rescue equipment - national institute of environmental
TRANSCRIPT
Rescue Equipment
INSTRUCTIONAL GOAL
The participant will understand the need to properly select and use rope-rescue equipment for confined space entry and rescue.
ENABLING OBJECTIVES:Based on the information presented in the classroom and in the student guide, the student will be able to:
a) Simple figure-8 knotb) Figure-8 on a bight knotc) Figure-8 follow through knotd) Figure-8 bende) Clove Hitchf) Munter Hitchg) Double fisherman’s knoth) Bowline knoti) Butterfly knot
1. Explain the uses and limitations of static kernmantle rescue rope.2. Identify various rope rescue hardware components and explain its use.3. Demonstrate the correct procedure for tying the following knots and hitches
Rescue Ropes, Webbing and Equipment
NFPA 1983 Standard On Fire Service Rope Life Safety Rope, Harness, and Hardware
Life Safety Rope:
Maximum working load: 300 pounds for a one-person rope600 pounds for a two-person rope.
Minimum breaking: 4500 pounds for a one-person rope9000 pounds for a two-person rope.
Rope Strength
Force is anything that can cause a moving object to change its shape, change its direction of motion, and/or change the speed at which it is moving
Kinetic Energy = ½ mv2 where m is the mass (weight) of the object and v is the velocity (speed) that the object is moving.
Free-fall objects accelerate at a constant 32 feet per second for every second of fall (32 feet/second2) because of the force exerted by gravity.
Height of Fall(Feet)
Time of Fall(Seconds)
Velocity of Fall(feet/second)
KE or Force of Impact(Pounds)
10 0.80 25.6 1,63820 1.10 35.2 3,097
30 1.40 44.8 5,017
40 1.60 51.2 6,553
50 1.78 56.9 8,410
60 1.95 62.4 9,732
70 2.10 67.2 11,287
80 2.25 72.0 12,960
90 2.38 76.1 14,477
100 2.50 80.0 16,000
Kinetic Energy Chart of a 160 pound Falling Body
Rope Strength
Rope must absorb the force of a falling object in order to stop its fall.
NFPA Standard indicates that a lifeline breaking elongation shall not be less than 15% or more than 55%.
Stretching the rope is another way of spreading the shock energy over a longer period of time.
This advantage is not present in cable systems.
NFPA single person loadSafety factorREQUIRED STRENGTH
300X 154500 lbs
3/8 or 7/16 Kernmantle rope required
NFPA double person loadSafety factorREQUIRED STRENGTH
600X 159000 lbs
½ kernmantle rope required
Work, Mechanical Advantageand the Pulley
The pulley is a simple machine.
The pulley is used for two things:
1) Change the direction of a rope’s force 2) Produce mechanical advantage.
(Work = force x distance)
Rope Type Melting Temp Abrasion Resistance
Comments
Nylon 500 F Good Good shock loading
Polyester 500 F Good Acid resist, poor caustic
Polyolefin 250 F Poor Impervious to acid
Spectra 300 F Good Chemical resist, poor shock loading
Kevlar 600 F Poor Poor shock loading, no sharp bend, expensive
Rope Types / Properties
TYPES OF KERNMANTLE ROPE
STATIC Low stretch rope Used for hauling, entry,
and rescueDYNAMIC High Stretch ropes Used for arresting a fall Not used in most entry or
rescue situations
CORE (kern) 50% - 85% of strength
Braided sheath (mantle) 15% - 50% of Strength
Rope Care and Storage
Written History Pad sharp corner (Rope and webbing do not usually
break, they cut) Avoid sharp bends Utilize efficient knots Retire the rope if there is any doubt as to its quality Storage cool dry place (bagged)
Rope Retirement
Rescue rope 5 year old (even if unused) Industrial rope 3 year old (even if unused) Rope absorbs a five foot fall Penetration of sheath Soft spots in the middle off the rope Exposure to chemicals Used for one rescue only Inspected visual and by feel
WEBBING 1” tubular webbing = 4000 lbs strength 1” solid Webbing = 6000 lbs strength 2” solid tubular webbing = 6000 lbs strength Poor shock loading qualities Poor abrasion resistance cuts easily under load Very versatile Can be purchased in straight lengths or sewn slings
Prusik cord
Prusik cord consists of a 7-9 mm nylon cord with a 2,000-3,000 lb strength. It is used for tie-offs, prusik lines, and substitute ascenders. It is important to note this material will not withstand shock loading.
