US Operating Instructions Exkop mini

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US Operating Instructions Exkop mini | Manualzz

EXKOP ®MINI

+ QV II Quench Valve

Explosion Isolation System

page 1 of 25 USB-EXKOM-11800/1

Table of contents

1.

Operating and safety instructions

1.1 Safety instructions

1.2 Application limitation

2.

Description

2.1

General

2.2

Scope of EXKOP

®MINI

System

2.3

Function

3.

The QV II Quench Valve

3.1

Installation notes

3.1.1

Installation Instructions for QV II Quench Valve

3.2

Maintenance notes

3.3

Technical data of QV II Quench Valve

4.

EXKOP

®MINI

Safety Controller

4.1

Installation notes

5.

6.

7.

4.2 Description of function

4.3

4.3.1

EXKOP

EXKOP

®MINI

®MINI

Safety Controller - function

Safety Controller – operation and wiring

4.3.2. Output modules QV II Quench Valve - wiring

4.3.3 EXKOP

®MINI

Safety Controller – initialization

Functional check

KFD2-ST2-Ex1.LB Transformer isolated barrier

Technical data

Annex:

Log Book (copying collecting main)

QV II Quench Valve Drawing-No.:

EXKOP

®MINI

Safety Controller wiring diagram: Drawing-No.:

Drawing-No.:

Drawing-No.:

Drawing-No.:

11-03-97

11-03-98

10-02-39

10-03-69

10-12-54

8

9

10

6

7

7

3

3

3

4

4

5

10

10

11

12

13

14

15

15

16

18 page 2 of 25 USB-EXKOM-11800/1

1.

Operating and safety instructions

This manual must be read carefully and all instructions must be followed before starting the

EXKOP

®MINI

safety system.

Careless installation or any modification of EXKOP

®MINI

safety system components can result in failure of the entire system. This can result in explosion propagation which can cause the destruction of equipment. The devastating effects of such an explosion can also endanger human life.

The operating diary, which contains the log of all events that have occurred as well as the access code for the EXKOP

®MINI

Safety Controller must be secured by the designated plant safety representative.

The monthly test function (see section 6) must be carried out by the designated plant safety representative and documented in the operating diary.

1.1 Safety instructions

The pressurization of the air tank of an uninstalled QV II Quench Valve is forbidden because accidental activation of the QV II Quench Valve could lead to injuries resulting from the pinch valve closing area.

Before opening the EXKOP

®MINI

Safety Controller housing, make sure that the power is switched off. Note:

Disconnecting the power system results in an activation of the QV II Quench Valve!

Electrical system work must be performed by a qualified person.

The re-setting of the EXKOP

®

system after activation must be carried out very carefully to avoid the danger of secondary explosions.

If the explosion protection system includes explosion panels, make sure that personnel are outside of the venting area of the explosion panels!

1.2 Application limitation

The EXKOP

®MINI

explosion isolation system is conceived and certificated in accordance with the following application limitations:

Dust: all organic and chemical dusts

K st-max

-Value:

P max

:

< = 200 bar x m / s

< = 10 bar maximum reduced explosion pressure < =1.0 bar Pressure:

Minimum

Ignition Energy (MIE): >3mJ page 3 of 25 USB-EXKOM-11800/1

2.

Description

2.1 General

Despite the high safety standards of modern manufacturing facilities, the risk of a dust explosion still continues to be underestimated. In addition, modern production methods have considerably increased the proportion of fine dusts and the risk of an explosion.

Explosion pressure and flames should be vented to the outside where possible. This is not always possible inside buildings, and can only be accomplished with considerable physical modification and large expenditure.

The REMBE

®

Q-Rohr

®

-3 and Q-Box II indoor/outdoor venting devices offer a safe indoor venting solution.

The EXKOP

®MINI

explosion isolation system together with explosion venting offers effective protection for plant components connected by product or aspiration pipes, where a risk of explosion propagation exists.

The Q-Rohr

®

/Q-Box explosion venting devices or REMBE the event of an explosion and activate the EXKOP

®

explosion venting panels vent immediately in

®MINI

Safety Controller. The signal will be identified by an integrated KFD2-ST2-Ex1.LB transformer isolated barrier and triggers the EXKOP

®MINI

Safety Controller.

