.2 Foam formation or air in the fluid.
See error 1.2.
See error 1.2.
4.3 Defective pump.
See error 1.2.
See error 1.2.
4.4 Pump speed is too low or drive
performance too small..
See error 2.3.
See error 2.3.
4.5 Loss due to leakage from the
pressure side to the return line.
See error 2.4.
See error 2.4.
Motor rotation direction is incorrect.
Reverse the e-motor.
4.6 Pump runs in the wrong direction
of rotation.
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Troubleshooting
5. Liquid Temperature is Too High
Cause
5.1 Overflow losses.
5.2 Loss due to leakage from the
pressure side in the return line.
5.3 Fluid is delivered under pressure
via safety and pressure limiting
circulation valve into the tank,
although pressure fluid is not
needed.
Reason
Pressure setting on pump is too high
or safety valve is set too low.
Correct setting.
Oil flows out at accumulator
safety block.
Close accumulator drain valve on
accumulator safety block.
Valves function poorly and seals are
faulty.
See error 2.4.
Fluid has incorrect viscosity
(viscosity is too low).
Remove fluid and fill up system with
fluid that has viscosity recommended
by the manufacturer.
Design of switching for system
is not correct.
Provide the correct control system,
e.g. switching to depressurised.
Faulty function of the air bleeding
system as a result of dirt or faulty
parts.
Clean, or if necessary, repair.
Safety pressure is set too low.
Correct setting.
Failure of the cooling water supply.
Check cooling water supply, temperature and function of shut-off valve.
Failure of the ventilating fan.
Check function of the oil-air-heat
exchanger acc. to manufacturers
instruction.
Deposits in the cooling water line.
Clean.
System has insufficient cooling
surface to carry off delivered heat.
Install cooling system and/or increase
tank capacity and surface.
An increase in machine
performance without corresponding
increase in the cooling capacity.
Improve cooling system and/or tank
capacity and surface.
Wear in the pump.
Repair or replace.
Working with fluid whose viscosity
is too low.
See error 5.2.
Insufficient flushing of the pump.
Increase diameter of the drain line
and provide a flushing of the pump
housing.
Fluid supply is insufficient.
Increase fluid capacity.
Fluid level is too low in the system.
Fill up system to the recommended
level.
Cross-section is too small in the
pipelines and valves.
Install pipes and valves that have
the correct size.
5.4 Insufficient cooling.
5.5 Insufficient carrying away of heat.
5.6 Overheated pump.
5.7 Fluid circulates too quickly.
5.8 Too much viscous friction.
Remedy
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General Description / Power Transmission
General Description
• Higher pressure losses in pipes and components.
• Reduction of hydraulic-mechanical efficiency.
• More pressure drop in suction line, filling losses,
The hydraulic fluid is an important component of every
operating hydraulic systems. The fluid covers several
tasks:
cavitation.
• Sealing and lubrication gaps are not fully filled, loss of
• Power transmission
• Wear protection resp. wear reduction
• Heat transfer
lubrication.
A too low viscosity leads to the following problems:
• Higher leakage across all sealing gaps in the pump and in
The importance of the fluid may be seen in the following statement: “Statistical data indicate that more than
80% of all failures of hydraulic components are causerelated to an improper condition of the hydraulic fluid.”
valves.
• Thinner lubrication film causes more direct metal-to-metal
contact and more wear in glide and roller bearings.
For these reasons the selection of the right viscosity
and the best viscosity: temperature index need highest
attention. Some of the selection criteria are:
The selection and the maintenance and/or control of
the fluid for a hydraulic system are of major importance. The main criteria for this selection are given in
the following.
• Function principle of hydraulic pumps and motors used in
the system.
• Nominal pressure, nominal temperature (and range).
• Environmental temperature (and range).
• Length of piping.
Power Transmission
An important index for the power transmission behaviour of a hydraulic fluid is the bulk module Eoil, measured in bar. It describes how much the volume of a
fluid content is reduced under pressure.
The following limits are to be considered:
• Optimum working viscosity regarding efficiency, economy
and safety.
A “hard“ hydraulic fluid (high bulk module) transmits
pressures very fast and leads to a stiff hydraulic
system. This is appreciated in closed loop controlled
systems. "Stiff" systems are achieved by small pressurized volumes, hard surrounding walls (pipes instead
of flexible hoses) and high viscose fluids. Beside that
pressure increases the bulk module of mineral oil.
ν opt = 20 – 40 mm2/s
• Working viscosity for full operability.
ν operation = 16 – 100 mm2/s
• Viscosity limits for reduced operating conditions (speed of
rotation, pressure, load cycle).
ν limit = 12 – 300 mm2/s
A “soft“ hydraulic system is more subject to instability,
but it is in general quieter, because high frequent pressure ripple is damped better.
• Lowest viscosity limit, start of the damaging metal-to-
metal contact, only for short time and max. 50% nominal
pressure.
The air content of the fluid plays an important role.
Mineral oil contains some 9% air in solution under
atmospheric pressure. If caused by underpressure
in a hydraulic circuit (pump inlet, high fluid velocity in
orifices or by turbulences due to high return line speed
into the reservoir), part of this air occurs as bubbles,
the systems stiffness is drastically reduced, which can
cause several problems.
ν min = 8 mm2/s
• Highest start up viscosity, suction limit of pumps, only for
short time when suction line is short and straight.
ν Start = 800 mm2/s
• The recommended temperature range (fluid temperature)
for the operation of a hydraulic system is between 30°C
and 70°C, -30°C as the lowest and +90°C as the highest
limit never should be exceeded depending on a fluid
capable of these temperatures.
The viscosity of the hydraulic fluid has a high influence
on the dynamic power transmission. A high viscosity, that means a “thick“ fluid, leads to a worse fluidity,
which means:
• Pressure relief function (optionally proportional).
• With optional vent function.
• 3 sizes (SAE 3/4", 1", 1-1/4").
• Load compensated flow in combination with F5C.
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Power Transmission
Mineral oil is offered in different viscosity classes (VG, viscosity grade). The characteristic number describes the
nominal viscosity in mm 2/s at 40°C:
VG 22 arctic conditions, extremely long pipes
VG 46 normal conditions, closed buildings
VG 32 wintery conditions
VG 68 tropical conditions
Viscosity: Temperature Diagram for Mineral Oil
The correlation between viscosity and temperature usually is described in
the double logarithmic diagram above.
