Onboard Systems AS355 Cargo Hook Swing Suspension System Owner's Manual
The Onboard Systems AS355 Series Cargo Hook Swing Suspension System provides a means to transport jettisonable external loads. The system includes the cargo hook, a structural frame assembly, a cargo hook electrical release system, a backup cargo hook manual release system, and a load weigh system. The load weigh system provides the pilot with an indication of the weight of the load being carried on the cargo hook.
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Owner's Manual
For the
Cargo Hook Swing
Suspension System
On the
Airbus Helicopters AS355 Series
System Part Number
200-292-02
Owner's Manual Number 120-112-02
Revision 0
April 9, 2014
13915 NW 3 rd
Court Vancouver Washington 98685 USA
Phone: 360-546-3072 Fax: 360-546-3073 Toll Free: 800-275-0883 www.OnboardSystems.com
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Revision
0
Date
04/09/14
Record of Revisions
Page(s) Reason for Revision
First issue All
Current revision levels of all manuals are posted on Onboard Systems Int'l website at www.onboardsystems.com
.
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CONTENTS
Section 1 General Information
Introduction, 1-1
Explanation of Signal Words and Symbols section, 1-2
Specifications, 1-3
Inspection, 1-4
Bill of Materials, 1-5
Theory of Operation, 1-6
Section 2 Installation Instructions
Shackle Assembly Installation, 2-1
Fixed Manual Release Cable Assembly Installation, 2-3
C-39 Indicator Installation, 2-8
Electrical Wiring Installation, 2-10
Swing Suspension Installation, 2-15
Removable Manual Release Cable Assembly Installation, 2-16
External Electrical Release and Load Cell Cable Installation, 2-19
Placard Installation, 2-20
Installation Check-Out, 2-21
Component Weights, 2-22
Paper Work, 2-22
Section 3 Load Weigh Systems Operation Instructions
Indicator Front Panel, 3-1
The Run Mode, 3-2
To Zero or Tare the Display, 3-3
To Un-Zero the Display, 3-3
Error Codes, 3-4
The Setup Mode, 3-5
Indicator Dampening, 3-7
To look at, or change the dampening level, 3-7
Indicator Calibration, 3-7
To look at or change the calibration code, 3-8
Installation Zero, 3-9
To run the installation zero routine, 3-9
Calibration by Lifting a Known Weight, 3-9
To run calibration by known weight routine, 3-10
Setting the Scale on a Remote Analog Meter, 3-11
To look at or change the scale, 3-11
Select KG or LB Units, 3-12
To look at or change the units, 3-12
Indicator Version, 3-13
CONTENTS
,
continued
Section 4 Operation Instructions
Operating Procedures, 4-1
Disconnecting Removable Provisions, 4-2
Cargo Hook Loading, 4-3
Cargo Hook Rigging, 4-3
Section 5 Maintenance
Instructions for Returning a System to the Factory, 5-1
Section 6 System Part Numbers
210-209-02 AS 355 Swing Removable Provisions, 6-1
210-210-01 AS 355 Swing Fixed Provisions, 6-2
232-137-01 Shackle Assembly, 6-3
232-187-00 Release Handle Assembly, 6-4
232-151-00 Support Bracket Assembly, 6-5
232-140-01 Forward Attach Cable Assembly, 6-6
232-157-01 Aft Attach Cable Assembly, 6-7
232-142-00 Lower Attach Cable Gimbal Assembly, 6-8
232-143-01 Load Cell Gimbal Assembly, 6-9
232-172-02 Swing Hook-Frame Assembly, 6-10
232-180-00 Suspension Cable Adapter Assembly, 6-13
Section 7 Certification
FAA STC, 7-1
Canadian Approval, 7-3
Section 1
General Information
Introduction
The cargo hook suspension system provides a means to transport jettisonable external loads. The cargo hook suspension system includes the cargo hook, a structural frame assembly (referred to as suspension) which connects the cargo hook to hard points on the belly of the helicopter, a cargo hook electrical release system, a backup cargo hook manual release system, and a load weigh system.
The load weigh system includes a load cell above the cargo hook which serves as part of the structural linkage, a load weigh indicator and an internal electrical wiring harness. This system provides the pilot with an indication of the weight of the load being carried on the cargo hook.
The P/N 200-292-02 Cargo Hook Swing Suspension System kit consists of fixed provisions (P/N 210-210-01) and removable provisions (P/N 210-
209-02). The fixed provisions kit is permanently installed on the aircraft while the removable provisions kit components are easily removed when not required on the helicopter’s mission.
These kits are approved for installation on Airbus Helicopters AS355E,
AS355F, AS355F1, AS355F2, AS355N, and AS355NP.
General Information 1-1
Explanation of Signal Words and Symbols
The following definitions apply to the symbols used throughout this manual to draw the reader’s attention to safety instructions as well as other important messages.
Indicates a hazardous situation which, if not avoided, will result in death or serious injury.
Indicates a hazardous situation which, if not avoided, could result in death or serious injury.
Indicates a hazardous situation which, if not avoided, could result in minor or moderate injury.
Draws the reader’s attention to important or unusual information not directly related to safety.
Used to address practices not related to personal injury.
1-2
General Information
Specifications
Table 1-1 P/N 200-292-02 Suspension System Specifications
Design load* 3,100 lbs. (1406 kg.)
Design ultimate strength
Unit weight - Fixed Provisions
11,625 lbs. (5272 kg.)
4.5 lbs. (2.04 kg.)
Unit weight - Removable Provisions 30.5 lbs. (13.83 kg.)
Table 1-2 P/N 528-029-00 Cargo Hook Specifications
Design load* 3,600 lbs. (1,633 kg.)
Design ultimate strength 13,500 lbs. (6,124 kg.)
Electrical release capacity 9,000 lbs. (4,082 kg.)
Mechanical release capacity
Force required for mechanical release at 3,500 lb.
Electrical requirements
Minimum release load
Unit weight
Mating electrical connector
9,000 lbs. (4,082 kg.)
8 lb. Max.(.600” travel)
22-32 VDC 6.9 – 10 amps
0 pounds
3.0 pounds (1.35 kg.)
PC06A8-2S SR
* Load capacities given are for the equipment described only. Loading limits for your particular helicopter model still apply. Consult your flight manual supplement.
General Information
1-3
Bill of Materials
The following items are included with the 200-292-02 Swing Suspension
System, the 210-210-01 Fixed Provisions Kit, and the 210-209-02
Removable Provisions Kit. If shortages are found contact the company from whom the system was purchased.
Table 1-3 Bill of Materials
Part
Number
Description
120-112-02 Owner's Manual
121-019-02 RFMS
122-017-00 Cargo Hook CMM
123-017-02 ICA
210-095-00 C-39 Indicator
215-165-00 Multiple Sticker Sheet
215-176-00 Max Load 2303 Placard
215-178-00 Max Load 2500 Placard
232-137-01 Shackle Assembly
232-140-01 Forward Attach Cable Assembly
232-187-00 Release Handle Assembly
232-151-00 QD Bracket Assembly
232-156-00 Connector Bracket Assembly
232-157-01 Aft Attach Cable Assembly
232-172-02 Hook/Frame Assembly
268-030-01 Manual Release Cable Assembly
270-117-00 LW Internal Harness
270-118-00 Release Internal Harness
270-125-00 Ground Strap, Fixed
290-772-00 Indicator Mount Bracket
290-780-00 Attachment Bracket
290-783-00 Relay Bracket
445-005-00 Relay
510-029-00 Nut
510-042-00 Washer
510-062-00 Washer
510-085-00 Washer
510-095-00 Washer
510-102-00 Nut
510-277-00 Screw
510-278-00 Washer
510-279-00 Nut
510-419-00 Washer
510-453-00 Bolt
510-455-00 Bolt
510-457-00 Screw
510-475-00 Screw
510-481-00 Screw
510-486-00 Rivet
512-024-00 Adel Clamp
1
4
3
8
1
1
1
3
4
2
1
3
4
1
1
8
2
8
1
-
-
-
1
1
1
1
1
1
2
-
1
1
Fixed Kit
No.