Alternatively, if a spark detector is used, the signal will be identified by an integrated AGF-1012- transformer.

The EXKOP

®

Safety Controller transmits a closing signal to the QV II Quench Valve. The Quench Valve isolates the pipe from the oncoming pressure wave and flame by means of pneumatic actuation, via rapidacting solenoid valves operating within a few milliseconds, thus preventing the explosion from propagating to other parts of the plant. page 4 of 25 USB-EXKOM-11800/1

2.2 Scope of EXKOP

®MINI

System

The EXKOP

®MINI

System normally consists of the following components:

- Explosion venting by Q-Rohr

®

-3, Q-Box II or REMBE

®

explosion panels with their own signaling units.

-

- EXKOP

®MINI

Safety Controller with dynamic self monitoring function and internal data memory as well as an alarm-control and integrated KFD2-ST2-Ex1.LB transformer isolated barrier/safety barrier.

- Spark detectors or pressure sensors

- QV II Quench Valve with high speed solenoid valves and integrated air tank

Input modules

• Q-Rohr

®

Q-Box II

-3

• Explosion panel with signaling unit

• Infrared spark detector

• Emergency switch

Pressure sensors

EXKOP

®MINI bbbbbbbbbbbb

Output modules

• QV Quench Valves

• Flash light with sound alarm,

• Plant shut down or other control

• Other alert/alarm systems page 5 of 25 USB-EXKOM-11800/1

2.3 Function

Normal production sequence

The QV II Quench Valve (D) is open to full pipe diameter with no pressure drop across the valve.

QV II Quench Valve, REMBE

®

explosion panels,

Q-Rohr

®

-3 or Q-Box II (B) ensure protection in the event of a dust explosion without interrupting any production sequence.

A

B

EXKOP

®

Safety

Controller

C

D

During explosion

Vessel (A) is vented via the explosion venting action of a

REMBE

®

explosion panel, Q-Rohr

®

-3 or Q-Box II (B) indoor/outdoor venting system. Thus, the majority of the pressure wave and flame front developed during the explosion is reduced.

The Q-Rohr

®

-3 or Q-Box II explosion venting system (B) or the REMBE

®

explosion panels within the plant system immediately send a signal to the EXKOP

®MINI

Safety

Controller (C) which immediately initiates closure of the QV

II Quench Valve (D).

A

B

D

EXKOP

®

Safety

Controller

C

During closure, a build-up of product occurs in front of the

QV II Quench Valve (D). This causes a displacement of oxygen, so that the dust-air concentration is moved out of the explosive range and ignition capability is reduced.

The explosion is completely isolated by the closure of the

QV II Quench Valve.

A

B

D

EXKOP

®

Safety

Controller

C page 6 of 25 USB-EXKOM-11800/1

3.

The QV II Quench Valve

Note: It is important that all information contained in this manual be precisely followed in order to ensure

proper valve functioning.

3.1 Installation notes

The QV II Quench Valve must be installed in the connecting pipes between the vessels to be isolated. The distances shown below must be precisely observed.

The minimum distance is necessary to ensure proper isolation in the event of an explosion, but the maximum distance must not be exceeded. Otherwise, a second explosion could be initiated in the pipe.

Nominal diameter Quench Valve*

NPS 3 '' (DN 80) - NPS 8 '' (DN 200)

NPS 10 '' (DN 250)

Distance to protected vessel

Minimum

19.7 ft (6 m)

23.0 ft (7 m)

Maximum

23.0 ft (7 m)

26.3 ft (8 m) type

QV II-3

QV II-4

QV II-5

QV II-6

QV II-8

QV II-10

NPS / DN

80/3"

100/ 4"

125/ 5"

150/ 6"

200/ 8"

250/ 10" length L1 *

[in] [mm]

8.98 length L2 *

[in] [mm]

228 15.75 400

11.10 282 15.75 400

13.78

16.54 width W *

[in]

7.87

8.66

350 15.75 400 9.84

420 15.75 400 11.26

[mm]

200 20.47 520

220 21.81 554

250

286

height H *

[in]

23.62

25.67

[mm]

600

652

21.85

24.02

555 25.59 650 13.39

610 31.50 800 15.55

340 29.21 742

395 33.70 856

[in]

E *

[mm]