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Wear Protection / Wear Reduction
Wear Protection with Respect to
Wear Reduction
During mixed friction, i. e.: at a direct metal-to-metal
contact between two surfaces, the “lubricity” of a fluid
is most important. The lubricity is measured according
to DIN 51 347 and is expressed as a specific load in
N/mm², at which wear does not yet occur. This value
sometimes also is called the “Brugger Value”.
In hydraulic components there are many gliding contacts partly under high (side) loads. Beside the correct
viscosity, which on the one hand is responsible for the
required supply of lubricating fluid to the gap, and on
the other hand assures a stable lubricating film, the
wear reduction capability of the hydraulic fluid is of
major importance.
It is measured in a test device which moves two cylindrical test elements under a defined load. On one of
the test elements a wear mark is created. This wear
mark grows during the first seconds of the test, but
then stays for several minutes at a constant size. The
size of this wear mark gives a reading for the specific
“wear free” load for this particular fluid in N/mm².
Load carrying capability is determined in the FZG normal test A/8.3/90 according to DIN 51 354 part 2 (gear
transmission test rig, 12 defined load steps at 90°C
start temperature and 8.3 m/s circumferance speed).
For general applications this value has to be at least:
Depending on the nominal working pressure the following load carrying capability is recommended:
Nominal Pressure
80 – 125 Bar
(1160 – 1813 PSI)
125 – 200 Bar
(1813 – 2900 PSI)
200 – 250 Bar
(2900 – 3625 PSI)
250 – 320 Bar
(3625 – 4640 PSI)
> 320 Bar (4640 PSI)
30 N/mm², measured in accordance with DIN 51 347-2.
For heavily loaded hydraulic equipment and fast cycling
machines and/or high dynamic loads, this value should
not be below:
Load Carrying Capability
≥5
50 N/mm², measured in accordance with DIN 51 347-2.
5–6
But a fluid can maintain its wear prohibiting capabilities only, when it is not contaminated with hard and
aggressive particles. Therefore in the interest of a long
functional life of all components the filtration of the
hydraulic fluid needs special attention.
7–9
≥ 10
≥ 12
The sealing and gliding gaps in hydraulic components
typically are in the range of 3 – 10 µm. That means
they are in the same size range as most of the particles
found in a hydraulic fluid.
Max pressure limit: 1.25 x nominal pressure
Mineral oils are offered according to DIN 51 524 in
different fluid types:
The smaller the number of particles in a hydraulic fluid,
the lower the wear of the hydraulic components will be.
And wear is by nearly 90% the root cause for failure of
hydraulic pumps and motors.
• HL-fluids according to DIN 51 524 part 2, normal working
load conditions, load carrying capability 6 – 10.
• HLP-fluids according to DIN 51 524 part 3, higher working
load conditions, load carrying capability > 10.
Modern HLP fluids today usually come with a load
carrying capability >12. They are equipped with wear
prohibiting additives, which ensure a high safety of
operation even under severe working conditions.
Beside the wear reduction due to the elasto-hydrodynamic properties of the hydraulic fluid, which are
expressed in the FZG value, the behavior of the fluid in
a mixed friction situation is very important for the use of
a fluid in heavy duty hydraulic applications. In hydraulic
components mixed friction occurs permanently, because the velocity difference between two components
in contact very often is below the minimum velocity for
hydrodynamic lubrication.
To ensure a disruption-free operation of a general
hydraulic system, at least a fluid quality (cleanliness
level) of 20/18/15 according to ISO 4406 is required.
The characteristic values indicate, how many particles
in the size range >2 µm (value 1), >5µm (value 2) and
>15 µm (value 3) are present in one ml of a fluid. The
value 20 stands for 5.000 – 10.000 particles per ml, the
18 stands for 1.300 – 2.500 particles per ml, and the
15 for 160 – 320 particles per ml.
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Elyria, Ohio, USA
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Heat Dissipation / Seals
Heat Dissipation
That illustrates that in a hydraulic fluid of the cleanliness level 20/18/15, a huge number of particles is
distributed in the fluid content. That also indicates that
this fluid quality is good enough only for general and
low pressure applications.
When the requirements in functional safety and operational life are higher, or with high-pressure applications, Parker recommends a cleanliness level 18/16/13
according to ISO 4406. The fluid then is allowed to
contain 320 – 640 particles >5µm and 40 – 80 particles
>15 µm per ml.
To achieve such a cleanliness level the hydraulic circuit
must be equipped with a suitable filtration system. But
it has to be considered that filters never perform an
absolut cleaning of the fluid. A filter element with a ßvalue of e.g.: ß10 ≥ 75 does not retain all particles larger
than 10µm. Still 1/75 of all particles larger than 10µm
will pass the element.
This review shows:
• A reservoir filling of 100 l contains billions of contamination
particles.
• Even a “10µ filter“ will let pass millions of particles
> 10 µm.
On top of that, the following needs to be considered:
Across a breather and through the piston rod seal
•
and wiper of a hydraulic cylinder, particles can enter a
hydraulic system.
• Wear on pumps, motors and valves adds more particles to
the fluid.
• Mineral oil delivered in barrels typically has a cleanliness
level of 21/19/16 according to ISO 4406 or worse.
Therefore, it is very important to pay highest attention
also to the systems filtration in respect of its layout, its
supervision and its maintenance.
The load to the fluid in hydraulic systems leads to its
aging. Therefore, the fluid needs to be checked for its
perfect condition. This check should be performed at
least twice a year and include as a minimum requirement the determination of neutralization number,
viscosity, colour index and cleanliness level.
The operational life of the fluid depends very much on
the operating pressure, the operating temperature, the
circulation number (delivery of all pumps divided by
the reservoir content) and the type of the fluid. General
statements to the average time of usage, therefore, are
impossible.
The temperature has an important influence on the
properties of the hydraulic fluid. Viscosity, lubricity,
aging and other significant features depend directly or
indirectly on the temperature. That indicates that the
thermal balance of a hydraulic system needs to be
considered during the layout and design. On the one
hand the fluid is stressed by a high temperature; on
the other hand, the fluid is the medium to transport the
heat away from resistors, orifices and other throttling
devices and friction zones. Therefore, during layout it
has to be made sure that nowhere in the system a local
overheating by dissipated heat can occur. That could
destroy seals, lead to a failure of components due to
a lack of lubricity or finally lead to a destruction of the
fluid itself.
A final comment on seals. A good hydraulic system
should not show that it operates with a fluid. There
should be no leakage at all. In general hydraulic components are leak-free. More than 90% of all problems
occur at interfaces:
• Ports.
