Honeywell 26350 Manuel utilisateur

Taper
Manuel utilisateur
For more information
www.honeywellsafety.com
Honeywell Industrial Safety
P.O. Box 271, 1345 15th Street
Franklin, PA 16323 USA
Toll Free: 800.873.5242
Fax: 800.892.4078
E-mail: hsptechsupport@honeywell.com
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USER
MANUAL
XenonTM Permanent
Horizontal Lifeline
KitsRescue/Descent Device
I283 MFP9720152 Rev. B
April 2021
Thank you for your purchase of Miller Fall Protection equipment. Miller brand products are pro-
duced to meet the highest standards of quality at our ISO 9001 certified facility. Miller Fall Protec-
tion equipment will provide you with years of use when cared for properly.
WARNING
All persons using this equipment must read, understand and follow all instructions. Failure to do
so may result in serious injury or death. Do not use this equipment unless you are properly trained.
Questions? CALL 1.800.873.5242
It is crucial that the authorized person/user of this fall protection equipment read and understand
these instructions. In addition, it is the employer’s responsibility to ensure that all users are trained
in the proper use, inspection, and maintenance of fall protection equipment. Fall protection train-
ing should be an integral part of a comprehensive safety program.
Proper use of fall arrest systems can save lives and reduce the potential of serious injuries from
a fall. The user must be aware that forces experienced during the arrest of a fall or prolonged
suspension may cause bodily injury. Consult a physician if there is any question about the user’s
ability to use this product. Pregnant women and minors must not use this product.
1.0 Purpose
For use along crane rail runways, loading bays/docks, machinery maintenance conveyors, roof-
tops, pipe racks, bridges, inside sports arenas, and many industrial applications, the Xenon Perma-
nent Horizontal Lifeline Kit provides fall protection that ultimately increases worker mobility, safety
and productivity. The uniquely-designed Xenon Shuttle self-aligns to smoothly pass through in-
termediate brackets for 100% connection to the system.
2.0 General Requirements, Warnings and Limitations
2.1 General Fall Protection Requirements
All warnings and instructions shall be provided to authorized persons/users. Warnings and instruc-
tions must be read and understood prior to using this equipment.
All authorized persons/users must reference the regulations governing occupational safety, as
well as applicable standards. Xenon Kits meet OSHA.
Proper precautions should always be taken to remove any obstructions, debris, material, or other recog-
nized hazards from the work area that could cause injuries or interfere with the operation of the system.
All equipment must be inspected before each use according to the manufacturer’s instructions.
All equipment should be inspected by a qualified person on a regular basis. To minimize the potential
for accidental disengagement, a competent person must ensure system compatibility.
Equipment must not be altered in any way. Repairs must be performed only by the equipment man-
ufacturer, or persons or entities authorized, in writing, by the manufacturer. Any product exhibiting
deformities, unusual wear, or deterioration must be immediately discarded. Any equipment subject
to a fall must be removed from service.
The user shall have a rescue plan and the means at hand to implement it when using this equipment.
Never use fall protection equipment for purposes other than those for which it was designed. Fall
protection equipment should never be used for towing or hoisting. Never remove product labels,
which include important warnings and information for the authorized person/user.
2.2 System Warnings and Limitations
SYSTEM COMPATIBILITY
Xenon Kits are designed for use with Miller approved components. Substitution or replacement with
non-approved component combinations, sub-systems, or both, may affect or interfere with the safe
function of each other and endanger the compatibility within the system. This incompatibility may
affect the reliability and safety of the total system.
Miller Fall Protection requires the use of a Miller full-body harness and shock-absorbing lanyard
or self-retracting lifeline/fall limiter with this system. All instructions and warnings provided with
the body wear and connecting device must be read and understood before using the equipment.
MAXIMUM LIFELINE SPAN
The maximum lifeline span (from anchor to anchor, from anchor to intermediate bracket, or from
intermediate bracket to intermediate bracket) is 30 ft. (9.1m). System kits are available in lengths
from 30 ft. (9.1m) to 510 ft. (155.5m). Any lifeline system extending beyond 30ft. (9.1m), known
as a multiple-span system, requires intermediate brackets at a maximum of 30 ft. (9.1m) intervals.
CAPACITY
Maximum capacity is two (2) workers [310lb (140.6kg) each] for a single shock absorber system
and four (4) workers [310lb (140.6kg) each] for a double shock absorber system. Capacity ratings
assume the anchorage or structure to which the horizontal lifeline kit is installed meets the load re-
quirements
SYSTEM FORCES
The Xenon Kit is equipped with an inline shock absorber. In the event of a fall, the shock absorber limits
system forces.
FALL ARREST FORCES
In conjunction with the Xenon Horizontal Lifeline System, workers must use a Miller self-retracting
lifeline/fall limiter or a shock-absorbing lanyard, which limits maximum fall arrest force imposed
by the worker to 900lbf (4kN).
FREE FALL
Personal fall arrest systems must be rigged to limit a free fall to the shortest possible distance [6ft
(1.8m) maximum].
FALL CLEARANCE
Ensure that adequate clearance exists in your fall path to avoid striking a lower level or other object
(see 6.0 Fall Clearance).
ENVIRONMENTAL HAZARDS
Use of this equipment in areas where environmental hazards exist may require additional precautions
to limit the possibility of injury to the user or damage to the equipment. Hazards may include, but are
not limited to, extreme temperatures, caustic chemicals, corrosive environments, high voltage power
lines, explosive or toxic gases, moving machinery, and sharp edges. Do not expose the equipment to
any hazard which it is not designed to withstand. Consult the manufacturer in cases of doubt.
SYSTEM REQUIREMENTS
The Horizontal Lifeline System shall be designed, installed and used, under the supervision
of a qualified person, as part of a complete personal fall arrest system, which maintains a
safety factor of at least two.