1.14 29

1.38 35

1.54

1.69

39

43

2.36

1.93

60

49

* see drawing no 05-08-23 on page 21 flange-Ø Di *

[in] [mm]

3.15 80

3.94 100

4.72

5.71

120

145

7.48

9.45

190 123.46

240 286.60 weight

[lbs] [kg]

28.66 13

39.68 18

57.32

77.16

26

35

56

130 counter flanges

DIN 2632-DN 80

DIN 2632-DN 100

DIN 2632-DN 125

DIN 2632-DN 150

DIN 2632-DN 200

DIN 2632-DN 250

Exact values depend on the application. Contact your REMBE

®

, INC. representative if you have questions.

The counter flanges of the pipe shall be precisely identical to dimensions defined in DIN 2632 PN 10, with dimensions described above. In order to ensure proper functioning of the system, the installation must be frostfree (e.g. isolation and/ or heating measures must be taken). The compressed-air system of the plant can be used to supply air to the Quench Valve. The compressed air must be filtered, dry and free of oil residues.

The pressure of the air storage tank is limited by a pressure regulator at an operating pressure of maximum of 87

PSI (6.0 bar) The compressed-air connection is G 1/4" as standard. In order to ensure the operation of the valve in the event of compressed-air system failure, a check valve is integrated into the supply connection. The check valve is protected against unauthorized adjustment via lock and key located on the safety valve. page 7 of 25 USB-EXKOM-11800/1

3.1.1 Installation Instructions for QV II Quench Valve

Preparation of installation place

The pipe work has to be fitted with counter flanges according to the

Installation notes, section 3.1. (see page 7)

Pressure reducing valve

(preset) manometer

Mounting of the QV II Quench Valves

Be sure to allow the counter flanges to cool after welding. This is to ensure that the rubber Quench seal is not damaged by heat during the mounting process.

The electronic supply needs to be cut.

For better inspection, the gauge should be easily viewed once the valve is mounted. The air supply has to be counter to the pressure reducer (1/4“connecting).

Mounting QV II-3 to QV II-10

The bolt flanges of the QV II Quench Valves have to be tightened to following specifications: bolts M 16 bolts M 20

(80...100 Nm (710…885 in.lbf)

(80...120 Nm (710…1062 in.lbf)

The screws must be tightened cross over. Torque each bolt in sequence to 80 Nm and than 2 times again to 100 (M 16) [120 (M 20)] Nm. After the first operating cycles the torque has to be checked. A minimum of one check per year shall be made and this inspection must be documented.

The electrical wiring of the QV II Quench Valve can now be counter. page 8 of 25 USB-EXKOM-11800/1

Note:

The compressed-air connection must be isolated mechanically from the plant system to prevent vibrations from being transmitted to the QV II Quench Valve. A flexible hose of 3.3ft (1m) is recommended.

When the operating pressure is reached, the entire system can be set to an "armed" status by the reset button at the EXKOP

®MINI

Safety Controller. (See section 4. EXKOP

®MINI

Safety Controller, page 10).

A pressure gauge at the tank allows for visual monitoring of available operating pressure.

The pressure regulator and pressure switch settings are set by REMBE

and may only be altered after consulting with the REMBE

®

service department. All warranty claims against REMBE

®

will become null and void in the event of unauthorized adjustment.

For systems operating under vacuum conditions, it is necessary to arm the EXKOP

®MINI

System before switching on the conveying system to prevent clogging or excessive wear of the QV II Quench Valve.

The pipe between the QVII Quench Valve and the protected enclosure must have a P

P red

of the protected enclosure - contact your REMBE

® red

of 14.5 PSI/1.0 bar or a

, INC. Representative to confirm required pipe strength.

3.2 Maintenance notes

When conducting maintenance work, the compressed-air supply must not be interrupted.

Minor leaks at couplings will cause a loss of pressure in the tank. In the event that the supply of plant air to the pressure tank is interrupted, the tank will maintain a safe level of air pressure for a minimum of three hours.

If the supply pressure drops below 65 PSI (4.5 bar), the pressure switch signals a system error which is automatically evaluated by the EXKOP

®MINI

Safety Controller. This action results in an immediate activation of the QV II Quench Valve and a shutdown of the production line.