• Flange interfaces of valves.
• Connectors.
The assembly of the system is the main cause for problems in this area. Nevertheless, the system ‘hydraulic
fluid & elastomeric seal’ is extremely sensitive. Temperature, chemical incompatibility and mechanical damages are the most frequent causes for a failure of this
system. Please contact Parker if you have any question
about this topic.
Parker does not give an explicit recommendation for a
certain fluid product, fluid brand or fluid manufacturer.
The permanent research and development in the field
of hydraulic fluids and seal materials make it impossible to test all possible combinations for compatibility
with our components. The recommendations made
here and the discussion of possible restrictions, relevant standards and other useful literature should help
to select the right fluid for a hydraulic system and to
design the power unit in a way that it is able to fulfill all
requirements.
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
Catalog HY14-3200/US
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Special Fluids
Special Fluids for Environment Protection
Note
All statements made above are in principle also valid
for these fluids. Regarding the selection/definition of
the required viscosity level, the cleanliness level and
the lubrication and wear protection behavior, all criteria
discussed in the mineral oil section have to be applied
accordingly.
Even bio-degradable fluids need to be disposed
of according to special disposing rules (like
mineral oil). Prior to the use of these fluids, we
recommend to contact our specialists.
Fluids According to DIN 51 502 (HF Fluids)
The following special fluid features and conditions are
to be considered:
These fluids are fire resistant. The following classes
are used:
Fluids Based on Natural Ingredients
• Good lubrication, viscosity-temperature characteristics
better than standard mineral oil.
•
Density slightly higher than mineral oil, therefore, check
HFB
water in oil emulsion: >40% water
HFD
temperature operation.
• Accelerated aging. First fluid change after 500 h,
second change after another 1.000 h. Then all 2.000 h or
annually, if less than 2.000 h annual operation.
water-free fluids
(mainly phosphoric acid ester)
The operation of Parker hydraulic components with
HFD fluids within the limits of the fluid suppliers specification (temperature range, filtration, seal material compatibility), and the viscosity limits of our components is
possible without restrictions.
• High affinity to water. The ingression of water has to be
avoided under all conditions. At temperature above 50°C
destroys the fluid if water is present.
• Can be mixed with mineral oil (under loss of biological
degradability!).
The operation with HFC involves certain restrictions
regarding pressure limitation and bearing life reduction
in rotating units. Please contact our specialists.
Internal coating of reservoirs etc. to be compatible with
the fluid. Check with fluid supplier.
Fluids Based on Esters
(Synthetical Esters)
Parker does not give a general release for the operation with HFA and HFB fluids. In certain cases a special approval can be given upon request.
• The same remarks as for fluids based on natural
ingredients.
If you are not sure whether our products can be
used with a special fluid or not, please contact us.
Our specialists are glad to answer your questions
and to give you any necessary support.
Fluids Based on Polyglycol
(not HFC/Water Glycol)
• Good lubrication, viscosity-temperature characteristics
•
oil in water emulsion: 95 – 98% water
HFC water containing solutions: 35 – 55% water
(polyglycol)
for good suction conditions!
• Pourpoint approx. -30°, therefore, not suitable for low
•
HFA
better than standard mineral oil.
Aging/durability according to actual knowledge similar to
mineral oil.
• Pourpoint approx. -40°C, be careful at low temperatures!
• Density significantly higher than at mineral oil. Therefore,
the max. input speeds for self priming pumps are to be
reduced by 20%.
• Use fluorocarbon as seal material. Our hydraulic
components are tested with mineral oil; they need to be
emptied completely before installation!
• Normal paints and coatings are destroyed. Please contact
fluid supplier!
• Never mix with mineral oil, solid sediments will develop
and block filters, orifices, etc!
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Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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Catalog HY14-3200/US
Terms of Sale with Warranty Limitations
Offer of Sale
The items described in this document and other documents and descriptions provided by Parker Hannifin Corporation, its subsidiaries and its authorized distributors (“Seller”)
are hereby offered for sale at prices to be established by Seller. This offer and its acceptance by any customer (“Buyer”) shall be governed by all of the following Terms and
Conditions. Buyer’s order for any item described in its document, when communicated to Seller verbally, or in writing, shall constitute acceptance of this offer. All goods, services
or work described will be referred to as “Products”.
1. Terms and Conditions. Seller’s willingness to offer Products, or accept an order
for Products, to or from Buyer is subject to these Terms and Conditions or any newer
version of the terms and conditions found on-line at www.parker.com/saleterms/. Seller
objects to any contrary or additional terms or conditions of Buyer’s order or any other
document issued by Buyer.
2. Price Adjustments; Payments. Prices stated on Seller’s quote or other documentation offered by Seller are valid for 30 days, and do not include any sales, use, or other
taxes unless specifically stated. Unless otherwise specified by Seller, all prices are
F.C.A. Seller’s facility (INCOTERMS 2010). Payment is subject to credit approval and
is due 30 days from the date of invoice or such other term as required by Seller’s Credit
Department, after which Buyer shall pay interest on any unpaid invoices at the rate of
1.5% per month or the maximum allowable rate under applicable law.
3. Delivery Dates; Title and Risk; Shipment. All delivery dates are approximate and
Seller shall not be responsible for any damages resulting from any delay. Regardless
of the manner of shipment, title to any products and risk of loss or damage shall pass
to Buyer upon placement of the products with the shipment carrier at Seller’s facility.
Unless otherwise stated, Seller may exercise its judgment in choosing the carrier and
means of delivery. No deferment of shipment at Buyers’ request beyond the respective dates indicated will be made except on terms that will indemnify, defend and hold
Seller harmless against all loss and additional expense. Buyer shall be responsible for
any additional shipping charges incurred by Seller due to Buyer’s acts or omissions.
4. Warranty. Seller warrants that the Products sold hereunder shall be free from
defects in material or workmanship for a period of eighteen months from the date
of delivery to Buyer. The prices charged for Seller’s products are based upon
the exclusive limited warranty stated above, and upon the following disclaimer:
DISCLAIMER OF WARRANTY: THIS WARRANTY COMPRISES THE SOLE AND ENTIRE WARRANTY PERTAINING TO PRODUCTS PROVIDED HEREUNDER. SELLER
DISCLAIMS ALL OTHER WARRANTIES, EXPRESS AND IMPLIED, INCLUDING
DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
5. Claims; Commencement of Actions. Buyer shall promptly inspect all Products upon
delivery. No claims for shortages will be allowed unless reported to the Seller within
10 days of delivery. No other claims against Seller will be allowed unless asserted in
writing within 30 days after delivery. Buyer shall notify Seller of any alleged breach of
warranty within 30 days after the date the defect is or should have been discovered by
Buyer. Any action based upon breach of this agreement or upon any other claim arising out of this sale (other than an action by Seller for an amount due on any invoice)
must be commenced within 12 months from the date of the breach without regard to
the date breach is discovered.