Ensure that there is adequate end and intermediate anchorage strength for the Xenon HLL
System per the chart below. *Load requirements reflect a 2:1 safety factor. (SEE TABLE 1)
*Load requirements reflect a 2:1 safety factor
3.0 Xenon Kit Diagrams and Component Descriptions
4.0 Installation of Xenon Horizontal Lifeline Kits
Before installation, carefully inspect all components of the system according to the
manufacturer’s instructions (see 8.0 Inspection and Maintenance).
Ensure that there is sufficient fall clearance below the work surface to avoid hitting a
lower level or obstruction (see 6.0 Fall Clearance).
If installing the system off-the-ground, a personal fall arrest system including an an-
chorage connector, such as a Miller beam anchor, must be used. Once a D-bolt anchor
has been completely installed and secured to the beam or structure given the required
specifications, a worker may tie-off onto the anchor.
Some system components may come preassembled. Installation instructions still must
be followed to ensure all components are included and properly assembled. All fasteners
and connectors must be checked for correct alignment and installation and tightened
to required specifications.
4.1 Installation of DBolt Anchor to Beam or Structure
3”
(76.2mm)
1.5”
(38.1mm)
4.125”
(104.8mm)
Working Thickness up to 4”
(101.6mm) [417 DBolt Anchor
can be mounted with a longer 5/8"
(16mm) bolt to accommodate
greater thicknesses.]
Warning Label
NOTE: 416 DBolt Anchor shown; 417
DBolt Anchor does not include fasteners.
1. Locate and identify an approved compatible anchorage. The beam or structure to which
this product is attached must be capable of supporting the loads specified in Section
2.2 of this manual in the direction of pull. Be sure that the mounting location is clean
and free of debris.
2. Locate or drill a 21/32” (16.7mm) diameter hole. Consideration should be given to allow
sufficient clearance to place the lockwasher and tighten the nut.
WARNING: When the D-bolts are being installed parallel or alongside the horizontal lifeline
(see Fig. 1a), the D-bolts must be mounted horizontally. D-bolts being installed perpendicular
to the lifeline (see Fig. 1b) may be mounted at any angle.
WARNING: On D-bolts installed to WShaped beams (see Fig. 1c), the mounting hole must be
drilled perpendicular to the flange. D-bolts installed to SShaped beams (see Fig. 1d) must be
drilled perpendicular to the flange and a tapered (aka bevel, side hill or wedge) washer must
be used to ensure the D-bolt and/or nut and washer seats squarely against the beam surface.
Mount the DBolt Anchor by passing the approved 5/8” (16mm) stainless steel bolt through
the hole in the connector and through the hole in the structure (see Fig. 1). Attach the lock-
washer and nut. Completely tighten making sure the entire nut is engaged on the threads
and the device is securely fastened to the structure. Torque to 90100 ft-lb (122Nm136Nm).
WARNING: Do not overtighten. Excessive tension can cause damage to the anchorage
system. Use recommended torque value above.
Repeat these procedures to install D-bolt anchor on opposite end of lifeline system.
Fig. 1c Fig. 1d
416 DBolt Anchor
4.2 Installation of Universal Intermediate Brackets
(Required for MultipleSpan Systems only)
The intermediate brackets are designed to allow free-floating or fixed positioning. Most often
free-floating positioning is desired. However, fixed positioning may be needed in the case of an
obstacle which may interfere with the lifeline.
To install intermediate brackets, follow the instructions below:
1. Install the intermediate support clevis to the beam or structure using the included hardware.
Torque to 69 ft-lb (94Nm).
2. Attach the cable support according to the desired result.
FreeFloating Positioning (see Fig. 2a): To allow the cable support to float freely, align the star-
shaped hole in the clevis with the circle hole in the cable support and insert the bolt completely
through the aligned holes. (NOTE: The bolt must enter through the side with the star hole.) Attach
the washer and nut.
Fixed Positioning (see Fig. 2b): To fix the position of the cable support, align the star-shaped hole
in the clevis with the square hole in the cable support and angle the support in the desired fixed
position. Insert the bolt completely through the aligned holes. (NOTE: The bolt must enter through
the side with the star hole.) Attach the washer and nut.
3. Slide the plastic cable guides into position in the cable support and snap into place. The cable
support is now ready to receive the cable.
To replace intermediate brackets without disassembling or replacing the
lifeline, follow the instructions below:
1. Using a flat tipped screwdriver, unclip the plastic cable guides. Slide the cable guides aside.
Then open each cable guide enough to clear the cable and remove.
2. Disassemble the cable support from the clevis by removing the nut, washer and bolt. Then turn
the cable support such that the cable can be released.
3. Uninstall the clevis from the beam or structure.
4. Install the clevis of the new intermediate bracket to the beam or structure following step 1 of
the installation instructions.
5. While aligning the cable within the cable support, attach the cable support by following step 2
of the installation instructions.
6. Add the plastic cable guides to the cable. Slide the cable guides into position in the cable support
and snap them into place.
4.3 Installation of Horizontal Lifeline Assembly
WARNING
Always wear gloves when inspecting or installing a cable lifeline.
**Procedures A through C apply to the assembly required on one end of the lifeline.
A. MULTIPURPOSE INLINE SHOCK ABSORBER TO DBOLT ANCHOR
(SEE FIGURE 3)
In order to allow for maximum take-up and proper tensioning of the lifeline at the end of installa-
tion, the shock absorber must be prepared for installation by following the procedure below.
PREPARING THE SHOCK ABSORBER FOR INSTALLATION:
Open the shock absorber fully by loosening the locknuts on either side of the shock
absorber body and rotating the shock absorber, thus exposing the jaw bolt and eyebolt
threads. [Note: When fully open, the shock absorber will measure approximately 22
1/2” (572mm) from end of jaw to end of eyebolt. The shock absorber is designed to
allow approximately 4” (102mm) of take-up in the lifeline.]
Once the shock absorber is fully open, rotate it in the opposite direction two to three turns.
[Note: This allows for the possibility of a lifeline that may be too tight after installation and
consequently over-tensioned.]
Now proceed with the installation steps below.