210-210-01
1
1
-
1
1
1
-
-
1
4
3
8
1
1
1
3
4
2
1
3
4
1
1
8
2
8
1
2
1
1
1
1
1
1
1
1
2
2
1
1
Total Kit
No.
200-292-02
1
1
1
1
1
1
1
1
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
2
1
1
-
-
-
-
-
-
-
2
-
-
Removable
Kit No.
210-209-02
1
1
1
1
-
-
1
1
1-4
General Information
Bill of Materials
continued
The following items must be on the aircraft or purchased from Airbus
Helicopters or Onboard Systems to complete the installation.
Table 1-4 Airbus Helicopters Part Numbers
Airbus Helicopters
P/N
Description
ASN52320BH060N Nut
22201BE120074L Screw
23111AG120LE Washer
ASN52320BH120N Nut
Qty
8
2
4
4
Reference
ASNA0082-305
355A86-2004-00
355A86-2012-21
Bolt
Shackle
Spacer
22129BE080044L
23119AG080LE
Screw
Washer
ASNA52320BH060N Nut
23310CA015020 Pin
355A86-2007-06
355A86-2007-21
22201BE060020L
23111AG060LE
355A86-2008-20
C4913
SL211M5-1
*
Clamp, Yoke Half Assembly
Clamp, Half
Screw
Washer
Shim
Clamp
Nut Clip
DG-36 Grommet
2
2
2
2
2
2
2
2
2
8
8
16
1
3
1
Note 1: These parts are for installing the aft attachment points (at the aft landing gear cross tubes) for the swing suspension cables. See page 2-1 of this manual and
Airbus Helicopters Service Bulletin No. 25.00.04 for the AS355 for additional information.
Figure 2.1.1
Figure 2.1.1
Figure 2.1.1
Figure 2.1.1 &
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
See Note 1 below
Figure 2.2.6
Page 2-8
Figure 2.2.3
General Information
1-5
Theory of Operation
The 200-292-02 Cargo Hook Swing Suspension System is composed of:
A suspended pyramid frame that supports the cargo hook.
An electrical release system that provides means for release by pilot actuation of the push-button switch in the cockpit. When the pushbutton switch is pressed, it energizes the DC solenoid in the cargo hook, and the solenoid opens the latch in the internal mechanism.
A manual release system, which provides a means of releasing a cargo hook load in the event of an electrical release system failure. A lever mounted to the collective stick actuates it.
Ground personnel may also release a load by the actuation of a lever located on the side of the cargo hook.
A load weigh system, which is comprised of an Indicator, mounted within the cockpit connected to a load cell between the cargo hook and frame.
A load is attached to the cargo hook by passing a cargo sling ring into the throat of the load beam and pushing the ring against the upper portion of the load beam throat, which will initiate the hook to close. In the closed position, a latch engages the load beam and latches it in this position.
To release the load, the latch is disengaged from the load beam. With the latch disengaged, the weight of the load causes the load beam to swing to its open position, and the cargo sling ring slides off the load beam. The load beam then remains in the open position awaiting the next load.
1-6
General Information
Section 2
Installation Instructions
These procedures are provided for the benefit of experienced aircraft maintenance facilities capable of carrying out the procedures. They must not be attempted by those lacking the necessary expertise.
The installation of this swing suspension kit requires the presence of
Airbus Helicopters Cargo Swing fixed parts (as noted in Table 1-4). If these parts are not present on the helicopter, Airbus Helicopters Service
Bulletin No. 25.00.04 is required to supplement these installation instructions where noted.
The installation instructions for the swing suspension system are divided into separate sections (see below). Items 1 through 4 represent the fixed provisions of the kit and items 5 through 7 are the removable provisions.
Fixed Provisions
1. Shackle Installation – See Section 2.1
2. Fixed Manual Release Cable Installation – See Section 2.2
3. C-39 Indicator Installation – See Section 2.3
4. Fixed Electrical Wiring Installation – See Section 2.4
Removable Provisions
5. Swing Suspension Installation – See Section 2.5
6. Removable Manual Release Cable Installation – See Section 2.6
7. Removable Electrical Cable Installation – See Section 2.7
8. Placard Installation – See Section 2.8
To prepare the helicopter for installation of the swing suspension, remove: the pilot’s seat, instrument panel cowling and trimming, lower cowlings, and forward inspection door and LH hold door.
2.1 Shackle Assembly Installation
This installation requires that Airbus Helicopters landing gear fittings be present on the forward and aft landing gear cross beams. If the aft fittings are not present, install per Airbus Helicopters Service Bulletin No.
25.00.04.
Installation Instructions
2-1
2.1 Shackle Assembly Installation
, continued
Attach the two Shackle Assemblies (P/N 232-137-01) to the forward landing gear fittings with hardware as illustrated in Figure 2.1.1
(Airbus Helicopters part numbers are shown in italics) except at the
RH fitting install an Attachment Bracket on the inboard side as illustrated in Figure 2.1.2. Torque the nuts to 100-130 in-lbs.
At the Attachment Bracket fasten an Adel Clamp (P/N 512-024-00) with hardware as illustrated. Do not torque nut down until manual release cable is routed through (see section 2.2.).
Figure 2.1.1 LH Attach Fitting Installation
Inboard
Bolt
P/N 22201BE120074L
Nut
P/N ASN5232BH120N
Washer
P/N 23111AG120LE
Washer
P/N 23111AG120LE
Shackle Assembly
P/N 232-137-01
Figure 2.1.2 RH Attach Fitting Installation
Inboard
Attachment Bracket
P/N 290-780-00
Bolt P/N 510-453-00
Washer P/N 510-042-00
Nut P/N 510-102-00
View Looking Fwd
Adel Clamp
P/N 512-024-00
2-2
Installation Instructions
2.2 Fixed Manual Release Cable Assembly Installation
The manual release cable installation consists of a fixed section (P/N 268-
025-00) and a removable section. The fixed section is routed from the release lever at the collective, aft to an external bracket attached to the lower rear cowling, at the centerline of the forward fuel tank center bulkhead (as shown in Figure 2.2.1). Figure 2.2.1 is an overview of the cable routing and the figures following detail the cable support installations at various points.
Figure 2.2.1 Fixed Manual Release Cable Routing Overview
X1790.15
X2700
Fwd
See Figure 2.2.2
See Figure 2.2.3
Manual Release Cable
View Looking Down
A/C
Centerline
See Figure 2.1.2
Manual Release Cable
See Figure 2.2.4
See Figure 2.2.5
View Looking Outbd from A/C Centerline
Y400
Installation Instructions
2-3
2.2 Fixed Manual Release Cable Assembly Installation
continued
Mount the Release Handle Assembly (P/N 232-187-00) to the collective stick with the Clamp Half (P/N 290-879-00) and two screws
(P/N 510-390-00) provided pre-assembled on the assembly, as illustrated below.
Figure 2.2.2 Manual Release Lever Installation
Release Handle Assembly
P/N 232-187-00
Screws
P/N 510-390-00
2-4
Route the cable to underneath the cabin floor through the existing slot* by removing the grommet to allow the cable end fitting to be fed through.
* If the slot in floor does not exist, create one with dimensions as shown below in the cabin floor 43 mm from the collective pitch lever unit and 150 mm forward of the frame at X1790.15 (see below) and install and slit the grommet (Airbus Helicopters P/N DG-36).
Re-install grommet.