6. LIMITATION OF LIABILITY. UPON NOTIFICATION, SELLER WILL, AT ITS OPTION,
REPAIR OR REPLACE A DEFECTIVE PRODUCT, OR REFUND THE PURCHASE
PRICE. IN NO EVENT SHALL SELLER BE LIABLE TO BUYER FOR ANY SPECIAL,
INDIRECT, INCIDENTAL OR CONSEQUENTIAL DAMAGES ARISING OUT OF, OR
AS THE RESULT OF, THE SALE, DELIVERY, NON-DELIVERY, SERVICING, USE
OR LOSS OF USE OF THE PRODUCTS OR ANY PART THEREOF, OR FOR ANY
CHARGES OR EXPENSES OF ANY NATURE INCURRED WITHOUT SELLER’S
WRITTEN CONSENT, EVEN IF SELLER HAS BEEN NEGLIGENT, WHETHER IN
CONTRACT, TORT OR OTHER LEGAL THEORY. IN NO EVENT SHALL SELLER’S
LIABILITY UNDER ANY CLAIM MADE BY BUYER EXCEED THE PURCHASE
PRICE OF THE PRODUCTS.
7. User Responsibility. The user, through its own analysis and testing, is solely responsible for making the final selection of the system and Product and assuring that
all performance, endurance, maintenance, safety and warning requirements of the
application are met. The user must analyze all aspects of the application and follow
applicable industry standards and Product information. If Seller provides Product or
system options, the user is responsible for determining that such data and specifications are suitable and sufficient for all applications and reasonably foreseeable uses
of the Products or systems.
8. Loss to Buyer’s Property. Any designs, tools, patterns, materials, drawings, confidential information or equipment furnished by Buyer or any other items which become
Buyer’s property, will be considered obsolete and may be destroyed by Seller after two
consecutive years have elapsed without Buyer ordering the items manufactured using
such property. Seller shall not be responsible for any loss or damage to such property
while it is in Seller’s possession or control.
9. Special Tooling. A tooling charge may be imposed for any special tooling, including
without limitation, dies, fixtures, molds and patterns, acquired to manufacture Products.
Such special tooling shall be and remain Seller’s property notwithstanding payment of
any charges by Buyer. In no event will Buyer acquire any interest in apparatus belonging
to Seller which is utilized in the manufacture of the Products, even if such apparatus
has been specially converted or adapted for such manufacture and notwithstanding
any charges paid by Buyer. Unless otherwise agreed, Seller shall have the right to
alter, discard or otherwise dispose of any special tooling or other property in its sole
discretion at any time.
10. Buyer’s Obligation; Rights of Seller. To secure payment of all sums due or otherwise, Seller shall retain a security interest in the goods delivered and this agreement
shall be deemed a Security Agreement under the Uniform Commercial Code. Buyer
authorizes Seller as its attorney to execute and file on Buyer’s behalf all documents
Seller deems necessary to perfect its security interest.
11. Improper Use and Indemnity. Buyer shall indemnify, defend, and hold Seller
harmless from any claim, liability, damages, lawsuits, and costs (including attorney
fees), whether for personal injury, property damage, patent, trademark or copyright
Terms-SafetyGuide-Notes.indd, ddp
157
infringement or any other claim, brought by or incurred by Buyer, Buyer’s employees,
or any other person, arising out of: (a) improper selection, improper application or other
misuse of Products purchased by Buyer from Seller; (b) any act or omission, negligent
or otherwise, of Buyer; (c) Seller’s use of patterns, plans, drawings, or specifications
furnished by Buyer to manufacture Product; or (d) Buyer’s failure to comply with these
terms and conditions. Seller shall not indemnify Buyer under any circumstance except
as otherwise provided.
12. Cancellations and Changes. Orders shall not be subject to cancellation or change
by Buyer for any reason, except with Seller’s written consent and upon terms that will
indemnify, defend and hold Seller harmless against all direct, incidental and consequential loss or damage. Seller may change product features, specifications, designs
and availability with notice to Buyer.
13. Limitation on Assignment. Buyer may not assign its rights or obligations under
this agreement without the prior written consent of Seller.
14. Force Majeure. Seller does not assume the risk and shall not be liable for delay
or failure to perform any of Seller’s obligations by reason of circumstances beyond the
reasonable control of Seller (hereinafter “Events of Force Majeure”). Events of Force
Majeure shall include without limitation: accidents, strikes or labor disputes, acts of
any government or government agency, acts of nature, delays or failures in delivery
from carriers or suppliers, shortages of materials, or any other cause beyond Seller’s
reasonable control.
15. Waiver and Severability. Failure to enforce any provision of this agreement will
not waive that provision nor will any such failure prejudice Seller’s right to enforce that
provision in the future. Invalidation of any provision of this agreement by legislation or
other rule of law shall not invalidate any other provision herein. The remaining provisions
of this agreement will remain in full force and effect.
16. Termination. Seller may terminate this agreement for any reason and at any time
by giving Buyer thirty (30) days written notice of termination. Seller may immediately
terminate this agreement, in writing, if Buyer: (a) commits a breach of any provision
of this agreement (b) appointments a trustee, receiver or custodian for all or any part
of Buyer’s property (c) files a petition for relief in bankruptcy on its own behalf, or by
a third party (d) makes an assignment for the benefit of creditors, or (e) dissolves or
liquidates all or a majority of its assets.
17. Governing Law. This agreement and the sale and delivery of all Products hereunder shall be deemed to have taken place in and shall be governed and construed
in accordance with the laws of the State of Ohio, as applicable to contracts executed
and wholly performed therein and without regard to conflicts of laws principles. Buyer
irrevocably agrees and consents to the exclusive jurisdiction and venue of the courts
of Cuyahoga County, Ohio with respect to any dispute, controversy or claim arising out
of or relating to this agreement.