Carabiners Strength varies from 6000 lbs (AL) to 15,000 lbs (steel heat treated) Link equipment together Quickly attaches and detaches May be fractured by dropping Designed to be loaded along long axis No double axis loads No hard links (3 carabiners hooked together) Do not over tighten locking mechanism
Steel Trilinks
9000 lbs strength Used for linking rigging and equipment together Designed for double axis load May be fractured by dropping
Descenders 9000 lb to 11,000 lb strength Friction device for lowering and rappelling Should have ears if used for rescue May get very hot if used for long rappel or
lowering May cause rope to twist or kink
Ascenders Strength varies from 2500 lbs to 6000 lbs Pull tested to 1000 lbs (gibbs) Used for ascending or grabbing rope Not designed to catch a fall Usually the weak link in a mechanical
advantage system May reduce rope strength by 2/3 May abrade the sheath of the rope
Prusik Knots
Strengths
• Inexpensive
• Simple to tie
• Can be used to ascend or descend loaded or unloaded ropes
• Can be used for self-rescue
• Can be used to assist hoisting and hauling when mechanical-advantage systems are stacked or piggybacked
Weaknesses
• Can be difficult to slide or untie after load has been applied
• Must be small diameter cord
Pulleys Breaking strength over 9000 lbs Load carrying capacity over 600 lbs Re-directs rope, produces rope, or produces
mechanical advantage Diameter of the pulley should be at least 4 times
larger than the diameter of the rope Splits to accept the middle of the rope
Rescue Harness
Class Ia) Fastens around the waistb) Designed for 1-person loadc) Common ladder belt
Class IIa) Fastened around waist and thighs or under
buttocksb) Rappelling seat
Class IIIa) Fastens around waist, around thighs or
under buttocks, and over shouldersb) Used when inverting is possiblec) Recommended for confined space entry
and rescued) D-rings provide at least 5000 lb strength
Harness Recommendations
Use personal harness if possible Easily adjustable Easy to put on and wear Must have D-ring between shoulder for
required safety line attachment if the entrant is working in a vertical space
Additional front D-ring is helpful Should be clean and well maintained Waist section rides on pelvic girdle Should be tight when in use
Personal Equipment
Harness Gloves Helmet Safety glasses Appropriate shoe and
body covering for the job
Tripods
350 lb working load 5000 lb breaking strength Designed to be loaded straight down Leg safety chain should be in place Designed for 1 person load only Should be placed on level surface The higher they are, the more unstable
Cable Winches
Cable has 350 lb working load (3/16) Cable breaking strength approximately 4000 lbs Winch should have fall arrester built-in Not designed for severe shock loading Should be backed-up for hauling a life load
Lanyards
Breaking strength approximately 5400 lbs
Rope or strap with attachment devices on the ends
Should not be more than 6 feet long
Should be replaced after catching one fall
Utility Straps
Used in anchoring I-Beam strap strength – 10,000lbs Adjustable utility straps
Webbing strength – 10,000 lbs D-ring strength – 5000 lbs
Wristlets
Used to pull the entrants arms above their head for entry into very narrow passages
Usually should not support the entrant’s body weight
Should be used in conjunction with a full-body harness
Hardware Warnings
If the hardware is dropped more than three feet onto a hard surface, inspect carefully for damage.
If the hardware is dropped more than 5 feet, replace or test the hardware.
In most cases, it will be cheaper to replace the hardware rather than have it tested.
Knots
Simple Figure-8 knot Figure-8 on a bight knot Figure-8 follow through Clove hitch Munter hitch Bowline Butterfly Knot Square Knot
Figure-8 on a Bight Knot
Frequently used as an attachment point on:
Harness D-ringAnchors
"dress" It
safety knot, such as an overhand knot or a double overhand knot.
Figure-8 Follow-Through
The figure-8 follow-through is used to tie a rope directly to an anchor or directly to a harness.
Used in Tensionless Off Tie Anchor
Bowline
The bowline knot is used primarily to make a fixed (non-slip) loop in the end of a line.
Used in Tensionless Off Tie Anchor
Clove Hitch
Primarily used to attach a rope to a pole or rod.
This knot only secures when under tension.
An overhand safety knot should always be tied to prevent it from untying.
Munter HitchThe munter hitch is used as a belay device
Designed to arrest and hold a one-person load
Square Knot
Used to tie the ends of a rope together. Can be loosened after it has been under tension