Figure 2.2.3 Cabin Floor Hole Detail
35mm
Ø25mm
Collective Pitch
Lever Unit
43mm
Fwd
A/C Centerline
150mm FROM X 1790.15
VIEW LOOKING DOWN
Installation Instructions
2.2 Fixed Manual Release Cable Assembly Installation
continued
Underneath the floor, route the manual release cable through the frame immediately aft of the collective (see Figure 2.2.4). Secure the cable at this frame with an Adel clamp (P/N 512-024-00). Fasten the adel clamp to the existing bracket
*
with hardware as illustrated below.
*
If the bracket is not present install it per Airbus Helicopters Service
Bulletin No. 25.00.04.
Figure 2.2.4 Cable Routing Through Frame
Cabin Floor
A
Bolt P/N 510-453-00
Washer P/N 510-042-00
Nut P/N 510-102-00
Adel Clamp
P/N 512-024-00
A-A
A
View Looking Aft
Installation Instructions
2-5
2.2 Fixed Manual Release Cable Assembly Installation
continued
At the RH forward landing gear fitting (X2700) secure the cable to the bracket with the adel clamp installed per Figure 2.1.2.
Install Quick Disconnect Support Assembly (P/N 232-151-00) on the
RH rear lower cowling (with the cowling removed) at a location
400mm (15.7 in.) to the right of the A/C centerline (reference Figure
2.2.1). Utilize the existing insert holes
*
in the lower cowling structure.
Secure with fasteners provided pre-assembled on the bracket as illustrated below.
*
If your helicopter does not have these two holes in the cowling, modify panel per Airbus Helicopters Service Bulletin No. 25.00.04.
Figure 2.2.5 Support Bracket Installation
Y400
Washer (2)
P/N 510-454-00
Nut (2)
P/N 510-102-00
Bolt (2)
P/N 510-455-00
Quick Disconnect
Support Assembly
P/N 232-151-00
2-6
Installation Instructions
2.2 Fixed Manual Release Cable Assembly Installation
continued
Install a clamp (Airbus Helicopters P/N C4913) in the rear lower cowling:
(the clamp will support the removable section of the manual release cable).
Install an insert in the cowling 9.45 inches (240 mm) aft of and in line with the two holes for the Quick Disconnect Support Assembly (see
Figure 2.2.6). Install the insert in accordance with chapter 02.120 of
Airbus Helicopters’ Standard Practices Manual.
Install the clamp as shown per A-A of Figure 2.2.6 with hardware shown.
Figure 2.2.6 Cable Support Clamp Installation
Nut
P/N 510-102-00
9.45 in. (240 mm)
Washer
P/N 510-454-00
A
15.75 in.
(400 mm)
A/C Centerline
A
Bolt
P/N 510-455-00
Eurocopter Clamp
P/N A3125-2 H179
A-A
Rotated 90°
Fwd
Installation Instructions 2-7
2.3 C-39 Indicator Installation
The C-39 Indicator is mounted on the RH door pillar.
If nut clips are not pre-installed in the door pillar, install them per the following.
Hold the Indicator Bracket (P/N 290-772-00) at a location as shown below and transfer its hole pattern to the door pillar.
Figure 2.3.1 Indicator Bracket Installation
Fwd
RH Door Pillar
C-39 Indicator Bracket
P/N 290-772-00
View Looking Outbd
Drill three mounting holes in the RH door pillar to install the nut clips
(Airbus Helicopters P/N SL211M5-1). Reuse the electrical bonding screw at the fourth location (see below).
After completing electrical bonding, install the three nut clips.
Fasten Indicator Bracket with three screws (P/N 510-475-00) and three washers (P/N 510-095-00).
2-8
Installation Instructions
2.3 C-39 Indicator Installation
continued
Figure 2.3.2 Indicator Bracket Hardware
Electrical Bonding Screw
Screw
P/N 510-475-00
Washer
P/N 510-095-00
Install the C-39 Indicator (P/N 210-095-00) onto the bracket with hardware as illustrated below.
Figure 2.3.3 C-39 Indicator Installation
A
C-39 Indicator
Screw P/N 510-457-00 (4)
A
CAL
DAMP
Hook Lo
X 10 ad
0 LB KG
UN-ZERO
SETUP
ZERO
A-A
Installation Instructions
2-9
2.4 Electrical Wiring Installation
Install electrical harnesses (P/N 270-117-00 and P/N 270-118-00). Route them along the existing harnesses (reference Figure 2.4.1) where possible while observing the following precautions: o Pick up existing wire runs by opening existing cable clamps. Nylon ties alone may not be used for primary support. o The distance between supports should not exceed 21 inches. o Bend radius of wire or harness must not be less than 10 times the wire or harness diameter. o Inspect and verify that the wire harness may not be manually deflected into a structure with a bend radius of less than .13”.
Make the appropriate connections to overhead panel with butt splices and other connections with contacts. These items are supplied with wire harnesses. Refer to
Figure 2.4.2 for electrical wiring schematic.
Figure 2.4.1 Electrical Wiring Routing Overview
20
Printed Circuit Board
Fwd
13
13
Mission Selector
Cyclic Stick
30M
Load Indicator
1N Ground 3N Ground
View Looking Down
7
2
RH Side Overhead Panel
23M Relay
20
Printed circuit board
1N Ground
2-10
3N Ground
23 M Relay
32M Connector
Installation Instructions
Figure 2.4.2 Wiring Schematic
PP13
4 PP1
4 PP1
OR AT IC C-39 IND
E 1N E3 1M
Installation Instructions
2-11
2.4 Electrical Wiring Installation
continued
Install relay per the following:
Install Relay Bracket (P/N 290-783-00). Create two holes (if replacing
Airbus Helicopters relay, use an existing hole and drill another to match bracket hole spacing, maintain 4D edge distance between holes) in the LH beam as illustrated in Figure 2.4.3.
Figure 2.4.3 Relay Bracket Installation
140 mm
(5.50 in.)
Baggage Compartment
Floor
2-12
190 mm (7.50 in.)
Ø4.3 mm
(0.169 in)
Ø5.0 mm
(0.200 in)
33 mm
(1.30 in.)
Secure Relay Bracket with two screws (P/N 510-277-00 and 510-453-
00), two washers (P/N 510-278-00 and 510-419-00), and two nuts
(P/N 510-279-00 and 510-102-00). The larger screw will be used to attach a ground strap to the other side of the airframe beam at a later step.
Place relay socket (part of 270-118-00 electrical harness) into relay bracket mounting holes from below and secure to relay and relay bracket with hardware provided with relay (as illustrated below).
Figure 2.4.4 Relay Installation
Up
Fwd
Relay
P/N 445-005-00
Relay Bracket
P/N 290-783-00
Larger screw is installed here.
Smaller screw is installed here.
Relay Socket
P/N 445-004-00
(part of 270-118-00 electrical harness)
Installation Instructions
2.4 Electrical Wiring Installation
continued
Install Connector Bracket Assembly (P/N 232-156-00) per the following: o Locate Connector Bracket Assembly on the fuel tank bulkhead, 12.60 inches (320 mm) left of the aircraft centerline and low on the fuel tank bulkhead structure below the fuel tank and such that the fasteners can be installed above the flange on the opposite side of the bulkhead structure (see Figure 2.4.5).
If this location is not available the Connector Bracket may be moved to the right along the fuel tank bulkhead, but before securing the
Connector Bracket in this location verify that the electrical harnesses on the swing assembly will reach and will not be pulled tight in any position within the cargo hook and swing frame assembly range of movement.
Rivets are provided with the kit to secure the connector bracket but this bracket may optionally be attached with equivalent sized screws*, washers and self-locking nuts.
* 3 mm screws (e.g.- Airbus Helicopters P/N 22125BC030010L) or 4-
40 screws (MS35206 series) of appropriate length. o Drill (4) 0.129 inch (3.3 mm) holes in the structure to match the hole pattern in the Bracket Assembly or new .129 inch holes may be created in the Bracket Assembly to accommodate the installation location. Maintain minimum 2D edge distance and 3D spacing on the holes. o Fasten with (4) rivets (P/N 510-486-00) or fasteners as noted above. o Create slot in lower cowling directly below the Bracket Assembly per dimensions in Figure 2.4.5. Verify that the slot will accommodate removal and re-installation of connectors when the fairing is installed.