18. Indemnity for Infringement of Intellectual Property Rights. Seller shall have no
liability for infringement of any patents, trademarks, copyrights, trade dress, trade secrets
or similar rights except as provided in this Section. Seller will defend and indemnify
Buyer against allegations of infringement of U.S. patents, U.S. trademarks, copyrights,
trade dress and trade secrets (“Intellectual Property Rights”). Seller will defend at its
expense and will pay the cost of any settlement or damages awarded in an action brought
against Buyer based on an allegation that a Product sold pursuant to this Agreement
infringes the Intellectual Property Rights of a third party. Seller’s obligation to defend
and indemnify Buyer is contingent on Buyer notifying Seller within ten (10) days after
Buyer becomes aware of such allegations of infringement, and Seller having sole control
over the defense of any allegations or actions including all negotiations for settlement or
compromise. If a Product is subject to a claim that it infringes the Intellectual Property
Rights of a third party, Seller may, at its sole expense and option, procure for Buyer
the right to continue using the Product, replace or modify the Product so as to make
it noninfringing, or offer to accept return of the Product and return the purchase price
less a reasonable allowance for depreciation. Notwithstanding the foregoing, Seller shall
have no liability for claims of infringement based on information provided by Buyer, or
directed to Products delivered hereunder for which the designs are specified in whole
or part by Buyer, or infringements resulting from the modification, combination or use in
a system of any Product sold hereunder. The foregoing provisions of this Section shall
constitute Seller’s sole and exclusive liability and Buyer’s sole and exclusive remedy
for infringement of Intellectual Property Rights.
19. Entire Agreement. This agreement contains the entire agreement between the
Buyer and Seller and constitutes the final, complete and exclusive expression of the
terms of sale. All prior or contemporaneous written or oral agreements or negotiations
with respect to the subject matter are herein merged.
20. Compliance with Law, U. K. Bribery Act and U.S. Foreign Corrupt Practices
Act. Buyer agrees to comply with all applicable laws and regulations, including both
those of the United Kingdom and the United States of America, and of the country or
countries of the Territory in which Buyer may operate, including without limitation the
U. K. Bribery Act, the U.S. Foreign Corrupt Practices Act (“FCPA”) and the U.S. AntiKickback Act (the “Anti-Kickback Act”), and agrees to indemnify and hold harmless Seller
from the consequences of any violation of such provisions by Buyer, its employees or
agents. Buyer acknowledges that they are familiar with the provisions of the U. K. Bribery
Act, the FCPA and the Anti-Kickback Act, and certifies that Buyer will adhere to the
requirements thereof. In particular, Buyer represents and agrees that Buyer shall not
make any payment or give anything of value, directly or indirectly to any governmental
official, any foreign political party or official thereof, any candidate for foreign political
office, or any commercial entity or person, for the purpose of influencing such person
to purchase products or otherwise benefit the business of Seller.
02/12
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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CONTENTS
Parker Safety Guide for Selecting and Using Hydraulic Valves and Related Accessories
WARNING: Failure or improper selection or improper use of Parker Hydraulic Valve Division (HVD) Valves or related accessories (“Products”) can
cause death, personal injury and property damage. Possible consequences of failure or improper use of these Products include but are not limited to:
■
■
■
■
■
■
■
■
■
■
Valves or parts thereof thrown off at high speed
High velocity fluid discharge
Explosion or burning of the conveyed fluid
Contact with suddenly moving or falling objects controlled by the Valve
Injections by high-pressure fluid discharge
Contact with fluid that may be hot, cold, toxic or otherwise injurious
Injuries resulting from injection, inhalation or exposure to fluids
Injury from handling a heavy item (dropped, awkward lift)
Electric shock from improper handling of solenoid connections
Injury from slip or fall on spilled or leaked fluid
Before selecting or using any of these Products, it is important that you read and follow the instructions below. In general, the Products are not approved
for in-flight aerospace applications. Consult the factory for the few that are FAA approved.
1.0 GENERAL INSTRUCTIONS
1.1 Scope: This safety guide provides instructions for selecting and using (including assembling, installing and maintaining) these Products. For convenience all items
in this guide are called “Valves”. This safety guide is a supplement to and is to be used in conjunction with the specific Parker catalogs for the specific Valves and/or
accessories being considered for use. See item 1.6 below for obtaining those catalogs.
1.2 Fail-Safe: Valves can and do fail without warning for many reasons. Design all systems and equipment in a fail-safe mode, so that failure of the Valve or Valve
Assembly will not endanger persons or property.
1.3 Safety Devices: Never disconnect, override, circumvent or otherwise disable any safety lockout on any system whether powered by HVD Valves or any motion
control system of any manufacturer. (e.g. Automatic shut-off on a riding lawn mower should the operator get out of the seat).
1.4 Distribution: Provide a copy of this safety guide to each person that is responsible for selecting or using HVD Valve Products. Do not select HVD Valves without
thoroughly reading and understanding this safety guide as well as the specific Parker catalogs for the Products considered or selected.
1.5 User Responsibility: Due the wide variety of operating conditions and applications for Valves, HVD and its distributors do not represent or warrant that any
particular Valve is suitable for any specific system. This safety guide does not analyze all technical parameters that must be considered in selecting a product. The
user, through its own analysis and testing is solely responsible for:
■ Making the final selection of the Valve
■ Assuring that the user’s requirements are met and that the application presents no health or safety hazards.
■ Providing all appropriate health and safety warnings on the equipment on which the Valves are used.
■ Assuring compliance with all applicable government and industry standards.
1.6 Additional Questions: Call the appropriate Parker technical service department if you have any questions or require any additional information. See the Parker
publication for the product being considered or used, or call 1-800-CPARKER, or go to www.parker.com , for the telephone numbers of the appropriate technical
service department. For additional copies of this or any other Parker Safety Guide go to www.parker.com and click on the safety button on the opening page. Catalogs
and/or catalog numbers for the various HVD Valve Products can be obtained by calling HVD at 440-366-5100. Phone numbers and catalog information is also
available on the Parker website, www.parker.com .
2.0 VALVE SELECTION INSTRUCTIONS
2.1 Pressure: Valve selection must be made so that the maximum working pressure of the Valve is equal to or greater than the maximum system pressure. Surge, impulse
or peak transient pressures in the system must be below the maximum working pressure of the Valve. Surge, impulse and peak pressures can usually be determined
by sensitive electrical instrumentation that measures and indicates pressures at millisecond intervals. Mechanical pressure gauges indicate only average pressure and
cannot be used to determine surge, impulse or peak transient pressures. Burst pressure ratings if given or known are for manufacturing purposes only and are not an
indication that the Product can be used in applications at the burst pressure or otherwise above the maximum working pressure.