1. Remove cotter pin and bolt from shock absorber jaw.
2. Position jaw over D-bolt anchor and insert bolt completely through jaw and anchor.
3. Insert the cotter pin into the end of the bolt.
Fig. 3
Bolt
Cotter
Pin Jaw
Eyebolt
Body
Locknut
B. CABLE TO FAST ATTACH CABLE FITTING (SEE FIGURE 4)
1. Disassemble the fitting and verify components.
2. Slide the cone, wedge set and washer onto the cable end.
3. Then slide the cone over the wedge set and washer. (Note: There should be approxi-
mately 5/16” (8mm) of cable showing beyond the washer.)
4. Screw the Jaw Anchor head into the Cone. Tighten by hand, then completely remove
Cone out of Jaw Anchor and check cable position. Cable should be stuck in the Wedge
Set and approximately 5/16” (8mm) of cable should be still showing beyond the Washer.
If not, repeat step 3. When successful, silicone if waterproof is needed, then screw Jaw
Anchor Head back to Cone and torque to 43 ft-lb (58Nm).
5. Tighten the jam nut down onto the cone. Torque to approximately 43 ft-lb (58Nm).
6. Inspect the system and ensure fitting is properly connected before use.
WARNING: Failure to follow the instructions in this manual may result in severe injury or death.
Jaw Anchor Head
Washer
Wedge Set
Cone
Jam Nut Fig. 4
8mm
C. SWAGELESS CABLE FITTING TO INLINE SHOCK ABSORBER
(SEE FIGURE 5)
1. Remove cotter pin and bolt from jaw anchor head of cable fitting.
2. Align the holes in the jaw head with the shock absorber eyebolt hole, and insert bolt
completely through jaw head and eyebolt.
3. Insert the cotter pin into the end of the bolt.
WARNING: Failure to follow the instructions in this manual may result in severe injury or death.
*Procedures D and E apply to the assembly required
on the opposite lifeline end. Note: For multiple-span
systems, it is recommended to feed cable through
intermediate supports before proceeding with the
following steps.
D. CABLE LIFELINE TO THIMBLE CABLE
FITTING SECURING WITH CABLE CLIPS
(SEE FIGURE 6)
Before cutting the cable, be sure to take into
consideration whether the thimble fitting will be
connected directly to the D-bolt anchor using an
anchor shackle or whether an additional shock ab-
sorber must be installed between the components.
If an additional shock absorber is needed, it should be installed before cutting the cable and
securing the thimble cable fitting (see 4.5 Installation of a Second Shock Absorber).
1. Feed cable around thimble, taking up as much slack in the lifeline as possible. Ensure that
there is at least 81/2” (216mm) of turn back. Cut excess cable.
NOTE: Allow sufficient lifeline to enable attachment of the thimble to the D-bolt anchor using
an anchor shackle.
2. Attach first cable clip as close to the thimble as possible, noting that the U-clip must be installed
around the cable with the dead end. Attach two additional cable clips, spacing them 31/4”
(83mm) apart. Torque cable clip nuts to 17 ft-lb (23Nm).
First and Second
Cable Clips
(shown installed)
Thimble
Dead End
Third Cable Clip
Fig. 6
E. THIMBLE FITTING TO DBOLT ANCHOR USING ANCHOR SHACKLE
(SEE FIGURE 7)
1. Remove cotter pin, nut and bolt from anchor shackle.
2. Position anchor shackle through thimble and align the shackle with the D-bolt anchor.
3. Insert bolt completely through shackle and D-bolt anchor, attach nut and tighten snugly using a
3/4” wrench and socket.
4. Insert the cotter pin into the end of the bolt and bend slightly to prevent the pin from backing out.
Fig. 7
Anchor Shackle
Bolt
Cotter Pin
Nut
4.4 Tensioning Horizontal Lifeline
IMPORTANT: It is essential that the lifeline be properly tensioned before use. Failure to do so will
affect fall clearance requirements and the potential fall forces which may be imposed upon the
worker and the system.
1. To prevent the lifeline from twisting while tensioning, use an open end wrench to hold the life-
line while rotating the shock absorber body (drawing the jaw bolt threads and eyebolt threads
into the body) until the required tension is achieved. NOTE: The shock absorber is equipped
with tension indicators. When the lifeline is properly tensioned, a green ring will be exposed
where the shock absorber jaw bolt threads enter and exit the shock absorber body.
WARNING: If a red ring is exposed, the lifeline is excessively tensioned. In this case, loosen the
lifeline by rotating the shock absorber body in the opposite direction.
IMPORTANT: In environments in which thermal contraction and expansion can occur, it is
important to perform initial lifeline tensioning at peak temperatures. Inspection of the lifeline
thereafter should also be done at peak temperatures.
2. Once the correct tension has been obtained, screw in the locknut on the lifeline side and
lock it against the shock absorber body with a 19mm open-end wrench and an 11mm
wrench.
3. Proceed in the same way with the locknut on the opposite end of the shock absorber.
Before using the system, double-check all fasteners to ensure that they are installed
correctly and to required specifications.
4.5 Installation of a Second Shock Absorber
1. Follow Procedures A through C of Section 4.3. Before continuing with Procedure D,
prepare and install the second shock absorber.
2. Remove cotter pin, nut and bolt from anchor shackle.
3. Position anchor shackle through D-bolt anchor and align the shackle bolt holes with the
eyebolt hole on the shock absorber.
4. Insert bolt completely through shackle and shock absorber eyebolt, attach nut and tight-
en snugly using a 3/4” wrench and socket.
5. Insert the cotter pin into the end of the bolt and bend slightly to prevent the pin from
backing out.
6. Follow Procedure D. NOTE: When taking up slack in the lifeline, however, allow sufficient
lifeline to enable attachment of the thimble to the shock absorber jaw.
7. Remove cotter pin and bolt from shock absorber jaw.
8. Position jaw over thimble and insert bolt completely through jaw and thimble.
9. Insert the cotter pin into the end of the bolt.
5.0 Operation/Use of Xenon Shuttle on the Horizontal Lifeline
1. Inspect all equipment before use according to the manufacturer’s instructions.
2. Properly fit the full-body harness. Refer to the donning instructions provided with the
harness.