Figure 2.4.5 Connector Bracket Installation
Fwd
Fuel Tank Bulkhead
Rivets (4) or screws, washers and nuts (4)
3.13 in.
(80 mm)
View A-A
Slot Detail
1.75 in.
(45 mm)
A A
Connector Bracket Assembly
P/N 232-156-00
Installation Instructions
Lower Fairing
2-13
2.4 Electrical Wiring Installation
continued
o Fasten hook release connector (32M) and load cell connector (55M) to the Connector Bracket with screws (P/N 510-481-00), washers (P/N
510-062-00), and nuts (P/N 510-029-00).
Important: Install screws with their heads on the bottom side of bracket flange (if nuts are installed on bottom side they will interfere with mating connector). o Install electrical markers (P/N 215-165-00). o Install Ground Strap (P/N 270-125-00) terminal onto the inboard side of the LH airframe beam (on the opposite side from the Relay Bracket) using the forward Relay Bracket mounting hardware. Bond to airframe per Airbus Helicopters electrical bonding procedure. Refer to section 20.02.07 of the Airbus Helicopters Standard Practices Manual.
Figure 2.4.6 Ground Strap Installation
Inboard side of LH beam at Y=400
Forward
Attach using forward
Relay Bracket mounting hardware o Route the Ground Strap to the load weigh and electrical release harnesses installed previously and route with these harnesses, while securing with ty-wraps, to their termination points at the Connector
Bracket. Route the Ground Strap around the Connector Bracket and position it such that the disconnect fitting at the end can be routed through the connector access hole and extended below the lower fairing (when installed). o Re-install lower fairings.
2-14
Installation Instructions
2.5 Swing Suspension Installation
Install the cable assemblies onto the swing suspension frame with hardware provided pre-assembled onto the cable clevis end. Fasten the two shorter cable assemblies (P/N 232-140-01) onto the forward pivot points of the suspension frame and the two longer cable assemblies (P/N 232-157-01) to the aft pivot points. Torque the castellated nuts on the pivot bolts to 20 ft-lbs., then rotate nut to next castellation, not to exceed 30 ft-lbs. Install and secure cotter pins.
The forward end of the suspension is determined by the orientation of the cargo hook. When the suspension is installed the cargo hook
load beam must point to the left side of the helicopter (the manual release cable is routed to the right side of the helicopter).
Install the Swing Suspension onto the aircraft by attaching the forward suspension cables to the inboard holes of the forward Shackle
Assemblies (shown in Figure 2.5.1) and the aft suspension cables to the Airbus Helicopters shackles (shown in Figure 2.5.2). Install the attached safety pins at each Quick Release Pin.
Figure 2.5.1 Forward Suspension Cable Attachment
Shackle Assembly
Quick Release Pin
Safety Pin
Figure 2.5.2 Aft Suspension Cable Attachment
Shackle
(Eurocopter P/N 355A86-2004-00)
Safety Pin
Quick Release Pin
Installation Instructions
2-15
2.6 Removable Manual Release Cable Assembly Installation
Connect the manual release cable (P/N 268-030-01) to the cargo hook per the following instructions: o Remove the manual release cover from the cargo hook by removing two screws (see below).
Figure 2.6.1 Manual Release Cover Removal
Remove these two screws.
o Thread the fitting at the end of the manual release cable into the manual release boss on the cargo hook side plate until the threads protrude approximately .125 inches beyond the boss and secure with jam nut (as shown in Figure 2.3). Leave the manual release cover off of the cargo hook until the other end of the release cable is connected, in order to verify proper setting.
Figure 2.6.2 Initial Release Cable Adjustment
boss
Manual Release Cable
2-16
jam nut
Approx. .125 in. (3.2mm)
Installation Instructions
2.6 Removable Manual Release Cable Assembly Installation
continued
Route the cable from the hook to the end of the fixed manual release cable as illustrated below, routing it through the supporting clamp installed on the cowling per Section 2.2.
Figure 2.6.2 Release Cable Routing
Forward
Manual Release Cable
View Looking Down
Connect the other end of the removable cable assembly to the end of the fixed cable by sliding the Adapter Fitting back to expose the swaged cable end fitting and connecting this fitting to the swaged cable end fitting on the fixed cable as shown below.
The pre-set compressed spring length is set at the factory to be 1.94/2.00 inches (see below). If necessary, minor adjustments can be made at the release handle assembly on the collective.
Thread the Adapter Fitting on the removable cable onto the fixed cable adapter fitting and lock in position by engaging a castellation with the
Locking Pin (P/N 514-052-00).
Snap the removable cable Adapter Fitting into the inboard spring clip on the Support Bracket Assembly.
Figure 2.6.3 Manual Release Cable Connection
Removable Manual Release Cable
Adapter Fitting
Fixed Manual Release Cable
Adapter Fitting
Installation Instructions
1.94/2.00
Locking Pin
P/N 514-052-00
2-17
2.6 Removable Manual Release Cable Assembly Installation
continued
Verify proper setting at the hook:
o Place the cable ball end fitting into the hook manual release fork fitting as illustrated in Figure 2.6.4. o With the cargo hook load beam closed and locked, rotate the release lever in the clockwise direction to remove free play (the free play is taken up when the hook lock indicator begins to move, this is also felt as the lever rotates relatively easily for several degrees as the free play is taken up) and check the gap between the cable ball end and the release lever fork with the manual release lever in the cockpit in the non-release position. This gap should be a minimum of .125 inches
(3.2 mm) as shown in Figure 2.6.4.
Figure 2.6.4 Manual Release Cable Rigging
Release Lever
Hook Lock Indicator
Cable Ball End
Manual Release Cable
.125 in. min.
(3.2 mm)
Release Lever Fork
Load beam must be closed and locked for rigging.
o If the gap does not measure at least .125” (3.2 mm), make adjustments at the hook only. This is done by disconnecting the cable at the interface with the fixed manual release cable (Figure 2.6.3), loosening the jam nut, and rotating the cable in the required direction.
Manual Release Cable Installation Checkout:
o Move hook and swing frame throughout its range of motion while observing free play. At no point should the free play be less than
.030” (.8 mm). o
Check that the cable housing is not kinked or pulled tight in any hook and swing frame position.
o Re-install manual release cover.
2-18
Installation Instructions
2.7 External Electrical Release and Load Cell Cable Installation
Table 2-1 Cargo Hook Connector
Pin Function
A
B
Ground
Power
The cargo hook is equipped with a suppression diode that will be damaged if the cargo hook electrical connection is reversed.
Connect the Ground Strap from the hook to the fixed ground strap installed per section 2.4.
Connect the electrical release cable to the appropriate connector (32M) mounted per section 2.4.
Connect the electrical cable from the load cell (55M) to the appropriate connector (55M) mounted per section 2.4.
Installation Instructions
2-19
2.7 External Electrical Release and Load Cell Cable Installation
continued
Un-commanded cargo hook release will happen if the manual release cable is improperly restrained.
The cable must not be the stops that prevent the
Cargo Hook from swinging freely in all directions.
If the Cargo Hook loads cause the hook to strain against the manual release cable the swaged end of the cable may separate allowing the inner cable to activate the cargo hook manual release mechanism. The result is an un-commanded release. Ensure that no combination of cyclic stick or Cargo Hook position is restrained by the manual release cable.
Figure 2.7.1 Un-commanded Release From Incorrectly Secured Cable
2.8 Placard Installation
Install appropriate load limitation placard, P/N 215-176-00 (2303 lb Max. Hook
Load) or P/N 215-178-00 (2500 lb Max Hook Load) depending on your model.