Below this supply pressure, you cannot be certain the QV II Quench Valve will be completely closed. Also, in the event of a power failure, the QV II Quench Valve will close immediately (fail-safe).

Note:

Before switching off the power, caution must be taken to ensure that the pinch area of the QV II Quench

Valve is clear in order to avoid injuries to personnel! page 9 of 25 USB-EXKOM-11800/1

3.3 Technical data of QV II Quench Valve

Compressed-air connection:

Compressed-air supply:

Compressed-air monitoring:

Commissioning pressure:

Minimum operating pressure:

Voltage supply:

G1/4" at pressure reducer

Minimum 87.02 psi (6 bar)

Via pressure switch at tank, signal to EXKOP

®MINI

Safety Controller

80 psi (5.5 bar)

72.5 psi (5.0 bar)

24 V DC via EXKOP

®MINI

Safety Controller (max 100 W)

4.

EXKOP

®MINI

Safety Controller

4.1 Installation notes

The EXKOP

®MINI

Safety Controller is delivered completely wired, in a housing with a lockable door. The controller should be installed in a readily visible location within a dry, heated room.

Supply voltage variations (24 VDC) in the range of +10 % are acceptable. Power consumption is approximately

100 W. In the case of higher voltage supply variations or extreme transient spikes, the use of a main filter and/or voltage stabilizer is recommended.

The connecting cables to the KFD2-ST2-Ex1.LB transformer isolated barrier are monitored for open-circuit and short-circuit. These faults are indicated by means of the LED's display and cause an immediate closing of QV II

Quench Valve.

For trouble-free operation, we recommend the use of shielded cables at the inputs of the EXKOP

®MINI

Safety

Controller, since disturbing pulses can be produced in industrial plants through the use of high-current or highvoltage cables and high inductance or capacitance.

The maximum cable length between the EXKOP

®

Safety Controller and individual control components (QV

Quench Valve, explosion panel, Q-Rohr

®

-3, Q-Box II, etc. must not exceed 1968.5 ft (600 m).

NEC, VDE 100 or other applicable regulations must be observed.

Note:

If spark detectors are used in this application, the EXKOP

®MINI

controller is equipped with an AGF 1012 transformer. Please wire according to the schematic on page 24.

The required minimum and allowed maximum distances of the spark detectors to the QVII depend on the application and are to be approved by your REMBE

®

INC., representative. page 10 of 25 USB-EXKOM-11800/1

4.2 Description of function

The EXKOP

®MINI

Safety Controller consists of a central processing unit (CPU), which monitors both the signals of the KFD-ST2-Ex1.LB transformer isolated barrier and the pressure switches on the QV Quench Valves. The

CPU is fail-safe programmed and monitors the signaling cables for lead breakage and short circuit.

4.2.1 Input modules

The KFD-ST2-Ex1.LB transformer isolated barrier is used for signaling the status of the counter explosion panels, REMBE

®

Q-Rohr

®

-3 or Q-Box II. Upon activation of the Q-Rohr

®

or other safety device, a signal is immediately sent to the EXKOP

®MINI

Safety Controller. The signal is subsequently evaluated and the QV II

Quench Valve will be closed immediately.

The pressure switch, located at the compressed-air tank of the QV II Quench Valve, monitors the operating pressure. If the pressure should fall below the minimum operating value, closure of the QV II Quench Valve is initiated for safety reasons.

In addition, other signals can be sent to the EXKOP

®MINI

Safety Controller:

- Infrared spark detectors and/or pressure sensors for plant monitoring purposes.

- Signals from programmable controllers and/or central monitoring systems of plant controls.

- Fire detection or fire extinguishing systems

4.2.2 Output modules

The output modules are for the activation of the QV II Quench Valves and the relay contacts.

These modules supply the solenoid valve at the QV II Quench Valve with power. Any and all signals which could be interpreted as failures will lead to an immediate activation of the output modules (fail safe).

The relay contacts (K), are designed for audible and visual signaling of the alarm status (audible and flashing light). The connection of additional alarm indicators can also take place via relay contacts. This enables a safe and controlled plant shutdown procedure in the event of an alarm.

4.2.3 Internal data storage

A change of operating condition, faults and failures of the supply voltage are stored internally in the EXKOP

®MINI

Safety Controller in chronological order.