3. Ensure that the structure being worked on is properly supported before connecting to
the horizontal lifeline. Use necessary fall protection equipment while approaching the
horizontal lifeline.
4. Install the Xenon Shuttle to the lifeline by pressing and holding the button on the side of the
shuttle while pushing in on the attachment ring to open the cable channel jaws. Then insert
the shuttle over the lifeline and release.
WARNING: Once installed, ensure that the cable channel jaws are completely closed and
locked. When closed and locked, the gap width between the jaws will be between 1/16”
(1.6mm) and 5/32” (4mm) maximum without any load being applied.
5. Connect one end of the shock-absorbing lanyard or self-retracting lifeline/fall limiter to
the back D-ring of the harness and the other to the attachment ring on the shuttle. Refer
to the instructions provided with the connecting device. Ensure that all connections are
compatible and that all connectors, such as snap hooks or carabiners, are closed and
locked.
DBolt Anchor
Shock Absorber
Swageless
Cable Fitting
Intermediate
Support Bracket
Cable Clips
Anchor Shackle
DBolt Anchor
Thimble
Part No. Component Name Qty. Description
System Kit Components
416SS DBolt Anchor 2 5/8” (16mm) stainless steel D-anchor with hex bolt (5/8” - 11 UNC x 5”), hex nut and split lockwasher, rated to 10,000 lb (45kN)
417SS DBolt Anchor 2 5/8" (16mm) stainless steel D-anchor, rated to 10,000 lb (45kN) (Fasteners not included-The 417 DBolt Anchor must only be used with an approved
5/8" - 11 UNC hex bolt, hex nut and split lockwasher.)
1014934 Xenon 4-in1 Shock Ab-
sorber 1 or 2* Multi-purpose shock absorber acts as an inline shock absorber, turnbuckle, tension indicator and fall indicator
1013720 Fast Attach Cable Fitting 1 Stainless steel, swageless cable fitting for 5/16" (8mm) wire rope
XC00030 Cable Lifeline 1 5/16” (8mm) diameter stainless steel wire rope, 30' (9.1m) length (Part no. will change depending on length specified. Example: XC00120 = 120'
(36.5m) cable lifeline)
XP00001 Thimble 1 Stainless steel thimble
XP00002 Cable Clip 3 5/16” (8mm) wire rope clip
SGASSS Anchor Shackle 1 7/16” (11mm) stainless steel shackle with bolt, nut and cotter pin
1010608 Universal Intermediate
Bracket Varies Intermediate support bracket allows for free floating or locked positioning and easy passage of Xenon shuttle; includes 1/2" (13mm) x 3" (76mm)
long stainless steel bolt, nut and washer
1010609 Universal Intermediate
Bracket Varies Intermediate support bracket allows for free floating or locked positioning and easy passage of Xenon shuttle (Hardware not included)
Optional System Components
1005709 Xenon Shuttle Varies Shuttle with stainless steel attachment ring; self-aligns for smooth pass-through of intermediate brackets
*A second shock absorber may be added to accommodate three (3) to four (4) workers on the horizontal lifeline system.
Thimble and Cable Clip DBolt AnchorAnchor Shackle
Fast Attach Cable Fitting Cable Lifeline
Xenon Shuttle Universal Intermediate Bracket
Xenon 4-in1 Shock Absorber
Shock Absorber Element
Fall Indicator
Tension Indicator
Turnbuckle
CUTAWAY VIEW FOR
ILLUSTRATION PURPOSES ONLY
In this installation configuration
(parallel), the D-bolt must be
mounted horizontally as shown.
In this installation configuration (perpendicular),
the D-bolt may be mounted horizontally,
vertically or at any angle.
WShape (Wide Flange)
Lifeline Direction Lifeline Direction
SShape (Structural IBeam)
Tapered Washer
Star to
Circle
Bolt
Nut
Washer
Clevis
Cable
Support
Cable
Guides
Fig. 2a - FreeFloating
Star
to Square
Fig. 2b - Fixed
Fig. 5
Bolt
Cotter Pin
3-1/4" (83mm) apart
8-1/2" (216mm) turnback
1716 18 19
6. Proceed along the lifeline. The snap hook (or connector) of the shock-absorbing lanyard
or self-retracting lifeline/fall limiter must remain connected to the shuttle and the shuttle
to the lifeline at all times along the length of the system. The Xenon Shuttle will self-align
to navigate past intermediate brackets.
NOTE: The shuttle should always be removed from the horizontal lifeline after use and
cleaned and stored according to 8.0 Inspection and Maintenance.
Button
Attachment
Ring
Cable
Channel
Jaws
Press and hold
button
Push inward on attachment ring
6.0 Fall Clearance
Always know your fall clearance before proceeding with the use of a horizontal lifeline system.
*It is essential to read and understand all information and warnings contained herein
regarding fall clearance, the formulas used for determining fall clearance required, and
any special assumptions or provisions with regard to the calculations provided.
ShockAbsorbing Lanyard Fall Clearance:
Fall clearance requirements when using a shock-absorbing lanyard are taken from the hori-
zontal lifeline to the next lower level below the work surface.
Fall clearance calculations are based on the length and deflection of the lifeline, the length of
the lanyard being used, a 31/2 ft. (1.07m) maximum deceleration distance, the number of
workers connected to the system, and an average worker height of 6 ft. (1.8m).
Fall Clearance
from Working Surface to Next
Lower Level
Fall Clearance
from Horizontal Lifeline
to Next Lower Level
SelfRetracting Lifeline/Fall Limiter Fall Clearance:
Fall clearance requirements when using a self-retracting lifeline (SRL) or fall limiter are taken from
the working surface to the next lower level.
