Title: Essentials of Fire Fighting,
1- Essentials of Fire Fighting,
- 5th Edition
Chapter 8 Rescue and Extrication Firefighter II
2Chapter 8 Lesson Goal
- After completing this lesson, the student shall
be able to operate various kinds of rescue
equipment and practice correct extrication
procedures at an accident scene following the
policies and procedures set forth by the
jurisdiction (AHJ).
3Specific Objectives
- 1. Discuss maintaining emergency power and
lighting equipment. - 2. Describe characteristics of hydraulic rescue
tools. - 3. Describe characteristics of nonhydraulic
rescue tools.
(Continued)
4Specific Objectives
- 4. Discuss cribbing for rescue operations.
- 5. Describe the characteristics of pneumatic
tools. - 6. Discuss lifting/pulling tools used in rescue
operations.
(Continued)
5Specific Objectives
- 7. Explain the size-up process for a vehicle
incident. - 8. Describe items to look for when assessing the
need for extrication activities. - 9. Discuss stabilizing vehicles involved in a
vehicle incident.
(Continued)
6Specific Objectives
- 10. List the three methods of gaining access to
victims in vehicles. - 11. List the most common hazards associated with
wrecked passenger vehicles. -
(Continued)
7Specific Objectives
- 12. Explain the dangers associated with
Supplemental Restraint Systems (SRS) and
Side-Impact Protection Systems (SIPS). - 13. Describe basic actions taken for patient
management.
(Continued)
8Specific Objectives
- 14. Describe patient removal.
- 15. Describe laminated safety glass and tempered
glass. - 16. Discuss removing glass from vehicles.
- 17. Explain considerations when removing vehicle
roof and doors.
(Continued)
9Specific Objectives
- 18. Describe common patterns of structural
collapse. - 19. Describe the most common means of locating
hidden victims in a structural collapse. - 20. Describe structural collapse hazards.
(Continued)
10Specific Objectives
- 21. Describe shoring.
- 22. Discuss technical rescue incidents.
- 23. Service and maintain portable power plants
and lighting equipment. (Skill Sheet 8-II-1)
(Continued)
11Specific Objectives
- 24. Extricate a victim trapped in a motor
vehicle. (Skill Sheet 8-II-2) - 25. Assist rescue teams. (Skill Sheet 8-II-3)
12Maintaining Emergency Power/Lighting Equipment
- Review manufacturers service manual
- Inspect spark plugs, plug wires
- If spark plug damaged or service manual
recommends, replace - Check equipment carburetor
- Check fuel level, fill if necessary
(Continued)
13Maintaining Emergency Power/Lighting Equipment
- If fuel old, replace with fresh
- Check oil level, replenish as needed
- Start generator run any tests identified in
Operator Manual - Inspect all electrical cords
(Continued)
14Maintaining Emergency Power/Lighting Equipment
- Test operation of lighting equipment
- Replace light bulbs as necessary
- Clean work area
- Document maintenance on appropriate forms/records
15Powered Hydraulic Tools
- Operated by hydraulic fluid pumped through
special high-pressure hoses - Most powered by electric motors or two- or
four-cycle gasoline engines - May be portable
- May be mounted on vehicle
16Spreaders
- First tool available to fire/rescue service
- Capable of pushing, pulling
- Can produce tons of force at tips
- May spread as much as 32 inches (800 mm)
17Shears
- Capable of cutting almost any metal object
- May be used to cut other materials
- Capable of producing tons of force
- Opening spread of approximately 7 inches (175 mm)
18Combination Spreader/Shears
- Two arms with spreader tips
- Inside edges of arms equipped with cutting
shears - Excellent for small rapid-intervention vehicles,
departments with limited resources - Capabilities less than individual units
19Extension Rams
- Straight pushing operations
- May be used for pulling
- Useful when pushing farther than shears
maximum opening distance
(Continued)
20Extension Rams
- Extend from closed length of 3 feet (1 m) to
around 5 feet (1.5 m) - Open with tons of pushing force close with ½
opening force
21Manual Hydraulic Tools
Disadvantages Slower than powered hydraulic Limited range of operation Labor-intensive Advantages Relatively inexpensive Light weight Can be used in areas inaccessible to powered units
22Porta-Power Tool System
- Operated by transmitting pressure from manual
hydraulic pump through high-pressure hose to tool
assembly - Advantage Operates in narrow places
- Disadvantage Assembly/operation time-consuming
23Hydraulic Jacks
- Designed for heavy lifting applications
- Excellent compression device for shoring,
stabilizing operations - Lifting capabilities up to 20 tons (18 tonnes t)
24Nonhydraulic Jacks
- Screw jacks
- Extended/retracted by turning threaded shaft
- Check for wear after each use
- Keep clean, lightly lubricated
- Bar screw jacks
- Trench screw jacks
(Continued)
25Nonhydraulic Jacks
- Ratchet-lever jacks
- Rigid I-beam with perforations in web and a
jacking carriage with two ratchets on geared side
fitting around I-beam - Least stable can be dangerous
- Can fail under heavy load
26Cribbing
- Essential in many rescue operations
- Most commonly used to stabilize objects
- Wood
- Plastic
- Storage
27Pneumatic (Air-Powered) Tools
- Air chisels
- Pneumatic nailers
(Continued)
28Pneumatic (Air-Powered) Tools
(Continued)
Courtesy of Supersonic Air Knife, Inc.