The AS355E, F, and F1 models have a 2303 lb. (1045 kg) maximum external load limitation. The F2, N, and NP models have a 2500 lb (1045 kg) maximum external load limitation. Verify the correct external load limit by checking the appropriate flight manual.
Locate the placard on the belly of the helicopter, visible to the ground operator and near the hook.
2-20
Installation Instructions
2.9 Installation Check-Out
After installation of the Cargo Hook Swing Suspension System, perform the following functional checks.
1. Swing the installed Cargo Hook on the suspension to its full extremes to ensure that the manual release cable assembly and the electrical release cable have enough slack to allow full swing of the cargo hook assembly without straining or damaging the cables. The cables must not be the stops that prevent the Cargo Hook from swinging freely in all directions.
2. Swing the Suspension to its full extremes to ensure that the manual release cable assembly and the electrical release cable have enough slack to allow full swing of the Suspension without straining or damaging the cables. The cables must not be the stops that prevent the
Suspension from swinging freely in all directions.
3. With no load on the cargo hook load beam, pull the lever operated cargo hook mechanical release, the Cargo Hook should release. Reset the cargo hook load beam.
4. With no load on the cargo hook load beam, depress the cargo hook electrical release button, the Cargo Hook should release. Reset the cargo hook load beam.
5. Perform an EMI ground test per AC 43.13-1b section 11-107. For equipment that can only be checked in flight an EMI flight test may be required.
The cargo hook and load weigh system are of a class of equipment not known to have a high potential for interference. This class of equipment does not require special EMI installation testing (i.e. FADEC) as required in paragraphs 7 and 8 of FAA policy memorandum
ASW-2001-01.
6. Power on the Indicator and allow it to warm up for 5 minutes (with no load on the hook). Press both Indicator buttons at the same time to go to the Setup Mode. Scroll through the menu until the symbol “0 in” is displayed, then press the right button. Remove any weight that is not to be zeroed out and press either button to complete the procedure.
Installation Instructions
2-21
2.10 Component Weights
The weights of the Cargo Hook Swing Suspension System components are listed below.
Table 2-2 Component Weights
Item Weight Station
Fixed Provisions 4.5 lbs (2.04 kg.) 92 in. (2337 mm)
Removable Provisions 30.5 lbs (13.83 kg.) 134.4 in. (3414 mm)
Complete Install 35 lbs (15.87 kg.)
128.9 in (3275 mm)
2.11 Paper Work
In the US, fill in FAA form 337 for the initial installation. This procedure may vary in different countries. Make the appropriate aircraft log book entry. Install the Rotorcraft Flight Manual Supplement P/N 121-019-02 in the Rotorcraft Flight Manual.
2-22
Installation Instructions
Section 3
Load Weigh System Operation Instructions
Indicator Front Panel
The C-39 Indicator front panel includes the following features.
The four 7 segment LCD digits show the weight on the Cargo Hook and display various setup information.
The Legends clarify the digital display, i.e. - when the LB Legend is turned on, the display will be pounds, etc.
The right button is used to Zero the display in the Run Mode and select the digit to be changed in the Setup Mode.
The left button is used to Un-Zero the display in the Run Mode and scroll the selected digit in the Setup Mode.
Figure 3.1 Front Panel
Calibration &
Dampening
Legend
Zero & Un-Zero Legend
Unit Legend
Digits
Right Button Left Button
Load Weigh System Operation Instructions 3-1
The Run Mode
The C-39 Indicator has two operating modes, Run and Setup. The Run
Mode is used to display the cargo hook weight and the Setup Mode is used to setup or configure the Indicator to the helicopter and to the Load Cell.
When powered up, the Indicator always comes on in the Run Mode.
After the Indicator has been correctly installed, power it up by activating the aircraft electrical system. The Indicator will go through a self-diagnostic routine. During this routine the display will display all of the digits and legends. If a problem is found during the routine an Error Code will be displayed. For an explanation of Error Codes see the section Error Codes.
After the diagnostic routine the display should look like this:
Figure 3.2 After Diagnostic Routine
3-2
The illustration is of the Indicator in the Run Mode with no load on the hook. Note the LB legend displayed.
Figure 3.3 LB Legend Displayed
The illustration is a typical hook load reading. The display is 3,500 pounds, note the last digit is not displayed.
Load Weigh System Operation Instructions
To Zero or Tare the Display
The zero feature is used to zero or tare the weight on the Cargo Hook that is not wanted, such as the weight of a cargo net or long line. The Right button is used to zero the Indicator reading. When the Right button is pressed the display is zeroed. The zero legend is turned on and the zeroed number is stored in memory. If the Right button is pressed again, before the Un-zero button is pressed, the display blinks in response to the button closure. Zero is only available in the Run Mode.
Figure 3.4 Zeroing the Display
Zero Legend
Un-Zero Legend
To Un-Zero the Display
The Left button is used to add the zeroed value back into the current
Indicator reading or Un-zero the display. When the Left button is pressed, the number previously zeroed is added to the current display and the Unzero legend is turned on. If the Left button is again pressed before the zero button is pressed, the display blinks in response to the button closure. Un-
Zero is only available in the Run Mode.
Load Weigh System Operation Instructions 3-3
The Run Mode continued
Error Codes
Error Codes are the result of difficulties discovered during the Indicator diagnostic tests. Diagnostic tests occur at power up and during the execution of certain routines. Listed below is a matrix of the Error Code displays, their meaning and possible corrective action. Pressing either button will usually bypass the error code, however, the displayed information may be suspect.
Table 3-1 Indicator Error Codes
DISPLAY CAUSE
POSSIBLE
CORRECTIVE ACTION
Err 1 A/D or D/A circuit failure Potential short in the optional analog meter cable. Clear short and power cycle the Indicator by turning the power to the
Indicator off for a few moments. If Error Code continues, return the Indicator to the factory.
Err 2 NV Ram failure
Err 3 NV Ram write failure
Err 4 NV Ram busy failure
Power cycle the Indicator; if
Error Code continues, return the Indicator to the factory.
Re-enter data, if Error Code continues, return the Indicator to the factory.
Power cycle the Indicator, if
Error Code continues return the Indicator to the factory.
3-4
Load Weigh System Operation Instructions
The Setup Mode
The C-39 Indicator can be used with a wide range of helicopters and load cells. The Setup Mode on the Indicator matches the Indicator to the Load
Cell and to the helicopter. This is done by entering data into the Indicator.
Entered data includes the load cell Calibration Code, the units that the
Indicator should read-out (pounds or kilograms), and several other items.
The Indicator has a group of Setup routines, arranged in menu form, that are used to configure the Indicator. Shown on the next page is a matrix of the
Setup routines and a brief discussion of their function and how they are programmed. A complete discussion of each setup item is presented later in this section.
To enter the Setup Mode press both the Right and Left buttons at the same time while the Indicator is powered up and in the Run Mode. To exit the
Setup Mode and return to the Run Mode, press both the buttons at the same time. If you are in a Setup routine and have started to change an entry, but you change your mind before completing the procedure, power cycle the
Indicator to exit the Setup Mode and then go to the Run Mode without changing the item. The Indicator is power cycled by turning the Indicator power off for a few moments.
Load Weigh System Operation Instructions 3-5
The Setup Mode,
continued
Table 3-2 Indicator Setup Routines
MENU
Press the Left button to scroll through the menu
FUNCTION
Press the Right button to view or change the menu item.
DAMP
Dampening Level, sets the pilots preference for display dampening.
CODE
0 in
LOAD
Scale
LB KG
XX - V
Calibration Code, matches the Indicator to the
Load Cell.
Installation ZERO, matches the Indicator to the installed Load Cell and to the helicopter.
After this procedure the display will be zero when no load is on the Cargo Hook.
Load, is used to calibrate the system by lifting a known load.
Scale, matches the analog output of the
Indicator to an optional remote analog meter.