Fall clearance calculations are based on the length and deflection of the lifeline, a 31/2 ft. (1.07m)
maximum Miller SRL/fall limiter fall arrest distance, and the number of workers connected to the
system. The SRL/fall limiter calculations assume the worker is standing upright and is located
directly adjacent to the horizontal lifeline with the SRL/fall limiter directly overhead and above the
level of the harness attachment point. Working away from the point of attachment or crouching to
perform work increases the amount of fall clearance required. All of these factors must be carefully
considered to ensure that there is adequate fall clearance.
IMPORTANT: MILLER FALL PROTECTION ALWAYS RECOMMENDS THAT A 3 FT.
(.9M) SAFETY FACTOR BE ADDED TO ALL FALL CLEARANCE CALCULATIONS
PROVIDED IN THESE TABLES.
If, in your particular application, there is not adequate fall clearance to ensure maximum worker
safety, contact Miller Technical Services to discuss your options. Any variations to the horizontal
lifeline system must be approved by Miller Fall Protection
7.0 Training
It is the responsibility of the user and the purchaser of this equipment to assure they are familiar
with these instructions and are trained in the proper use, installation, operation, maintenance and
limitations of this product. Training should be conducted periodically and without exposing the
trainee to a fall hazard.
Training is an integral part of our Total Solution in fall protection, since no fall protection equipment
– regardless of how effective – can save an employee who is not trained in its use. To meet this crucial
requirement, Miller Training provides the knowledge and skills necessary to achieve a safe, more pro-
ductive work environment. For more information on Miller Training, contact a representative today:
800.873.5242.
8.0 Inspection and Maintenance
INSPECTION
The Xenon Horizontal Lifeline Kit is designed for today’s rugged work environments. To maintain its
service life and high performance, all components should be inspected frequently. Visually inspect
before each use. Regular inspection by a competent person for wear, damage or corrosion should
be a part of your safety program. Replace equipment if any of the defective conditions explained
in this manual are found.
Before each use, visually and functionally inspect for the following:
Inspect all components for physical damages, deformation, cracks, wear and corrosion.
Inspect for crimped fittings, cracks or any signs of loading.
Inspect the cable lifeline for cuts, frays, kinks, broken strands or other signs of unusual wearing
patterns.
[CAUTION: Always wear gloves when inspecting wire rope!]
Inspect for malfunctioning or missing components. [For replacement parts call:
800.873.5242]
Check cable tension per section 4.4 Tensioning Horizontal Lifeline.
Inspect shock absorber to ensure that the red label “STOP” fall indicator is not exposed.
Inspect Xenon shuttle for physical damages, deformation, cracks, wear and corrosion.
Ensure that the shuttle and its parts are functioning properly. The attachment ring
should move freely, the button should depress and release to its original position, and
the cable channel jaws must close and lock. Refer to section 5.0 Operation/Use of Xenon
Shuttle.
Inspect the personal fall arrest system according to the manufacturer’s instructions.
LABELS
CLEANING AND STORAGE
Basic care of all Miller Fall Protection equipment will prolong the life of the unit and will
contribute toward the performance of its vital safety function. Proper storage and main-
tenance after use are as important as cleansing the equipment of dirt, corrosives, or con-
taminants. Clean system components using a cloth dampened with water and mild soap
or detergent and towel dry. Store components, such as the shuttle, in an area that is clean,
dry and free of exposure to fumes or corrosive elements.
SERVICING
Servicing must only be carried out by a qualified person. A record log of all servicing and in-
spection dates for this system should be maintained. This system and all components must
be withdrawn from service if subjected to fall arresting forces. Only original Miller Fall Protec-
tion replacement parts are approved for use in this system. Contact your Miller Fall Protection
distributor or Miller Technical Services at 800.873.5242 if you have any questions.
TABLE 1
End and Intermediate System Load Requirements*
[lbf (kN)] for Xenon HLL Systems
SingleSpan Systems
System/Span
Length
[ft (m)]
Single Shock Absorber
System for 12 Workers
Double Shock Absorber System
for 34 Workers
End
Load
Intermediate
Load
End
Load
Intermediate
Load
10
(3m)
3294 lbf.
(14.7kN)
2420 lbf.
(10.8kN)
3790 lbf.
(16.9kN)
3660 lbf.
(16.3kN)
15
(4.5m)
3786 lbf.
(16.8kN)
2420 lbf.
(10.8kN)
4374 lbf.
(19.5kN)
3660 lbf.
(16.3kN)
20
(6.1m)
4330 lbf.
(19.3kN)
2420 lbf.
(10.8kN)
4910 lbf.
(21.8kN)
3660 lbf.
(16.3kN)
25
(7.6m)
4686 lbf.
(20.8kN)
2420 lbf.
(10.8kN)
5342 lbf.
(23.8kN)
3660 lbf.
(16.3kN)
30
(9.1m)
4968 lbf.
(22.1kN)
2420 lbf.
(10.8kN)
5812 lbf.
(25.9kN)
3660 lbf.
(16.3kN)
MultipleSpan Systems (with 30 ft. spans)
System Length
[ft (m)]
Single Shock Absorber
System for 12 Workers
Double Shock Absorber System
for 34 Workers
End
Load
Intermediate
Load
End
Load
Intermediate
Load
30
(9.1m)
4968 lbf.
(22.1kN)
2420 lbf.
(10.8kN)
5812 lbf.
(25.9kN)
3660 lbf.
(16.3kN)
60
(18.2m)
4692 lbf.
(20.9kN)
2420 lbf.
(10.8kN)
5556 lbf.
(24.7kN)
3660 lbf.
(16.3kN)
90
(27.4m)
4458 lbf.
(19.8kN)
2420 lbf.
(10.8kN)
5344 lbf.
(23.8kN)
3660 lbf.
(16.3kN)
120
(36.5m)
4302 lbf.
(19.1kN)
2420 lbf.
(10.8kN)
5192 lbf.
(23.1kN)
3660 lbf.
(16.3kN)
150
(45.7m)
4132 lbf.
(18.4kN)
2420 lbf.
(10.8kN)
5034 lbf.
(22.4kN)
3660 lbf.