2.2 Temperature: The fluid temperature must be regulated or controlled so that the operating viscosity of the fluid is maintained at a level specified for the particular
Valve product. Such ranges are given in the product catalogs or can be obtained from the appropriate customer service department for the particular Valve product.
2.3 Fluid Compatibility: The fluid conveyed in Valves has direct implications on the Valve selection. The fluid must be chemically compatible with the Valve
component materials. Elastomer seals, brass, cast iron, aluminum for example all are potentially affected by certain fluids. Additionally, fluid selection affects the
performance of various Valves. Considerations relative to fluid selection are outlined in the specific HVD Valve product catalog. Of particular importance is that the
fluid be for hydraulic use, contain the proper additives and wear inhibitors. See 1.6 “Additional Questions” above for information to obtain such HVD catalogs.
2.4 Changing Fluids: If a system requires a different fluid, it should be done with the guidance in number 2.3 above. Additionally, it may be necessary to flush the system
(including the Valves) to remove any of the previous fluid. Consult the Parker Valve Division for guidance.
2.5 Size: Transmission of power by means of pressurized fluid varies with pressure and rate of flow. The size of the components must be adequate to keep pressure losses
to a minimum and avoid damage due to heat generation or excessive fluid velocity.
2.6 Placement: Installation of Valves must take into account the orientation of the Valve and the proximity of the Valve to other parts of the system. This includes but is
not limited to closeness to hot and cold areas, access for servicing and operation as well as orientation for proper connectors.
2.7 Ports: Connection of Valves in systems can be by threaded ports, sub-base surfaces, flanges and manifolds. In all cases, the proper fitting, surface or mounting
hardware must be selected to properly seal and contain the system fluid so as to avoid the adverse conditions listed in the initial warning box above. Specifically,
if using threaded ports, the designer must make sure that the mating fitting is of the compatible thread. Also, the instructions provided by the connector hardware
supplier must be read and understood so as to properly assemble the connector. The Parker Safety Guide for using Hose, Tubing and Fittings and Related Accessories
is but one reference to this end.
2.8 Environment: Care must be taken to insure that the Valve and Valve Assemblies are either compatible with or protected from the environment (that is, surrounding
conditions) to which they are exposed. Environmental conditions including but not limited to ultraviolet radiation, sunlight, heat, ozone, moisture, water, salt water,
chemicals and air pollutants can cause degradation and premature failure.
2.9 Electric Power: For Valves requiring electric power for control, it is imperative that the electricity be delivered at the proper voltage, current and wattage
requirements. To obtain the proper control requirements please refer to the respective Parker product catalog for the specific Valve that is intended for use. If further
guidance is required, call the appropriate technical service department identified in the respective Parker product catalog.
2.10 Specifications and Standards: When selecting Valves, government, industry and Parker specifications and recommendations must be reviewed and followed as
applicable.
2.11 Accessories: All accessories used in conjunction with any Parker Valve product must be rated to the same requirements of the Valve including but not limited to
pressure, flow, material compatibility, power requirements. All of these items must be examined as stated in the “VALVE INSTALLATION INSTRUCTIONS”
paragraph 3.0.
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(continued on next page)
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3.0 VALVE INSTALLATION INSTRUCTIONS
TABLE OF
3.1 Component Inspection: Prior to use, a careful examination of the Valve(s) must be performed. The Valve intended for use must be checked for correct style, size,
CONTENTS
catalog number and external condition. The Valve must be examined for cleanliness, absence of external defects or gouges, cracked or otherwise deformed parts or
missing items. The mounting surface or port connections must be protected and free of burrs, scratches, corrosion or other imperfections. Do NOT use any item that
displays any signs of nonconformance. In addition, any accessory including but not limited to fittings, bolt kits, hoses, sub bases, manifolds, and electrical connectors
must be subjected to the same examination.
3.2 Handling Valves: Many Valves whether HVD Valves or of another manufacturer can be large, bulky or otherwise difficult to handle. Care must be taken to use proper
lifting techniques, tools, braces, lifting belts or other aids so as not to cause injury to the user, any other person or to property.
3.3 Filtration: Fluid cleanliness is a necessity in any hydraulic system. Fluid filters must be installed and maintained in the system to provide the required level of fluid
cleanliness. Filters can be placed in the inlets, pressure lines and return lines. The level of cleanliness required is specified in the HVD product catalog for the specific
Valve(s) selected or intended for use. For additional information on Filter selection contact Parker Filter Division at 800-253-1258 or 419-644-4311.
3.4 Servo Valves: Application of Servo Valves in general requires knowledge and awareness of “closed loop control theory” and the use of electronic controls for
successful and safe operation. Individuals who do not have such experience or knowledge must gain training before use of such Products. Parker offers both
classroom training as well as manuals to assist in gaining this knowledge. These aids can be obtained by contacting Hydraulic Valve Division at 440-366-5100, calling
the general Parker help line 800-CPARKER or going to the Parker web site at www.parker.com.
3.5 Accessory Ratings: All accessories used in combination with the selected or intended Valve product must be rated and compatible with the selected Valve.
Specifically, the items must be of equal or greater rating including but not limited to pressure, flow, power, size, port style, thread connectors and material.
3.6 Connection Styles: It is the responsibility of the user of the Parker product to properly select connectors and accessories that match the connections on the sub plate,
Valve, flange or threaded connection or manifold. It is also the responsibility of the installer to possess adequate skill and knowledge including but not limited to
thread preparation, torque technique, hose assembly and inspection, tube preparation and assembly, and fitting installation. Parker Tube Fitting Division (www.parker.
com/tfd) catalog 4300 and Parker Hose Products (www.parkerhose.com) catalog 4400 describe some basic technical information relative to proper fitting assembly.
3.7 Electrical Connections: All electrical connections must be made to the applicable codes and local safety requirements.
3.8 Gauges and Sensors: The user must install sufficient gauges and sensors in the system so as to be able to determine the condition of the system. This includes but is
not limited to pressure gauges, flow meters, temperature sensors and site gauges. These are of utmost importance should removal or disassembly of a Valve, portion
of a Valve or portion of the system become necessary. Refer to “VALVE MAINTENANCE AND REPLACEMENT INSTRUCTIONS” for details and especially item
4.8.