Units, selects the Indicator units (pounds or kilograms).
Version, is the revision level of the Indicator hardware and software.
DISPLAY
To return to the Run Mode press both the
Right and Left buttons at the same time.
Blinking display is previously entered
Dampening Level. Select the desired dampening level by pressing the Left button.
Display is previously entered CAL Code.
The Code is changed by selecting the digit to be changed with the Right button. The selected digit will blink. Change the blinking digit by pressing the Left button.
Display is a combination of load on the
Load Cell, and normal load cell zero offset. Remove all weight from the installed Load Cell except the Cargo
Hook, and press any button to complete the procedure and return to the Run Mode.
No previous display is shown. Enter the known load using the Right button to select the digit to be changed and Left button to enter the number. Known load is entered "X 10" i.e.; 5000 kilograms is entered as 500. After the known load is entered, press both buttons at the same time and lift the known load. When the load is stabilized press either button. A new Calibration Code will be calculated and the known load will be displayed. This completes the procedure.
Display is previously entered number. To change the number use the Right button to select a digit, use the Left button to scroll the digit to the desired number. Entry is times 10.
Display is previously selected unit. To change the unit, use the Left button.
Version is for information only, it cannot be changed.
3-6
Load Weigh System Operation Instructions
The Setup Mode,
continued
Indicator Dampening
The Damp or dampening routine allows the pilot to adjust the Indicator dampening level to his preference. The dampening routine is a program that stabilizes the Indicator reading. It offers a trade-off between Indicator responsiveness and stability. Ten dampening levels are available, from 0 through 9. At level 0 the display responds to the slightest change in weight.
However, if the load bounced even slightly, the display digits would respond instantly, making the display look unstable. With a dampening level of 9, the display would be stable under the most turbulent conditions, however, it would take several seconds for the display to respond to a change in weight.
The ideal dampening level will depend on the flying conditions. A mid range setting of 5 or 6 is usually adequate.
To Look at or Change the Dampening Level
With the Indicator powered up and in the Run Mode, press both buttons at the same time to go to Setup. Scroll through the menu, using the Left button, until the word DAMP is displayed. To look at or change the Dampening
Level press the Right button. The display should look like this:
Figure 3.5 Changing Dampening Level
The CAL and the DAMP legend is turned on and the previously set dampening level is displayed. To return to Run without changing the current dampening level press both the Right and Left buttons at the same time. To change the dampening number, use the Left button to scroll the blinking digit to the desired number. After the selection has been made press both the
Right and Left buttons at the same time to return to Run.
Indicator Calibration
The Calibration Code, or CAL code, is a mandatory input. The Indicator will not accurately display the load without the correct Calibration Code.
The Calibration Code scales the signal from the Load Cell.
Load Weigh System Operation Instructions
3-7
The Setup Mode,
continued
Indicator Calibration, continued
If the C-39 Indicator was supplied as part of a Load Weigh System, the
Calibration Code will have been entered into the Indicator by the factory, however, it should be confirmed. If the Indicator is to be mated to a different
Load Cell, it must be calibrated before use. Calibration can be done by entering a known Calibration Code or by lifting a known load and having the Indicator calibrate itself. Both options are discussed below.
To Look at or Change the Calibration Code
With the Indicator powered up and in the Run Mode, press both buttons at the same time to go to Setup. Scroll through the menu until the word CODE is displayed, then press the Right button. The display should look like this:
Figure 3.6 Changing the CAL Code
3-8
The CAL legend is turned on and the previously entered or computed
Calibration Code is displayed. To return to Run without changing the CAL
Code, press both the Right and Left buttons at the same time. To change the
Calibration Code, use the Right button to select the digit to be changed, then use the Left button to scroll the blinking digit to the desired number. When the Calibration Code has been entered, press both the Right and Left button at the same time to return to Run.
Depending on the type of Load Cell, the
Calibration code could be a 3 or 4 digit number. If the Calibration Code is a 3 digit number a leading zero (0) must be used. For example if a Load Cell had a CAL Code of 395 it would be entered as
0395.
Load Weigh System Operation Instructions
The Setup Mode,
continued
To Look at or Change the Calibration Code, continued
If the load cell Calibration Code is not known or as a cross check, the
Indicator can generate the Calibration Code. This is done by entering the weight of a known load into the Indicator LOAD routine and then lifting the load. See the section Calibration by Lifting a Known Load.
Installation Zero
Installation zero is a routine that matches the Indicator to the INSTALLED
Load Cell. It adjusts the Indicator reading to compensate for the weight of the Cargo Hook on the Load Cell and whatever zero offset is built into the
Load Cell. The Installation Zero procedure is not mandatory. If done the
Indicator will read zero when the Un-Zero button is pressed and there is no weight on the Cargo Hook. If the Installation Zero is not done, the Indicator will show the weight of the Cargo Hook plus the value of the Load Cell zero offset.
To Run the Installation Zero Routine
With the Indicator powered up and in the Run Mode, press both buttons at the same time to go to Setup. Scroll through the menu until the symbol "0 in" is displayed, then press the Right button. The CAL legend will be turned on and the current weight on the Cargo Hook will be displayed and blinking.
Remove any weight that is not to be zeroed out and press either button to complete the procedure and return to the Run Mode.
Calibration by Lifting a Known Weight
Calibration by lifting a known weight is a Setup routine that calculates the
Calibration Code for the Load Cell attached to the Indicator. It is useful if the load cell Calibration Code is not known or as a cross check to the accuracy of a known Calibration Code. The procedure is done by entering the known weight into the Indicator and then lifting the weight. This procedure can be done in the shop or on the helicopter. The accuracy of the procedure is directly related to the weight of the known load. If for example the procedure was done with a 1,000 pound load that was assumed to weigh only 900 pounds, all subsequent lifts would be displayed 10% light.
Be sure to include the weight of everything between the Cargo Hook and the load, i.e. the
cable, net, dirt, etc.
The closer the known load approaches the lifting capacity of the helicopter, the more accurate the calculated Calibration Code will be.
Load Weigh System Operation Instructions
3-9
The Setup Mode,
continued
To Run the Calibration by Lifting a Known Weight Routine
With the Indicator powered up and in the Run Mode, press both buttons at the same time to go to Setup. Scroll through the menu until the word LOAD is displayed, then press the Right button. The display should look like this:
Figure 3.7 Running CAL Routine
The CAL legend is turned on and the first digit is blinking. The previous load is not displayed. At this point if you wish to return to the Run Mode without changing the Calibration Code, power cycle the Indicator. At this point it is not possible to return to the Run Mode without changing the
Calibration Code by using the buttons on the Indicator front panel.
To proceed with the procedure, use the Right button to select the digit to be changed, then use the Left button to scroll the blinking digit to the desired number. Note that the known weight is entered "X 10"; a 1000 pound load is entered as 100. When the known load has been entered, press both the Right and Left button at the same time. The display will look like this:
Figure 3.8 Entering Load in CAL Routine
3-10
Load Weigh System Operation Instructions
The Setup Mode,
continued
Calibration by Lifting a Known Weight, continued
The CAL legend and the digits will be blinking. Again, at this point if you wish to return to the Run Mode without changing the Calibration Code, power cycle the Indicator. It is not possible to return to the Run Mode by using the buttons on the Indicator front panel without changing the
Calibration Code. If you wish to proceed, lift the known load and when it is stabilized, press either button to complete the procedure. The Indicator will display the load. This ends the procedure. The Indicator is now calibrated to the Load Cell. It is a good practice to go to the Code routine and record the new Calibration code for later reference.
Setting the Scale for a remote analog meter
The Scale routine is used when a user supplied analog meter is connected to the Indicator. It is used to match or calibrate the analog meter to the
Indicator. The Indicator outputs a 0 to 5 VDC analog signal which is proportional to the Load Cell load. The Scale number tells the Indicator at what point in pounds or kilograms it should reach the 5 VDC output. If for example a 5 volt analog meter is used and its full scale reading is 10,000 pounds, the number entered into the Indicator Scale routine would be 1000
(the number is entered X 10). This number tells the Indicator that it should output the proportional 0 to 5 VDC signal between zero pounds and 10,000 pounds.