(16.3kN)
180
(54.8m)
4006 lbf.
(17.8kN)
2420 lbf.
(10.8kN)
4910 lbf.
(21.8kN)
3660 lbf.
(16.3kN)
210
(64m)
3906 lbf.
(17.4kN)
2420 lbf.
(10.8kN)
4840 lbf.
(21.5kN)
3660 lbf.
(16.3kN)
240
(73.1m)
3794 lbf.
(16.9kN)
2420 lbf.
(10.8kN)
4716 lbf.
(21kN)
3660 lbf.
(16.3kN)
270
(82.2m)
3718 lbf.
(16.5kN)
2420 lbf.
(10.8kN)
4638 lbf.
(20.6kN)
3660 lbf.
(16.3kN)
300
(91.4m)
3640 lbf.
(16.2kN)
2420 lbf.
(10.8kN)
4550 lbf.
(20.2kN)
3660 lbf.
(16.3kN)
330
(100.5m)
3574 lbf.
(15.9kN)
2420 lbf.
(10.8kN)
4490 lbf.
(20kN)
3660 lbf.
(16.3kN)
360
(109.7m)
3504 lbf.
(15.6kN)
2420 lbf.
(10.8kN)
4414 lbf.
(19.6kN)
3660 lbf.
(16.3kN)
390
(118.8m)
3442 lbf.
(15.3kN)
2420 lbf.
(10.8kN)
4364 lbf.
(19.4kN)
3660 lbf.
(16.3kN)
420
(128m)
3388 lbf.
(15.1kN)
2420 lbf.
(10.8kN)
4304 lbf.
(19.2kN)
3660 lbf.
(16.3kN)
450
(137.1m)
3342 lbf.
(14.9kN)
2420 lbf.
(10.8kN)
4248 lbf.
(18.9kN)
3660 lbf.
(16.3kN)
480
(146.3m)
3290 lbf.
(14.6kN)
2420 lbf.
(10.8kN)
4196 lbf.
(18.7kN)
3660 lbf.
(16.3kN)
510
(155.4m)
3242 lbf.
(14.4kN)
2420 lbf.
(10.8kN)
4148 lbf.
(18.5kN)
3660 lbf.
(16.3kN)
Total Fall Clearance Required* for One to Two Workers when
using a ShockAbsorbing Lanyard with a Xenon HLL
Single Shock Absorber System
SingleSpan Systems
System/Span
Length**
[ft (m)]
Length of Lanyard
3ft (.9m) 4ft (1.2m) 5ft (1.5m) 6ft (1.8m)
10
(3m)
14’7”
(4.45m)
15’7”
(4.75m)
16’7”
(5.05m)
17’7”
(5.36m)
15
(4.5m) 15’1” (4.6m) 16’1”
(4.9m)
17’1”
(5.21m)
18’1”
(5.51m)
20
(6.1m)
15’6”
(4.72m)
16’6”
(5.03m)
17’6”
(5.33m)
18’6”
(5.64m)
25
(7.6m)
15’11”
(4.85m)
16’11”
(5.17m)
17’11”
(5.46m)
18’11”
(5.77m)
30
(9.1m)
16’3½”
(4.97m)
17’3½”
(5.27m)
18’3½”
(5.58m)
19’3½”
(5.88m)
MultipleSpan Systems (with 30 ft. spans)
System Length**
[ft (m)]
Length of Lanyard
3ft
(.9m) 4ft (1.2m) 5ft (1.5m) 6ft (1.8m)
30
(9.1m)
16’3½”
(4.97m)
17’3½”
(5.27m)
18’3½”
(5.58m)
19’3½”
(5.88m)
60
(18.2m)
16’6½”
(5.04m)
17’6½”
(5.35m)
18’6½”
(5.65m)
19’6½”
(5.96m)
90
(27.4m)
16’9”
(5.11m)
17’9”
(5.41m)
18’9”
(5.72m)
19’9”
(6.02m)
120
(36.5m)
16’11½”
(5.17m)
17’11½”
(5.48m)
18’11½”
(5.78m)
19’11½”
(6.08m)
150
(45.7m)
17’1½”
(5.22m)
18’1½”
(5.53m)
19’1½”
(5.83m)
20’1½”
(6.13m)
180
(54.8m)
17’3½”
(5.27m)
18’3½”
(5.58m)
19’3½”
(5.88m)
20’3½”
(6.19m)
210
(64m)
17’5”
(5.31m)
18’5”
(5.61m)
19’5”
(5.92m)
20’5”
(6.22m)
240
(73.1m)
17’7”
(5.36m)
18’7”
(5.66m)
19’7”
(5.97m)
20’7”
(6.27m)
270
(82.2m)
17’8½”
(5.4m)
18’8½”
(5.7m)
19’8½”
(6.01m)
20’8½”
(6.31m)
300
(91.4m)
17’10”
(5.44m)
18’10”
(5.74m)
19’10”
(6.05m)
20’10”
(6.35m)
330
(100.5m)
17’11½”
(5.47m)
18’11½”
(5.78m)
19’11½”
(6.08m)
20’11½”
(6.39m)
360
(109.7m)
18’1”
(5.51m)
19’1”
(5.82m)
20’1”
(6.12m)
21’1”
(6.43m)
390
(118.8m)
18’2”
(5.54m)
19’2”
(5.84m)
20’2”
(6.15m)
21’2”
(6.45m)
420
(128m)
18’3½”
(5.58m)
19’3½”
(5.88m)
20’3½”
(6.19m)
21’3½”
(6.49m)
450
(137.1m)
18’4½”
(5.6m)
19’4½”
(5.91m)
20’4½”
(6.21m)
21’4½”
(6.52m)
480
(146.3m)
18’6”
(5.64m)
19’6”
(5.94m)
20’6”
(6.25m)
21’6”
(6.55m)
510
(155.4m)
18’7”
(5.66m)
19’7”
(5.97m)
20’7”
(6.27m)
21’7”
(6.58m)
Total Fall Clearance Required* for Three to Four Workers when us-
ing a ShockAbsorbing Lanyard with a Xenon HLL
Double Shock Absorber System
SingleSpan Systems
System/Span
Length**
[ft (m)]
Length of Lanyard
3ft
(.9m) 4ft (1.2m) 5ft (1.5m) 6ft (1.8m)