3.9 System Checkout: Once installed, the Valve installation must be tested to insure proper operation and that no external leakage exists. All safety equipment must be
in place including but not limited to safety glasses, helmets, ear protection, splash guards, gloves, coveralls and any shields on the equipment. All air entrapment must
be eliminated and the system pressurized to the maximum system pressure (at or below the Valve maximum working pressure) and checked for proper function and
freedom from leaks. Personnel must stay out of potentially hazardous areas while testing and using.
4.0 VALVE MAINTENANCE AND REPLACEMENT INSTRUCTIONS
4.1 Maintenance Program: Even with proper installation, Valves and Valve System life may be significantly reduced without a continuing maintenance program. The
severity of the application and risk potential must determine the frequency of the inspection and the replacement of the Products so that Products are replaced before
any failure occurs. A maintenance program must be established and followed by the user and, at a minimum, must include instructions 4.2 through 4.10. An FMEA
(Failure Mode and Effects Analysis) is recommended in determining maintenance requirements.
4.2 Visual Inspection-Valves: Any of the following conditions require immediate shut down and replacement of the Valve.
■ Evidence that the Valve is in partial dis-assembly.
■ Visible crack or suspicion of a crack in the Valve housing or bent, cracked or otherwise damaged solenoid.
■ Missing or partially extending drive pin on a flow control knob.
■ Missing, loose components, obstructions or other condition impeding the motion or function of the manual knob, lever, foot pedal or other mechanical operator of a
hydraulic Valve.
■ Any evidence of burning or heat induced discoloration.
■ Blistered, soft, degraded or loose cover of any kind.
■ Loose wire or electrical connector.
4.3 Visual Inspection-Other: The following conditions must be tightened, repaired, corrected or replaced as required.
1. Fluid on the ground must be cleaned immediately. Also, the source of the fluid must be determined prior to running the equipment again.
2. Leaking port or excessive external dirt build-up.
3. System fluid level is too low or air is entrapped or visible in the reservoir.
4. Equipment controlled by the Valve or Valve assembly has been losing power, speed, efficiency
4.4 Filter Maintenance: System filters must be maintained and kept in proper working order. The main service requirement is periodic replacement of the filter element
or screen. Contact Parker Filter Division at 800-253-1258 or 419-644-4311 for further filter maintenance details.
4.5 Functional Test: See “System Checkout” number 3.9 above in “VALVE INSTALLATION INSTRUCTIONS”.
4.6 Replacement Intervals: Valves and Valve Systems will eventually age and require replacement. Seals especially should be inspected and replaced at specific
replacement intervals based on previous experience, government or industry recommendations, or when failures could result in unacceptable downtime, damage or
injury risk. At a minimum seals must be replaced whenever service is rendered to a Valve product.
4.7 Adjustments, Control Knobs, and Other Manual Controls: System Pressure and Flow are typically adjusted by knobs and/or handles. A set-screw or lock-nut
secures the adjustment device so as to maintain the desired setting. This set-screw or lock-nut must first be loosened prior to making any adjustments and re-tightened
after adjustment on the HVD Valve. All adjustments must be made in conjunction with pressure gauges and/or flow meters (or by watching the speed of the actuator
in the case of setting flow only). See paragraph “Gauges and Sensors” above in the section “VALVE INSTALLATION INSTRUCTIONS’. Under no circumstances
should any control knob, adjustment stem, handle, foot pedal or other actuating device be forced beyond the mechanical stop(s) on the Valve. For example, the Parker
Safety Notice Bulletin HY14-3310-B1/US for HVD Colorflow Valves specifically restricts the adjustment torque to “hand adjust” or “less than 10 ft/lbs” if it cannot
be adjusted by hand. Failure to adhere to this may force the knob beyond the stop point allowing it to be ejected at high speed resulting in death, personal injury and
property damage. For complete safety instructions on HVD Colorflow Valves, copies of Safety Notice Bulletin HY14-3310-B1/US can be obtained directly from the
Hydraulic Valve Division at 440-366-5100 or from the Parker web site at www.parker.com by selecting the “Safety” button. Parker help line 800-CPARKER is on call
24/7 as well should there be any question about the use of a HVD Valve. Additionally, when making adjustments, always adjust the Valve with all parts of your body
to the side of the Valve (that is, the knob is not pointing toward you or anyone else).
4.8 High pressure Warning: Hydraulic power is transmitted by high-pressure fluids through hoses, fittings and valves, pumps and actuators. This condition can be
dangerous and potentially lethal and, therefore, extreme caution must be exercised when working with fluids under pressure. From time to time, hoses, Valves, tubes
or fittings fail if they are not replaced at proper time intervals. Typically these failures are the result of some form of misapplication, abuse, wear, or failure to perform
proper maintenance. When such failure occurs, generally the high pressure fluid inside escapes in a stream which may or may not be visible to the user. Under no
circumstances should the user attempt to locate the leak by “feeling” with their hands or any other part of their body. High-pressure fluids can and will penetrate
the skin and cause severe tissue damage and possible loss of limb or life. Even seemingly minor hydraulic fluid injection injuries must be treated immediately by a
physician with knowledge of the tissue damaging properties of hydraulic fluid.
If a hose, tube, fitting or Valve failure occurs, immediately shut down the equipment and leave the area until pressure has been completely released from the system.
Simply shutting down the pump may or may not eliminate the pressure in the system. It may take several minutes or even hours for the pressure to be relieved so
that the leak area can be examined safely. Once the pressure has been reduced to zero, the suspected leaking item can be taken off the equipment and examined. It
must always be replaced if a failure has occurred. Never attempt to patch or repair a connector (especially a hose) or Valve that has failed. Consult the nearest Parker
distributor or the appropriate Parker division for component replacement information. Never touch or examine a failed hydraulic component unless it is obvious that
the item no longer contains fluid under pressure.
SG HY14-1000, 2/12/07
159
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TABLE OF
CONTENTS
Catalog HY14-3200/US
Notes
Terms-SafetyGuide-Notes.indd, ddp
160
Parker Hannifin Corporation
Hydraulic Valve Division
Elyria, Ohio, USA
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TABLE OF
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Extensive Hydraulic Product Offering
Accumulators
Compact Hydraulics
Piston, bladder and diaphragm type accumulators,
gas bottles and KleenVent
reservoir isolators.
Self-contained with a motor, gear pump, reservoir,
internal valving, load hold
checks and relief valves.
Cylinders
Standard and custom
hydraulic cylinders for
industrial and mobile
applications.