29Pneumatic (Air-Powered) Tools
30Tripods
- Create anchor points above manholes, other
openings - Allow rescuers to be safely lowered into confined
spaces and rescuers/victims to be hoisted out
31Winches
- Excellent pulling tools
- Usually deployed faster, greater travel/pulling
distances, stronger than other lifting/pulling
devices - Usually behind front bumper of vehicles
(Continued)
32Winches
- Most common drives
- Electric
- Hydraulic
- Power take-off
- Pull by using chains/cables
(Continued)
33Winches
- Should be equipped with handheld, remote-control
devices - Should be positioned as close to objects being
pulled as possible
34Come-Alongs
- Portable cable winches operated by manual
ratchet levers - Attached to secure anchor points
- Lever rewinds cable
- Common sizes 1-10 tonnes (0.9-9.1 t)
35Chains
- Used with winches and come-alongs
- Only alloy steel chains should be used in rescue
work - Special alloys available for corrosive/hazardous
atmospheres - Proof coil chain not suitable for rescue
36Pneumatic Lifting Bags
- Give rescuers ability to lift/displace objects
- High-pressure bags
- Low- and medium-pressure bags
- Lifting bag safety rules
37Block and Tackle Systems
- Convert given amount of pull to working force
greater than the pull - Useful for lifting/pulling heavy loads
(Continued)
38Block and Tackle Systems
- Block Wooden or metal frame containing one or
more pulleys called sheaves - Tackle Assembly of ropes used to multiply
pulling force
39Scene Size-Up
- Begins as soon as first emergency vehicle
approaches accident scene - Importance
- Prevent injury to rescuers
- Prevents further injury to victims
- Clarifies required tasks
- Identifies needed resources
40Positioning Apparatus
- Officer in charge should position according to
SOP/situation at hand - Position close enough for equipment, supplies to
be readily available - Should not be so close that it might interfere
with other on-scene activities
(Continued)
41Positioning Apparatus
- First-arriving engine should be positioned to
provide protective barrier - U.S. DOT recommends headlights be turned off,
unless needed for scene illumination - At least one traffic lane should be closed to
nonemergency traffic
(Continued)
42Positioning Apparatus
43Considerations When Arriving On Scene
- What are traffic hazards what types of control
devices needed? - How many/what types of vehicles involved?
- Where/how are vehicles positioned?
- How many victims/what is their status?
(Continued)
44Considerations When Arriving On Scene
- Is there fire or potential?
- Any hazardous materials involved?
- Any utilities that may be damaged if so is this
hazardous? - Need for additional resources?
45Assess Immediate Area Around Vehicle
- Number of victims in/around
- Severity of injuries
- Condition of vehicle
- Extrication tasks that may be required
- Hazardous condition
46Assess Entire Area Around Scene
- Other vehicles not readily apparent
- Victims thrown from vehicle
- Damage to structures/utilities that present hazard
47Stabilizing the Vehicle
- Is vital to prevent further injury
- Uses cribbing/shoring devices
- Prevents sudden/unexpected movement of vehicle
- NEVER test stability by pushing/pulling
(Continued)
48Stabilizing the Vehicle
- Prevent horizontal motion
- Chock vehicles wheels
- Do not rely on mechanical systems
- Prevent vertical motion
- Jacks
- Pneumatic lifting bags
- Cribbing
(Continued)
49Stabilizing the Vehicle
- Rescuers should avoid placing parts of their
bodies under vehicle - Vehicles upside down, on side, or on slope should
be stabilized using whatever means available - Shut down electrical power in vehicle
50Methods for Gaining Access to Victims in Vehicles
- Through normally operating door
- Through window
- By cutting away parts of vehicle body
51Potential Hazards of Wrecked Passenger Vehicles
- Oil- and air-filled struts
- Fuel, other flammable liquids
- High pressure tires
- Contents of trunk or vehicle interior
52Dangers Associated with SRS, SIPS
- Accidental activation of SRS or SIPS
- Reserve energy supply causes systems to deploy
even after battery disconnected - Activities can activate systems
- Prevention
- Some systems in SIPS design do not require power
from vehicles electrical system
53Actions for Patient Management
- Choose easiest route to gain access
- Rescuer with emergency medical training should
enter vehicle to stabilize/protect patient
(Continued)
54Actions for Patient Management
- Rescuers inside vehicle should wear PPE
- Treatment can be simultaneous with preparation
for removal from vehicle - Vehicle must be removed from around patient
55Patient Removal
- Package patient properly
- Cover sharp edges
- Widen openings
- Pad edges