10
(3m) 15’-5” (4.7m) 16’-5” (5m) 17’-5” (5.31m) 18’-5” (5.61m)
15
(4.5m) 16’-1” (4.9m) 17’-1” (5.21m) 18’-1” (5.51m) 19’-1” (5.82m)
20
(6.1m) 16’-7½” (5.07m) 17’-7½” (5.37m) 18’-7½” (5.68m) 19’-7½” (5.98m)
25
(7.6m) 17’-2” (5.23m) 18’-2” (5.54m) 19’-2” (5.84m) 20’-2” (6.15m)
30
(9.1m) 17’-8” (5.39m) 18’-8” (5.69m) 19’-8” (5.99m) 20’-8” (6.3m)
MultipleSpan Systems (with 30 ft. spans)
System
Length**
[ft (m)]
Length of Lanyard
3ft
(.9m) 4ft (1.2m) 5ft (1.5m) 6ft (1.8m)
30
(9.1m)
17’-8”
(5.39m)
18’-8”
(5.69m)
19’-8”
(5.99m)
20’-8”
(6.3m)
60
(18.2m)
17’-10½”
(5.45m)
18’-10½”
(5.75m)
19’-10½”
(6.06m)
20’-10½”
(6.36m)
90
(27.4m)
18’-1”
(5.51m)
19’-1”
(5.82m)
20’-1”
(6.12m)
21’-1”
(6.43m)
120
(36.5m)
18’-3”
(5.56m)
19’-3”
(5.87m)
20’-3”
(6.17m)
21’-3”
(6.48m)
150
(45.7m)
18’-5”
(5.61m)
19’-5”
(5.92m)
20’-5”
(6.22m)
21’-5”
(6.53m)
180
(54.8m)
18’-7”
(5.66m)
19’-7”
(5.97m)
20’-7”
(6.27m)
21’-7”
(6.58m)
210
(64m)
18’-9”
(5.72m)
19’-9”
(6.02m)
20’-9”
(6.32m)
21’-9”
(6.63m)
240
(73.1m)
18’-11”
(5.77m)
19’-11”
(6.07m)
20’-11”
(6.38m)
21’-11”
(6.68m)
270
(82.2m)
19’-½”
(5.8m)
20’-½”
(6.11m)
21’-½”
(6.41m)
22’-½”
(6.72m)
300
(91.4m)
19’-2”
(5.84m)
20’-2”
(6.15m)
21’-2”
(6.45m)
22’-2”
(6.76m)
330
(100.5m)
19’-3½”
(5.88m)
20’-3½”
(6.19m)
21’-3½”
(6.49m)
22’-3½”
(6.79m)
360
(109.7m)
19’-5”
(5.92m)
20’-5”
(6.22m)
21’-5”
(6.53m)
22’-5”
(6.83m)
390
(118.8m)
19’-6½”
(5.96m)
20’-6½”
(6.26m)
21’-6½”
(6.57m)
22’-6½”
(6.87m)
420
(128m)
19’-8”
(5.99m)
20’-8”
(6.3m)
21’-8”
(6.6m)
22'-8”
(6.91m)
450
(137.1m)
19’-9”
(6.02m)
20’-9”
(6.32m)
21’-9”
(6.63m)
22’-9”
(6.93m)
480
(146.3m)
19’-10½”
(6.06m)
20’-10½”
(6.36m)
21-10½”
(6.67m)
22’-10½”
(6.97m)
510
(155.4m)
20’
(6.1m)
21’
(6.4m)
22’
(6.71m)
23'
(7.01m)
Total Fall Clearance Required* for Two Workers when using a
SelfRetracting Lifeline/Fall Limiter with a Xenon HLL Sys-
tem
SingleSpan Systems
System/Span Length**
[ft (m)]
Single Shock Absorber Sys-
tem for 12 Workers Double
10
(3m)
9’7”
(2.92m)
Shock Absorber System for
34 Workers
15
(4.5m)
10’1”
(3.07m)
11’1”
(3.38m)
20
(6.1m)
10’6”
(3.2m)
11’7½”
(3.55m)
25
(7.6m)
10’11”
(3.33m)
12’2”
(3.71m)
30
(9.1m)
11’3½”
(3.44m)
12’8”
(3.86m)
MultipleSpan Systems (with 30 ft. spans)
System Length
[ft (m)]
Single Shock Absorb-
er System for 12
Workers
Double Shock Ab-
sorber System for
34 Workers
30
(9.1m)
11’3½”
(3.44m)
12’8”
(3.86m)
60
(18.2m)
11’6½”
(3.52m)
12’10½”
(3.93m)
90
(27.4m)
11’9”
(3.58m)
13’1”
(3.99m)
120
(36.5m)
11’11½”
(3.65m)
13’3”
(4.04m)
150
(45.7m)
12’1½”
(3.7m)
13’5”
(4.09m)
180
(54.8m)
12’3½”
(3.75m)
13’7”
(4.14m)
210
(64m)
12’5”
(3.79m)
13’9”
(4.19m)
240
(73.1m)
12’7”
(3.83m)
13’11”
(4.24m)
270
(82.2m)
12’8½”
(3.87m)
14’-½”
(4.28m)
300
(91.4m)
12’10”
(3.91m)
14’2”
(4.32m)
330
(100.5m)
12’11½”
(3.95m)
14’3½”
(4.36m)
360
(109.7m)
13’1”
(3.99m)
14’5”
(4.4m)
390
(118.8m)
13’2”
(4.01m)
14’6½”
(4.43m)
420
(128m)
13’3½”
(4.05m)
14’8”
(4.47m)
450
(137.1m)
13’4½”
(4.08m)
14’9”
(4.5m)
480
(146.3m)
13’6”
(4.12m)
14’10½”
(4.54m)
510
(155.4m)
13’7”
(4.14m)
15’
(4.57m)
**For lifeline spans between the span lengths listed in the fall clearance charts, use the next
higher lifeline span calculations. Example: For a 70 ft. lifeline, use the 90 ft. fall clearance
calculations.