The storage capacity is sufficient for storing events over a period of one year. Storage takes place by means of ring storage so that the oldest data is overwritten when the storage unit is full.

The “TEST” function, to be carried out regularly (see section 6, Functional Test, page 15), is stored in the storage unit. This ensures continuous recognition of all operating sequences.

The data can be shown on a PC or as a print-out (PC and printer are not included in the scope of supply of the

EXKOP

®MINI

Safety Controller).

In the event of an explosion, the operating sequences prior to the event can be precisely reconstructed. page 11 of 25 USB-EXKOM-11800/1

4.3 EXKOP

®MINI

Safety Controller - function

The EXKOP

®MINI

Safety Controller is operated by one button. Start or arm the EXKOP

®MINI

Safety Controller by pressing the RESET/TEST button.

Different functions of the EXKOP

®MINI

Safety Controller can be adjusted by different jumper settings. These different functions are described below and in the attached drawings.

Chart of different functions

Input 14 terminal X1.16

0

1

0

0

0

1

1

1 terminal X4.16

15

X1.17

0

1

1

1

0

0

0

1

X4.17

0 = no jumper

1 = jumper

16

X1.18

1

0

1

1

0

0

1

0

X4.18

EXKOP

®MINI

Function

2 - 2

2x (1 - 1)

2 - 1

1 - 2

1 - 1

2 - 2 *)

2 - 2 *)

2 - 2 *)

+24VDC

EXKOP

®MINI

Function 2 – 2:

Function 2x (1 – 1):

Function 2 – 1:

Function 1 – 2:

Function 1 – 1:

Function 2 – 2

*)

:

Both signal inputs cause closing of both QV II Quench Valves; that means any activation signal will close both

QV II Quench Valves.

Two separate lines with one QV II Quench valve each. By activation of bursting disc #1, QV II Quench Valve #1 will be closed.

By activation of bursting disc #2, QV II Quench Valve #2 will be closed.

By activation of bursting discs #1 and #2, the counter QV II Quench Valve # 1 will be closed.

By activation of bursting disc #1, both counter QV II Quench Valves will be closed.

By activation of bursting disc #1, the counter QV II Quench Valve #1 will be closed

If no Function is adjusted by a jumper setting, function 2 – 2 will be automatically activated!

By activation of QV II Quench Valve #1, the K1 alarm relay will be activated. By activation of the QV II Quench

Valve #2, the K2 alarm relay will be activated. The K3 alarm relay is a summary relay and will be activated for any event. Unused inputs must be jumped in order to display “safe” status. page 12 of 25 USB-EXKOM-11800/1

4.3.1 EXKOP

®MINI

Safety Controller – operation and wiring

The EXKOP

®

Safety Controller controls the counter input and output modules automatically. Programming is necessary only during the initiation and test run.

The power supply of the EXKOP

®MINI

Safety Controller must be counter to a 4-pole terminal of the CPU-Modules at the clamp + and – with 24V direct voltage.

CPU 470

PE

24VDC

+ + - -

connection voltage: 24VDC max. power consumption=100W

DM465

X1

X2

X4

X5

terminals for

- Inputs

- Outputs

+24VDC

GND

Function of LED’s on the CPU-Module DM 465

The yellow LED U indicates the power supply of in and outputs. Below a power supply of approx. 18VDC the

LED turns dark.

Note: The DM 465 control modules have 16 Inputs with green LED’s and 16 Outputs with yellow LED’s. But it will only show 8 Inputs/Outputs at the same time. Press the little white Key at the modules to toggle between:

Yellow LED S#…

Yellow LED S#+1…

In-/Output 1 – 8

In-/Output 9 – 16

The input status will be shown through green LED’s as follows:

Input #1 Bursting disc #1 Save status

Input #2

Input #3

Input #4

Pressure air QV II #1

Bursting disc #2

Pressure air QV II #2

Save status

Save status

Save status

Input #5

Input #14

Input #15

Input #16

Reset key

Bypass C

Bypass B

Bypass A

= LED on

= LED on

= LED on

= LED on pressed = LED on

Jumper installed = LED on

Jumper installed = LED on

Jumper installed = LED on page 13 of 25 USB-EXKOM-11800/1

The output status will be shown through yellow LED’s as follows:

