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Fall Protection. Solutions for Safety at Heights. Risk Assessment. Hierarchy of fall protection options. Supplementary Administration Controls

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Consult AS/NZS 1891.4 – HIERARCHY OF CONTROLS, these are; • IDENTIFY all potential fall hazards.

• ELIMINATE the need to access the potential hazard area. • SUBSTITUTION of the potential hazard area, e.g. walkways. • ISOLATION, by enclosing or barracading the hazard area.

• FALL PROTECTION EQUIPMENT shall be provided which prevents a fall, or reduces the risk of an injury as a result of a fall.

Note: The order of control should be from top to bottom.

Hierarchy of fall protection options

Fall Protection

Solutions for Safety at Heights

Risk Assessment

Total Restraint

Fall protection measures that prevent the user from reaching a point where a fall is possible.

Physical Controls

Restraint Technique

Fall protection equipment that allows an operator to adjust as necessary to reach a point where a fall is possible.

Work Positioning

The use of work positioning devices such as elevating work platforms (EWP) swing stages + building maintenance units (BMU) or by means of industrial rope across systems that reduce the fall risk.

Limited Free Fall Arrest / Restrained Fall Arrest Fall protection equipment that will not prevent a fall but will limit the fall distances.

Free Fall Arrest

Equip operators with fall arrest equipment that will not prevent a fall but will limit the fall distance.

Supplementary Administration Controls

Safe Systems of Work

Allow only trained competent operators to access the hazardous areas.

Provision for Rescue

Make advance provision for the rescue of operators in the event of a fall.

Exclusion Area

Demarcation zones e.g. Painted lines to inhibit access to potential fall hazard areas.

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Fall Protection

What do I want?

Comfort. You want the perfect fit. To ensure a perfect fit, harnesses are available in different sizes. A standard size will fit most workers. See sizing selection chart to determine the best size for you.

Ease of Use. You want a harness that is easy for you to get into and adjust. Harnesses are available in primarily two styles:

• Parachute style (vest style). A Vest type harness is put on like a jacket.

• Crossover (cross-chest). A crossover harness is put on over the head, similar to putting on a jumper.

The choice on style is a matter of personal preference.There are also different types of leg and shoulder strap connections available on a harness: • Qwik-Fit (traditional mating buckle) or

• Klik Connect

(auto lock double action unlock)

Both styles offer fast and easy connection and adjustment. The choice of leg strap connections is a matter of personal preference.

You also have a choice of D-Ring

configurations on a harness: Rear D-rings, Side D-rings, or chest D-rings (or web loops). D-ring usage is as follows:

• Chest D-ring (or web loops). Under the new AS/NZS 1891.1:2007 standard. This chest frontal attach point is the preferred point of attachment for all fall arrest applications.

• Rear D-Ring. This is also an approved attachment point for fall arrest. It can also be used as a rescue attachment. • Side D-rings. Used for work positioning

activities to allow the worker to have their hands free to perform work, using pole strap.

How do I know which to choose?

There are two primary types of lanyards: • Shock-absorbing lanyards used when

the free fall distance (fall hazard) can exceed 600mm

• Restraint or positioning lanyards used only when free fall distance (fall hazard) can be limited to 600mm or less (note: a shock absorber must still be used in the lanyard)

In choosing the correct lanyard, you must

keep the application in mind.

• Make certain the lanyard is the proper length to allow the necessary worker movement/positioning.

• Make certain that the right material type is chosen (depending on your work environment).

– Cable works best in high heat environments or around sharp edges. – Rope or Webbing works best in most

other applications.

• Make certain you have calculated your

total fall distance. See diagram below

for more information.

You also need to consider the compatibility of the system components. Components produced by different manufacturers may not be interchangeable. The best way to ensure compatibility is to purchase all components from the same manufacturer. Note: If a lanyard assembly

is not suitable then use of a self retracting lifeline (SRL) device is recommended.

How do I know which to choose?

Anchorage selection is driven primarily

by application. You will need to carefully

consider your work environment , in particular the type of structure where the connector will be attached.

Examples include: • Roof • Scaffold • Steel Beam • Concrete Column • Rail

Weight should also be a consideration

if a worker will need to carry the connector around during the work day.