HONEYWELL MILLER® FALL PROTECTION PRODUCTS
TOTAL SATISFACTION ASSURANCE
At Honeywell Miller Fall Protection, we have been providing quality Honeywell Miller
brand fall protection equipment to millions of workers worldwide since 1945.
LIMITED LIFETIME WARRANTY
BACKED BY OVER 60 YEARS IN THE FALL PROTECTION BUSINESS
We sincerely believe that our fall protection equipment is the best in the world.
Our products endure rigorous tests to ensure that the fall protection equipment you
trust is manufactured to the highest standards. Honeywell Miller fall protection products
are tested to withstand normal wear and tear, but are not indestructible and can be
damaged by misuse. Our Limited Lifetime Warranty does not apply to normal wear and
tear or abusive treatment of the product.
In the unlikely event that you should discover defects in either workmanship or
materials, under our Limited Lifetime Warranty, we will repair or replace the product at
our expense. If a replacement is necessary and your product is no longer available, a
comparable product will be substituted.
Should a product issue surface, contact us at 800.873.5242.
Manufacturing specications are subject to change without notice.
PRODUITS HONEYWELL MILLER® FALL PROTECTION
ASSURANCE DE SATISFACTION TOTALE
Chez Honeywell Miller Fall Protection, nous fournissons des équipements de pro-
tection contre les chutes de marque Honeywell Miller de qualité à des millions de
travailleurs dans le monde entier depuis 1945.
GARANTIE LIMITÉE À VIE
ASSURÉE GRÂCE À PLUS DE 60 ANS PASSÉS DANS LE DOMAINE DE LA
PROTECTION CONTRE LES CHUTES
Nous croyons sincèrement que notre équipement de protection contre les chutes est le
meilleur au monde. Nos produits sont soumis à des tests rigoureux, an d’assurer que
les équipements de protection contre les chutes dans lesquels vous avez conance
sont fabriqués selon les normes les plus exigeantes.
Les produits de protection contre les chutes Honeywell Miller sont soumis à des essais
pour vérier qu’ils résistent à une usure normale; ils ne sont cependant pas
indestructibles et peuvent s’endommager en cas de mauvaise utilisation. Notre
garantie limitée à vie ne s’applique pas à l’usure normale ou à un usage abusif
du produit.
Dans le cas peu probable où vous découvririez des défauts, soit de fabrication, soit
de matériau, dans le cadre de notre garantie à vie, nous réparerons ou remplace-
rons le produit à nos frais. En cas de remplacement, si votre produit n’est plus
oert, vous recevrez un produit comparable.
En cas de problème sur un produit, nous contacter au 800-873-5242.
Les caractéristiques de fabrication peuvent être modiées sans préavis.
PRODUCTOS ANTICAÍDAS HONEYWELL MILLER®
GARANTÍA DE SATISFACCIÓN TOTAL
En Honeywell Miller Fall Protection, venimos suministrando desde 1945 los
equipos de protección anticaídas con la calidad Honeywell Miller a millones de
trabajadores en todo el mundo.
GARANTÍA LIMITADA DE POR VIDA
NOS RESPALDAN MÁS DE 60 AÑOS EN LA FABRICACIÓN DE
EQUIPO ANTICAÍDAS
Sinceramente creemos que su equipo de protección contra caídas es el mejor del
mundo. Nuestros productos resisten rigurosas pruebas para garantizar que el equipo
de protección contra caídas en el que usted confía está fabricado de conformidad con
las normas más elevadas. Los productos anticaídas Honeywell Miller son sometidos
a pruebas para que resistan el desgaste normal, pero no son indestructibles y su
incorrecta utilización puede dañarlos. Nuestra Garantía limitada de por vida no se
aplica al desgaste normal ni al maltrato del producto.
En el poco probable caso de que usted descubriera defectos de mano de obra o
materiales, por nuestra Garantía limitada de por vida, repararemos o sustituiremos
el producto por cuenta nuestra. Si un reemplazo es necesario y nuestro producto
ya no está disponible, se lo sustituiremos por otro comparable.
En caso de que surja un problema con el producto, contáctenos al 800.873.5242.
Las especicaciones de fabricación están sujetas a modicaciones sin previo aviso.
INSPECTION AND MAINTENANCE LOG
Registre D'inspection et D'entretien /Registro de Inspección y Mantenimiento
DATE OF MANUFATURE:___________________________________________________
DATE DE FABRICATION / FECHA DE FABRICACIÓN
MODEL NUMBER:_______________________________________________________________
NUMÉRO DE MODÈLE / NÚM. DE MODELO
DATE PURCHASED:_____________________________________________________________
DATE D’ACHAT / FECHA DE COMPRA
INSPECTION DATE
DATE D’INSPECTION
FECHA DE
INSPECCIÓN
INSPECTION ITEMS NOTED
POINTS NOTÉS
LORS DE L’INSPECTION
PUNTOS DE INSPECCIÓN
RELEVANTES
CORRECTIVE ACTION
ACTION CORRECTIVE
MEDIDA CORRECTIVA
MAINTENANCE PERFORMED
ENTRETIEN EFFECTUÉ
MANTENIMIENTO REALIZADO
Approved by:
Approuvé par:
Aprobado por:
Approved by:
Approuvé par:
Aprobado por:
Approved by:
Approuvé par:
Aprobado por:
Approved by:
Approuvé par:
Aprobado por:
Approved by:
Approuvé par:
Aprobado por:
Approved by:
Approuvé par:
Aprobado por:
**For lifeline spans between the span lengths listed in the fall clearance charts, use the next higher lifeline span calculations. Example: For a 70 ft. lifeline, use the 90 ft. fall clearance calculations.
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