Electronics/Remote
Controls
Parker’s unique IQAN
approach combines sturdy,
well-tested hardware
with intelligent, flexible
computing power.
www.parker.com/accumulator
www.parker.com/oildyne
www.parker.com/hydcyl
www.parker.com/iqan
Filtration
Integrated Hydraulic
Circuits
Motors
Power Take Off
Solutions for complex circuits that include threaded
cartridge valves integrated
into a single manifold.
Pressure and return line
filters enhances machine
life, reduces maintenance
and lowers costs.
Full line of high and low
speed motors provides
power up to 15,000 in-lbs
of torque.
Parker Chelsea leads the
industry for engineering,
innovation and performance
in auxiliary power systems.
www.parker.com/hydraulicfilter
www.parker.com/hcs
www.parker.com/pumpmotor
www.parker.com/chelsea
Power Units
Pumps
Rotary Actuator
Valves and Controls
The most complete line of
standard, pre-engineered,
cataloged hydraulic power
units in the industry.
Broad line of energyefficient hydraulic pumps
that includes piston, vane
and gear pumps.
www.parker.com/pumpmotor
www.parker.com/mobpump
Industry leader in the
design and manufacture
of hydraulic rack and pinion, and vane style rotary
actuators.
www.parker.com/actuator
Hydraulic valves for virtually
every hydraulic equipment
application, from simple to
precise control.
www.parker.com/hydraulicvalve
Covering the Industrial
and Mobile markets, each
catalog is paired with an
interactive DVD. Call for
your comprehensive guides
today. 1-800-C-Parker.
Mobile Hydraulics
Bulletin HY19-1012/US
Industrial Hydraulics
Bulletin HY01-1001/US
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Parker Hydraulics International Sales Offices
North America
Industrial Sales
Mobile Sales
Hydraulics Group Headquarters
Central Region
1042 Maple Avenue
Unit 331
Lisle, IL 60532 USA
Tel:630-964-0796
Mobile Sales Organization
and Global Sales
850 Arthur Avenue
Elk Grove Village, IL 60007 USA
Tel:847-258-6200
Fax:847-258-6299
6035 Parkland Boulevard
Cleveland, OH 44124-4141 USA
Tel:216-896-3000
Fax:216-896-4031
Parker Canada Division
160 Chisholm Drive
Milton, Ontario, L9T 3G9 Canada
Tel:905-693-3000
Fax:905-876-1958
Mexico
Parker Hannifin de México
Industrial Hydraulic Sales
Eje Uno Norte No. 100
Parque Industrial Toluca 2000
Toluca, Edo. de Mexico CP 50100
Tel: 52 72 2275 4200
Fax:52 72 2279 9308
Europe
Hydraulics Group Headquarters
La Tuilière 6
CH-1163 Etoy, Switzerland
Tel: 41 21 821 8500
Fax:41 21 821 8580
Latin America
Parker Hannifin Ind. e Com. Ltda
Hydraulics Division
Av. Frederico Ritter, 1100
94930-000 Cachoeirinha RS, Brazil
Tel: 55 51 3470 9144
Fax:55 51 3470 9215
Parker Hannifin Argentina S.A.I.C.
Stephenson 2711
1667-Tortuguitas-Malvinas Argentinas
Pcia. de Buenos Aires, Argentina
Tel: 54 3327 44 4129
Fax:54 3327 44 4199
Pan American Division
7400 NW 19th Street, Suite A
Miami, FL 33126 USA
Tel:305-470-8800
Fax:305-470-8808
Great Lakes Region
6035 Parkland Boulevard
Cleveland, OH 44124-4141 USA
Tel:216-896-3000
Fax:216-896-4031
Gulf Region
20002 Standing Cypress Drive
Spring, TX 77379 USA
Tel:817-473-4431
Fax:888-227-9454
Southwest Region
700 S. 4th Avenue
Mansfield, TX 76063 USA
Tel:817-473-4431
Fax:888-227-9454
Mid Atlantic & Southeast
Regions
1225 Old Alpharetta Rd
Suite 290
Alpharetta, GA 30005 USA
Tel:770-619-9767
Fax:770-619-9806
Midwest Region
8145 Lewis Road
Minneapolis, MN 55427 USA
Tel:763-513-3535
Fax:763-544-3418
Northeast Region
P.O. Box 396
Pine Brook, NJ 07058 USA
Tel:973-227-2565
Fax:973-227-2467
Northwest Region
6458 North Basin Avenue
Portland, OR 97217 USA
Tel:503-283-1020
Fax:866-611-7308
Pacific and Plains Region
8460 Kass Drive
Buena Park, CA 90621 USA
Tel:714-228-2509
Fax:714-228-2511
Asia Pacific
Parker Hannifin Shanghai Ltd.
280 Yunqiao Road,
Jin Qiao Export Processing Zone
Shanghai 201206, China
Tel: 86 21 2899 5000
Fax:86 21 5834 8975
Parker Hannifin Hong Kong Ltd.
Suites 01-04, 20/F,
Tower 2, The Gateway,
Harbour City, Tsimshatsui,
Hong Kong
Tel: 852 2428 8008
Fax:852 2480 4256
Parker Hannifin Korea Ltd.
18F KAMCO Yangjae Tower
949-3 Dogok1-dong, Gangnam-gu
Seoul, 135-860, Korea
Tel: 82 2 559 0408
Fax:82 2 556 8187
Parker Hannifin India Pvt Ltd.
Plot No. EL-26, MIDC,
TTC Industrial Area
Mahape, Navi Mumbai, 400 709, India
Tel: 91 22 6513 7081
Fax:91 22 2768 6841
Parker Hannifin Australia
Parker Hannifin Pty Ltd.
9 Carrington Road
Castle Hill, NSW 2154, Australia
Tel: 612 9634 7777
Fax:612 9842 5111
South Africa
Parker Hannifin Africa Pty Ltd
10 Berne Avenue
Aeroport
Kempton Park 1620,
Republic of South Africa
Tel: 19 610 700
Fax:13 927 213
Catalog HY14-3200/US,
3M, 7/12, ST
© 2012 Parker Hannifin Corporation. All rights reserved.
Parker Hannifin Corporation
Hydraulic Valve Division
520 Ternes Avenue
Elyria, Ohio 44035 USA
Tel:440-366-5100
Fax:440-366-5253
www.parker.com/hydraulicvalve
Your Local Authorized Parker Distributor
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