You will also need to consider the number

of workers required to attach to the

anchorage. Most MSA connectors are rated for two person use with a 22.2kN minimum breaking strength. Anchorages are required, under AS/NZS 1891.4, to have a minimum breaking strength of 15kN for 1 person attached. An anchorage rated to greater than 21kN is suitable for use by no more than 2 people.

Making Safety as Easy as 1, 2, 3...

ANCHORAGE

HARNESS

1

2

LANYARD

3

Body Weight (kg)

HARNESS SIZING CHART

50 60 70 80 90 100 110 120 130 140 2.0 1.8 1.5 SMALL STANDARD Height LARGE

CALCULATING TOTAL FALL DISTANCE

SOLUTIONS FOR SAFETY AT HEIGHTS

TYPICAL FALL SITUATION AND RESCUE

FACTORS TO CONSIDER

Anchorage (Min.15Kn) Full Body Harness

Connection Means (Shock Absorbing Lanyard or SRL) Rescue Plan

Clearance Distance (see chart)

Using the unique MSA Rescue Pole Kit, Rescue Safe Retrieval System or The Skylotec Milan rescue devices, allows a rescue to be carried out without putting a rescuer in danger by requiring them to climb down to the fallen worker, these rescue devices allow a rescue to be performed within 5 to 10 minutes with a regular training sessions on the techniques.

RESCUE METHODS

WORKING HEIGHT CLEARANCE TO NEXT SURFACE OR OBSTACLE Anchor Point 2m Length of Lanyard 1.75m Extension of Absorber 1.8m Height of Person 1m Safety Factor

CLEARANCE DISTANCE

TOTAL FALL CLEARANCE REQUIRED = 6.55m

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Fall Protection

Solutions for Safety at Heights

As easy as - A + B + C + R

A = Anchorage

Selection of the anchorage point should be to a minimum rating of 15kN, regardless of the work application. Note: The MSA range of anchorages are all rated to a minimum of 15kN but in most products to 22kN which allows 1 or 2 persons to be attached the same anchor.

B = Body Support

Full Body or lower body harness, general height work, work positioning / suspension, confined space applications. You must select the harness applicable to your work application.

Note: MSA does not recommend a lower body harness for use in industrial fall protection applications.

C = Connection Means

What is needed between the anchorage and harness?

As a minimum, a lanyard assembly (shock absorbing lanyard). Possible configurations are; • Fixed Length Lanyards

• Adjustable Lanyard • Tie back lanyard • Twin-tail lanyard

All available in 11mm Kernmantle Rope, 22mm webbing or PVC covered stainless steel wire rope. Also available is the MSA range of self retracting lanyards, both webbing and wire rope.

R = Rescue

Typically the forgotten term in a PPE selection plan. Suspension trauma can occur in as little as 5 minutes after a person has fallen in a harness. Do not rely on local rescue authorities to be on site within 5 minutes. MSA has a range of simple to use rescue products to assist you in performing a quick, safe and successful rescue. Consult your MSA specialist for advice on all of the above.

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SUSPENSION TRAUMA

THE MAJOR REASON FOR THE IMPORTANCE OF EFFECTING A QUICK RESCUE RESPONSE

SOLUTIONS FOR SAFETY AT HEIGHTS

TYPICAL FALL SITUATION AND RESCUE

FACTORS TO CONSIDER

Anchorage (Min.15Kn) Full Body Harness

Connection Means (Shock Absorbing Lanyard or SRL) Rescue Plan

Clearance Distance (see chart)

Using the unique MSA Rescue Pole Kit, Rescue Safe Retrieval System or The Skylotec Milan rescue devices, allows a rescue to be carried out without putting a rescuer in danger by requiring them to climb down to the fallen worker, these rescue devices allow a rescue to be performed within 5 to 10 minutes with a regular training sessions on the techniques.

RESCUE METHODS

WORKING HEIGHT CLEARANCE TO NEXT SURFACE OR OBSTACLE Anchor Point 2m Length of Lanyard 1.75m Extension of Absorber 1.8m Height of Person 1m Safety Factor

CLEARANCE DISTANCE

TOTAL FALL CLEARANCE REQUIRED = 6.55m

Drawing only representational. NOT TO SCALE

(5)

Fall Protection

New Fall Protection Standard

AS/NZS 1891.1:2007

Introduction

A new fall protection standard AS/NZS 1891.1; 2007

COVERING HARNESSES AND ANCILLARY EQUIPMENT was released in August 2007. The changes made are significant and did require changes to the MSA (Aust.) range of harnesses, belts & shock absorbing lanyards.