The Scale number does not affect Onboard Slave Meters, P/N 210-106-00 or
210-180-00. This number only affects user supplied instruments connected to the analog out signal.
To Look at or Change the Scale
With the Indicator powered up and in the Run Mode, press both buttons at the same time to go to Setup. Scroll through the menu until the word
SCALE is displayed, then press the Right button. The display should look like this:
Figure 3.9 Changing the Scale
Load Weigh System Operation Instructions
3-11
The Setup Mode,
continued
To Look at or Change the Scale, continued
The CAL legend is turned on and the previously set Scale number is displayed. To return to Run without changing the Scale, press both the Right and Left button at the same time. To change the Scale number, use the Right button to select a digit to be changed, then use the Left button to scroll the blinking digit to the desired number. When the complete Scale number has been entered, press both the Right and Left button at the same time to return to Run.
Select KG or LB Units
The units routine sets the display to read in pounds (LB) or kilograms (KG).
To look at or change the Units
With the Indicator powered up and in the Run Mode, press both buttons at the same time to go to Setup. Scroll through the menu until the word LB or
KG is displayed, then press the Right button. The display should look like this:
Figure 3.10 Changing the Units
3-12
The CAL legend is turned on and the previously set unit is displayed. To return to Run without changing the units, press both the Right and Left button at the same time. To change the units press the Left button. When the selection has been made, press both the Right and Left button at the same time to return to Run.
The selected units are displayed when in the Run
Mode.
Load Weigh System Operation Instructions
The Setup Mode,
continued
Indicator Version
The Version routine displays the Indicator's hardware and software revision levels. Version is set at the factory and cannot be changed.
Figure 3.11 Looking at Indicator Version
Load Weigh System Operation Instructions
3-13
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Section 4
Operation Instructions
Operating Procedures
Prior to a flight involving external load operations perform the following:
1. Activate the electrical system and press the Cargo Hook release button to ensure the cargo hook electrical release is operating correctly. The
Cargo Hook must release. Reset the hook by hand after the release. If the hook does not release or re-latch, do not use the unit until the difficulty is resolved.
The release solenoid is intended to be energized only intermittently. Depressing the electrical release button continuously in excess of 20 seconds will cause the release solenoid to overheat, possibly causing permanent damage.
2. Actuate the manual release lever to test the cargo hook manual release mechanism. The mechanism should operate smoothly and the Cargo
Hook must release. Reset the hook by hand after release and ensure the cargo hook is locked by checking the hook lock indicator on the side of the cargo hook (see Figure 4.1). If the hook does not release or relatch do not use the unit until the difficulty is resolved.
Figure 4.1 Hook Lock Indicator
Operation Instructions
3. Swing the installed Cargo Hook and the suspension to ensure that the manual release cable and the electrical release cable have enough slack to allow full swing of each component without straining or damaging the cables. The cables must not be the stops that prevent the Cargo Hook or the suspension from swinging freely in all directions.
4. Visually check for presence and security of fasteners, and condition of cables. Swing the Cargo Hook and the suspension in fore and aft and side to side directions to check for freedom of rotation at all joints.
4-1
Disconnecting Removable Provisions
For helicopter missions in which the cargo hook swing suspension system is not needed, its removable provisions may be removed per the following instructions.
1. Remove the removable section of the manual release cable by unclipping it from the bracket on the belly of the helicopter, disengaging the locking pin and unthreading the Adapter Fitting. Unclip the Release
Cable Cap (see below) from the bracket and thread it over the open end of the fixed manual release cable assembly and clip it into the inboard spring clip on the bracket.
Figure 4.2 Manual Release Cable Removal
Release Cable Cap
Fwd
Inbd
2. Remove the electrical cables and ground strap at the belly of the helicopter.
3. Remove the Swing Suspension by removing the four safety pins and then the quick release pins that secure the cables to each of the shackle assemblies.
Figure 4.3 Suspension Removal
Shackle Assembly
Safety Pin
Quick Release Pin
4-2
Operation Instructions
Cargo Hook Loading
The cargo hook can easily be loaded with one hand. A load is attached to the hook by pushing the ring upward against the upper portion of the load beam throat, as illustrated in Figure 4.4, until an internal latch engages the load beam and latches it in the closed position.
Figure 4.4 Cargo Hook Loading
Cargo Hook Rigging
Extreme care must be exercised when rigging a load to the Cargo Hook.
Steel load rings are recommended to provide consistent release performance and resistance to fouling. The following figure shows the recommended rigging and rigging to avoid, but is not intended to represent all rigging possibilities.
It is the responsibility of the operator to assure the cargo hook will function properly with each rigging.
Operation Instructions
4-3
Cargo Hook Rigging,
continued
Multiple load rings, nylon type straps (or similar material) or rope must not be used directly on the cargo hook load beam. If nylon straps or rope must be used they should be first attached to a steel primary ring. Verify that the ring will freely slide off the load beam when it is opened. Only a single primary ring should be in contact with the cargo hook load beam.
Figure 4.5 Example of Recommended Cargo Hook Rigging
Recommended Avoid
Primary Ring
4-4
Long Line
Operation Instructions
Cargo Hook Rigging
continued
To serve as a primary ring Onboard Systems manufactures a steel shackle assembly (Isolated Shackle Assembly P/N 530-023-00) designed for use directly on the load beam of the Talon LC Keeperless Cargo Hooks. The size of the opening through which a long line or other rigging accessory is attached to is shown below. The Isolated Shackle Assembly is rated for
3,600 lbs. (1633 kg). After attaching rigging, torque the nut to a maximum of 150 in-lbs.
Figure 4.6 Isolated Shackle Assembly
Isolated Shackle Assembly
P/N 530-023-00
1.10 in.
(27.9 mm)
R0.32 (8.1 mm)
2 PLCS
0.83 in. (21 mm)
Operation Instructions
4-5
Section 5
Maintenance
Refer to the Instructions for Continued Airworthiness (ICA) manual 123-
017-02 for maintenance of the cargo hook suspension system. For maintenance of the cargo hook refer to Cargo Hook Component
Maintenance Manual 122-017-00.
Instructions for Returning a System to the Factory
If an Onboard Systems product must be returned to the factory for any reason (including returns, service, repairs, overhaul, etc) obtain an RMA number before shipping your return.
An RMA number is required for all equipment returns.
To obtain an RMA, please use one of the listed methods.
Contact Technical Support by phone or e-mail
).
Generate an RMA number at our website: http://www.onboardsystems.com/rma.php
After you have obtained the RMA number, please be sure to:
Package the component carefully to ensure safe transit.
Write the RMA number on the outside of the box or on the mailing label.
Include the RMA number and reason for the return on your purchase or work order.
Include your name, address, phone and fax number and email (as applicable).
Return the components freight, cartage, insurance and customs prepaid to:
Onboard Systems
13915 NW 3rd Court
Vancouver, Washington 98685
USA
Phone: 360-546-3072
Maintenance
5-1
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Section 6
System Part Numbers
210-209-02 AS 355 Swing Removable Provisions
3
4
5
6
Item Part No.