Output #1 Control Valve QV#1 Active = LED on

Output #2

Output #3

Output #4

Control Valve QV#1

Air Valve QV#1

Air Valve QV#1

Active = LED on

Active = LED on

Active = LED on

Output #5

Output #6

Output #7

Output #8

Output #9

Output #10

Output #11 alarm-relay #1

Control Valve QV#2

Control Valve QV#2

Air Valve QV#2

Air Valve QV#2 alarm-relay #2 summary alarm-relay

Save status = LED on

Active = LED on

Active = LED on

Active = LED on

Active = LED on

Save status = LED on

Save status = LED on

Unlisted Inputs/Outputs are not used.

Terminal 1 and 2 for the connection of the power supply voltage of inputs and outputs are at the junction block X1 and X2:

Terminal#1: GND

Terminal#2: +24VDC

4.3.2. Output modules QV II Quench Valve - wiring

In case of alarm or any failure, the QV II Quench Valve output modules are activated by the CPU and the pipe is isolated by the closing of the QV II Quench Valve.

During normal mode, the QV II Quench Valve solenoid valve is powered by the EXKOP

®MINI

Safety Controller.

The pressure switch is monitored by the CPU.

The terminals in the EXKOP

®MINI

Safety Controller’s CPU will be counter to the terminals of the QV II Quench Valve according to the wiring diagram on right.

Recommended cable:

Shielded cable with cross section of

1 mm

2

(0.00155 in

2

)

1

2

PE

V1

Valve

Air in

4

5

6

P Pressure

switch

Valve

Air out

V2

page 14 of 25 USB-EXKOM-11800/1

4.3.3 EXKOP

®MINI

Safety Controller – initialization

After switching on the power, the EXKOP

®MINI

Safety Controller conducts a self test. All internal and external signals will be checked. If the KFD2-ST2-Ex2.LB-Electronic LED display lights are “green” and pressure inside the tank of the QV II Quench Valve is built up, the EXKOP

®MINI

Safety Controller will be armed by pressing the

Reset button.

The EXKOP

®MINI

Safety Controller is now armed.

5.

Functional check

The EXKOP

®MINI

System has to be checked monthly by using the test button.

Before carrying out a system check, the plant safety representative must ensure that no danger will occur during this procedure.

The test function simulates an activation of the EXKOP

®MINI

Safety Controller.

Press the Reset button for 5 seconds. This will cause all Quench Valves counter to the controller to be closed immediately. The tests have to be documented in the operating diary. Also all counter systems, such as process plant computers, fire alarms or other safety devices, will be activated.

The following message will be shown for each counter Quench Valve separately: “Failure air QV X“ by LED’s.”

This status will not change until the air supply in each air tank reaches required pressure.

After all pressure air tanks are filled, the EXKOP

®MINI

Safety Controller can be armed by the RESET key again.

The system check must be documented in the log book. page 15 of 25 USB-EXKOM-11800/1

6.

KFD2-ST2-Ex1.LB Transformer isolated barrier

Monitoring of Q-Rohr

®

-3, Q-Box II, triple section explosion panels or other indicators (besides spark detectors) is carried out by the KFD2-ST2-Ex1.LB electronic transformer isolated barrier.

Three integrated LED's serve for status indication:

Green LED lights:

Yellow LED lights:

Yellow LED dark:

Red LED flashing:

Power supply is counter to the relay = no fault

Output signal = sensor ok = save status

Sensor or bursting disc not ok = alarm status

Broken cable to sensor = failure = alarm status

The KFD2-ST2-Ex1.LB electronic is supplied via the

EXKOP

®MINI

Safety Controller. The signal cables are monitored for lead breakage and short-circuit.

The no-fault-status of the signaling unit is indicated by the Yellow LED. This also ensures that explosion panels, Q-Rohr

®

-3, Q-Box II or other protective units are reliably monitored for their operating condition in a central location. Upon activation of the signaling unit, an alarm is generated (Yellow LED dark).

The EXKOP

®MINI

Safety Controller detects this condition and immediately activates the QV II Quench Valve as well as the alarm. The EXKOP

®MINI

Safety Controller can only be armed when the signaling unit has no fault status: Yellow LED light is on.