As far as manufacturing of our current product range is concerned the Classic range will be removed and replaced by the Workman range of harnesses. By 30 August 2008 all our harnesses, belts and shock absorbing lanyards will have to be manufactured to the new requirements.

The changes are as follows.

Harnesses

• Full body harnesses must now offer at least one frontal attachment point at the waist or chest and be certified as a free-fall arrest attachment point.

• A rear dorsal or second centre frontal attachment point may be provided.

• Side attachment points, if provided, shall be for pole strap attachment and be marked as such. These side attachment points will be tested Restrained Fall Arrest.

Belts

• The use of belts for any purpose has been removed from the standard. This will have an effect on Pole Workers Belts, Restraint Belts and Miners Belts.

Lanyards

• There is no longer a definition for restraint lanyards. It has been removed from the scope of this standard. • Single leg shock absorbing lanyards. The traditional shock

pack style shock absorbing lanyards has not changed. This will include the diamond single leg version. • Diamond Twin Leg. Has been stock deleted due to the

fact that with shock absorption in both legs it will not meet the new test requirements.

• Workman twin leg shock absorbing lanyard. A new ‘Workman’ twin leg with single shock pack has been developed and certified. Launch is scheduled for July 2008.

Definitions

• Restraint. Work to be conducted in restraint applications will need to use fall arrest equipment, such as an energy absorbing lanyard with the slack removed, so there is no risk of a fall.

• Free-Fall, Free-Fall Arrest. A fall or the arrest of a fall, where the fall distance before the fall arrest system begins to take any loading is in excess of 600mm, either

vertically or on a slope on which it is not possible to walk without the assistance of a handrail or hand line. • Limited Free-Fall, Limited Free-Fall Arrest. A fall or the

arrest of a fall occurring under the conditions described for a FREE-FALL ARREST, except under reasonably foreseeable circumstances the fall distance will not exceed 600mm. • Restrained fall, Restrained Fall Arrest. A fall or the arrest of a

fall where the person suffering the fall is partially restrained by a restraining device, such as a pole strap under tension.

Frequently Asked Questions:

Once the new AS/NZS 1891.1: 2007 is fully effective, is equipment made to the old standard still useable? Yes! Harnesses, shock absorbing lanyards, belts (Pole Workers, Restraint and Miners) and other textile products detailed under the old AS/NZS 1891.1:1995 are useable for the 10 year life of the product from date of manufacture. Is there a change over time specified in the new standard? There is no specific change over time mentioned in the new standard. SAI Global has accepted that the products can be manufactured to the previous standard for 12 months after the publishing of the updated standard. This expires on 30 August 2008.

What are the effects of the proposed changes on the MSA (Aust) Fall Protection products?

We have a range of product that is already compliant with the new AS/NZS 1891.1: 2007 Standard. The Gravity Crossover and Gravity Tower Rescue harness are certified to the new requirements for the frontal fall-arrest attachment points. We have designed a new range of products called the Workman to replace the Classic and New Classic range of harnesses. The Workman range will be released in July 2008. The new Workman range of shock absorbing lanyards is certified to the new standard, as is the Diamond single leg.

Will the selection use and maintenance standards (AS/NZS 1981 Part 4) be changing and when?

AS/NZS 1891.4: 2000 is in draft review stage to reflect the changes in AS/NZS 1891.1: 2007. This refers to the use of sit Harnesses and the recommendations referring to restraint and restraint applications.

Does the updating of the standard affect fall arresters, Anchorage lines, Inertia reels, static lines or any of the installed fall arrest systems?

The only products affected by the proposed changes will be Harnesses and Lanyards. None of the other products are affected. The only exception to this will be the practice of designing Static Line Systems for Restraint. All static lines should now only be designed around the principle of Fall Arrest.

Greg Single, Product Marketing Manager - Fall Protection Products

References

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