1 232-172-02
Description
Hook Frame Assembly
2 232-140-01 Forward Attach Cable Assembly
232-157-01
268-030-01
215-176-00
215-178-00
Aft Attach Cable Assembly
Manual Release Cable Assembly
Max Load 2303 Placard
Max Load 2500 Placard
Qty
1
2
2
1
1
1
6-2
System Part Numbers
System Part Numbers
continued
210-210-01 AS 355 Swing Fixed Provisions
3
4
5
6
Item Part No. Description
1 232-151-00 Quick Disconnect Support Assembly
2 232-187-00 Release Handle Assembly
232-137-01 Shackle Assembly
210-095-00 C-39 Indicator Assembly
290-772-00 Indicator Mount Bracket
290-780-00 Cable Attach Bracket
7
8
290-783-00 Relay Bracket
445-005-00 Relay
9 232-156-00 Connector Bracket Assembly
10 270-117-00 Load Weigh Internal Harness
11 270-118-00 Electrical Release Internal Harness
12 215-165-00 Multiple Sticker Sheet
13 270-125-00 Ground Strap, Fixed
Qty
1
1
2
1
1
1
1
1
1
1
1
1
1
6-2
System Part Numbers
System Part Numbers
continued
232-137-01 Shackle Assembly
1
4
3
Item Part No.
1 517-047-00
Description
Bushing
2
3
290-850-00
517-016-00
Shackle
Bushing
2
1
Qty
2
1
1
System Part Numbers
6-3
System Part Numbers
continued
232-187-00 Release Handle Assembly
6-4
Item Part No. Description
1 268-025-00 Fixed Manual Release Cable
2 510-215-00 Cover Screws
3 290-757-00 Cover
4 510-210-00 8-32 Locking Heli-Coil
5 290-878-00 Lever Body
6 517-049-00 Pulley
7 290-759-00 Shaft
8 510-450-00 Bolt, Handle pivot
9 510-449-00 Bolt, Pulley Pivot
10 290-755-00 Handle
11 510-042-00 Washer
12 510-082-00 Nut
13 510-125-00 Cotter Pin
14 510-248-00 10-32 Heli-Coil
15 290-879-00 Clamp Half
16 510-390-00 Screw, Mounting Clamp
17 510-095-00 Washer
1
2
2
2
1
2
2
1
1
1
1
Qty
1
2
1
2
1
1
System Part Numbers
System Part Numbers
continued
232-151-00 Quick Disconnect Support Assembly
Item Part No.
1 290-797-00
Description
Attach Bracket
2
3
290-791-00
514-053-00
Release Cable Cap
Spring Clip
4 510-102-00 Nut
8
9
10
5
6
7
510-085-00
510-455-00
514-050-00
Washer
Bolt
Spring Clip
510-211-00 Button Head Screw
531-016-00 Crimp Sleeve
531-015-00 Lanyard
System Part Numbers
3
2
6”
2
2
1
Qty
1
1
1
2
6-5
System Part Numbers
continued
232-140-01 Forward Attach Cable Assembly
3
4
4
2
3
5
1
7
8
9
10
6
Item Part No. Description
1 232-177-00 Forward Attach Cable
2 290-851-00 Quick Release Pin
3 531-015-00 Lanyard Cable
4 531-016-00 Crimp Sleeve
5 510-464-00 Hitch Pin
6 510-438-00 Bolt
7 510-221-00 Washer
8 510-440-00 3/8" Castellated Nut
9 510-178-00 Cotter Pin
10 510-439-00 Bolt
11 232-142-00 Lower Attach Gimbal Assembly
12 290-749-00 Standoff Bushing
2
1
1
3
Qty
1
1
2
2
2
1
1
2
11
9
8
7
12
6-6
System Part Numbers
System Part Numbers
continued
232-157-01 Aft Attach Cable Assembly
12
11
7
1
8
12
9
13
3
5
4
Item Part No. Description
1 290-784-00 Quick Release Pin
2 232-142-00 Lower Attach Gimbal Assembly
3 232-180-00 Suspension Cable Adapter Assy
4 232-178-00 Aft Attach Cable
5 510-438-00 Bolt
6 510-439-00 Bolt
7 510-178-00 Cotter Pin
8 510-440-00
3/8” Castellated Nut
9 510-221-00 Washer
10 290-749-00 Standoff Bushing
11 531-016-00 Crimp Sleeve
12 531-015-00 Lanyard Cable
13 510-464-00 Hitch Pin
4
2
1
3
3
4
2
Qty
1
1
1
1
2
1
5
9
8
7
6
7
8
9
10
2
System Part Numbers
6-7
System Part Numbers
continued
232-142-00 Lower Attach Cable Gimbal Assembly
3
2
1
Item Part No. Description
1 517-048-00 Bushing
2 290-746-00 Lower Cable Gimbal
3 517-016-00 Bushing
Qty
2
1
1
6-8
System Part Numbers
System Part Numbers
continued
232-143-01 Load Cell Gimbal Assembly
4
Item Part No. Description
1 517-056-00 Bushing
2 290-841-00 Gimbal Link
3 517-046-00 Bushing
4 518-003-00 Grease Fitting
2
Qty
2
1
2
1
1
3
System Part Numbers
6-9
System Part Numbers
continued
232-172-02 Hook-Frame Assembly
6-10
System Part Numbers
System Part Numbers
continued
232-172-01 Swing Hook-Frame Assembly continued
17
18
19
30
18
20
21
29
28
25
27
26
25
24
SEE GROUND STRAP
CONNECTION DETAIL
21
23
37 38 39
2
22
System Part Numbers
GROUND STRAP CONNECTION DETAIL
34
35
36
6-11
System Part Numbers
continued
3
4
5
6
232-172-01 Swing Hook-Frame Assembly continued
Item Part No. Description
1
2
235-117-00 Swing Frame Half
512-021-00 Adel Clamp
510-762-00
510-104-00
517-055-00
510-510-00
Bolt
Nut
Spherical Bearing
Jam Nut
7
8
9
10
11
235-116-00 Frame Strut
510-440-00 Nut, Castellated
290-843-00 Shaft Cap
290-842-00 Shaft – Pivot
517-057-00 Bearing
Qty
2
1
4
4
4
4
2
1
2
1
2
12
13
14
15
16
17
18
517-058-00 Bearing
232-143-01 Load Cell/Gimbal Assembly
290-862-00 Bumper
510-506-00 Bolt
512-004-00 Adel Clamp
510-443-00 Bolt
290-740-00 Shaft Retaining Bushing
2
1
1
1
1
1
2
25
26
27
28
29
19
20
21
22
23
24
30
31
32
33
34
35
290-739-00 Shaft – Gimbal
510-220-00 Washer
510-178-00 Cotter Pin
270-116-00 Lower Electrical Release Cable
510-170-00 Nut
510-174-00 Washer
510-183-00 Washer
510-320-00 Nut, Castellated
528-029-00 3,600 lb Keeperless Cargo Hook
290-775-00 Attach Bolt
290-774-00 Hook Bumper
210-249-02* AS355 Swing Load Cell Assembly
590-011-00 Plastic Tubing Wrap
215-183-00
510-486-00
270-127-00
510-391-00
Serial Number Plate
Rivet
Ground Strap
Screw
1
4
1
1
36
37
512-011-00 Ty-Wrap
510-453-00 Bolt
2
1
38
39
510-102-00 Nut
510-042-00 Washer
1
1
* P/N 210-249-02 supersedes P/N 210-214-00. These parts are interchangeable.
2
1
1
1
1
1
3
1
1
1
1
1
129”
6-12
System Part Numbers
System Part Numbers
continued
232-180-00 Suspension Cable Adapter Assembly
1
2
Item Part No. Description
1 290-864-00 Suspension Cable Adapter
2 517-016-00 Bushing
Qty
1
1
System Part Numbers
6-13
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Section 7
Certification
FAA STC
Certification
7-1
FAA STC
continued
7-2
Certification
Canadian Approval
Certification
7-3
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Key features
- Jettisonable external load transport
- Cargo hook with electrical release system
- Backup manual release system
- Load weigh system with indicator
- AS355 series helicopter compatibility
- 3,100 lbs. design load
- 11,625 lbs. design ultimate strength
- Installation on Airbus Helicopters AS355E, AS355F, AS355F1, AS355F2, AS355N, and AS355NP