The connection of power supply voltage of the input modules is already wired.

The signaling unit of the bursting disc, Q-Rohr

®

-3, Q-Box II or other signaling units (blue cable) has to be counter to the junction box as follows:

Junction box near the bursting disc and/or the Q-Rohr

®

-3

500

10k

PE 1 2 3 4

EXKOP

®MINI

KFD2-Relay

bursting disc /

Q-Rohr

®

-3, Q-Box II page 16 of 25 USB-EXKOM-11800/1

The input of the KFD2-ST2-Ex1.LB electronic has to be counter to the terminals #1 and #2 in the junction box and in the EXKOP

®MINI

Safety Controller at the terminals according to the terminal diagram. The signaling unit of explosion panels, Q-Rohr

®

-3, or Q-Box II has to be counter to the terminals #3 and #4 in the junction box.

500

10k

1 2 3

yel red green

I

S1: output 7 blocked

S2: output. 9 parallel output. 7

S3: input w. LB/SC supervision

S1

S2

S3

I II

7 8 9

Bursting disc, …

II

S1: output 7 inverted

S2: LB/SC Supervision

S3: input without LB/SC

13 14 15

output 7 signal

20 – 30 VDC L+

M-

Position of switches as standard:

CPU input

M-

S1

S2

S3

I II

In case the module is not in use the switches have to be in the following position:

S1

S2

S3

I II

Note:

If spark detectors are used in this application, the EXKOP

®MINI

controller is equipped with an AGF 1012 transformer instead of the 2 KFD2-ST2-Ex1.LB. Please wire according to the schematic on page 24. page 17 of 25 USB-EXKOM-11800/1

7.

Technical data

EXKOP

®MINI

Safety Controller

Electronic control module for high speed monitoring of explosion events and activation of QVII Quench Valves.

Self monitoring Safety Controller with internal data storage. Status report via display.

Supply:

Power consumption:

Basis Version

Signal input:

Signal output:

Memory:

Housing:

Dimensions:

Degree of protection:

Weight:

24 VDC approx. 100 W

2 KFD2-ST2-Ex1.LB Input modules monitoring the signal cables for open and short circuit. (AGF 1012 transformer will also be used for spark detector applications and monitors the cable for open and short circuit as well)

2 QV II Quench Valve floating switch contact 230V, 5A for line #1, line #2, collective failure visual and audible alert ring memory

Polycarbonate housing with lockable door

9.21”x10.39”x5.55”(234 x 264 x 141 mm) (WxHxD)

IP 54 approx. 22.05 lbs.(10 kg) page 18 of 25 USB-EXKOM-11800/1

EXKOP

®MINI

Safety Controller

Explosion Isolation System

Log Book

Facility no: _________________

From____/______/______ To_______/_______/_____

file no.

date time event name signature page 19 of 25 USB-EXKOM-11800/1

Annex

Vacuum conditions for QV Quench Valve

If you expect vacuum conditions in the process, a bypass to the

QV Quench valve must be installed. The bypass eliminates differential pressure between the process and the interior of the

Quench seal. This bypass assures full bore opening of the

Quench Valve.

Without electrical power, the QV-Valve is closed by pressurized air from the plant network. To open the QV

Quench Valve, the air valve must be energized. The QV releases the pressurized air through the bypass. Only one ½ inch pipe must be conducted to the clean air side (vacuum side) of the filter. The bypass pipeline must withstand the expected vacuum and shall not collapse due to the vacuum. The vacuum equalization ensures a full bore opening.

The Quench Valve must be grounded to the counter flanges.

Before starting the product flow, the QV II Quench Valve must be armed through the EXKOP

®MINI

safety controller. Otherwise the Quench Valve will not ensure the full bore opening and extensive abrasion will occur on the rubber seal. This will shorten the lifetime of the Quench Valve unit.

1

2

PE

3

4

5

6

V1

Valve

Air in

P Pressure

switch

V2

Valve

Air out

page 20 of 25 USB-EXKOM-11800/1

page 21 of 25 USB-EXKOM-11800/1

page 22 of 25 USB-EXKOM-11800/1

page 23 of 25 USB-EXKOM-11800/1

page 24 of 25 USB-EXKOM-11800/1

page 25 of 25 USB-EXKOM-11800/1

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