56Laminated Safety Glass Characteristics
- Manufactured from two sheets bonded to sheet of
plastic between - Most commonly used for windshields, rear windows
(Continued)
57Laminated Safety Glass Characteristics
- Produces long, pointed shards with sharp edges
- Stays attached to laminate and moves as unit when
broken - Keeps shards of glass from flying about
58Tempered Glass Characteristics
- Most commonly used in side windows, rear windows
- Designed so small lines of fracture spread
throughout and glass separates into many small
pieces - Eliminates long, pointed pieces can still cause
lacerations
59Removing Laminated Glass
- Can seriously weaken vehicle body leave intact
if possible - More complicated, time-consuming than removing
tempered glass - Best method is with saw
- Hand tools can be used
(Continued)
60Removing Laminated Glass
- In older vehicles, total windshield removal
should be performed before roof laid back or
removed - Requires several rescuers
- Passengers inside should be covered with a tarp
61Removing Tempered Glass
- Methods
- Strike window with sharp, pointed object in lower
corner - Use spring-loaded center punch
- Use standard center punch or Phillips screwdriver
- With pick-head axe or Halligan tool
(Continued)
62Removing Tempered Glass
- Controlling broken glass
- Apply sheet of self-adhesive contact paper
- Apply aerosol spray adhesive
63Removing the Roof
- Designations A, B, C assigned to vehicle door
posts from front to back - A-post is front post area
- B-post is between front and rear doors on
four-door nearest handle on two-door - C-post is post nearest handle on rear door of
four-door rear roof post on two-door
(Continued)
64Removing the Roof
- Removal methods
- Cut all roof posts remove roof entirely
- Cut front posts, cut relief notches in roof at
top of rear door openings, fold roof back - Plastics do not bend remove entire roof
- Unibody vehicles are prone to collapse
65Removing Doors
- Can be opened from handle side
- May be removed by inserting spreader in crack on
hinge side - May be removed by cutting hinges, breaking latch
mechanism, compromising door locks
(Continued)
66Removing Doors
- Plastic door panels may have to be removed to
gain access to metal frame - Interior plastic molding may need to be removed
67Displacing Dashboard
- May be necessary to free patients pinned under
steering wheel and/or wedged under dashboard - Steps
68Rescue From Collapsed Buildings
- Difficulty in reaching victim in structural
collapse depends upon conditions - In some cases, uninjured/slightly injured
occupants can make their way to surface of rubble - These should be helped first
(Continued)
69Rescue From Collapsed Buildings
- Next, rescue those lightly trapped by debris
- Rescuing the heavily trapped/seriously injured
requires the services of technical rescue team
70Pancake Collapse
- Possible in any building where failure of
exterior walls results in upper floors and roof
collapsing on top of each other - Least likely to contain voids in which live
victims can be found
71V-Shaped Collapse
- Occurs when outer walls remain intact and upper
floors/roof structure fail in middle - Offers good chance of habitable void spaces
along both outer walls
72Lean-To Collapse
- Occurs when one outer wall fails while opposite
wall intact - Side of floor or roof assembly supported by
failed wall drops to floor, forming triangular
void
73A-Frame Collapse
- Occurs when floor/roof assemblies on both sides
of center wall collapse - Offers good chance of habitable void spaces on
both sides of center wall
74Cantilever Collapse
- When one or more walls of a multistory
building collapse leaving floors attached
to/supported by remaining walls
(Continued)
75Cantilever Collapse
- Offers good chance of habitable voids forming
above/below supported ends of floors - Least stable of all patterns most vulnerable to
secondary/subsequent collapse
76Locating Hidden Victims
- Hailing Calling out to elicit response from
hidden victims - Seismic/short-distance radar devices
- Electronically enhanced acoustic listening devices
(Continued)
77Locating Hidden Victims
- Search cameras
- Thermal imaging cameras
- Search dogs
78Environmental Hazards
- Damaged utilities
- Atmospheric contamination
- Hazardous materials contamination
- Darkness
(Continued)
79Environmental Hazards
- Noise
- Fire
- Temperature extremes
- Adverse weather conditions
80Physical Hazards
- Unstable debris
- Confined spaces
- Exposed wiring/rebar
- Heights
81Shoring
- Means by which unstable structures or parts of
structures can be stabilized - Prevents sudden movement of objects too large to
be moved in timely manner
(Continued)
82Shoring
- Not intended to move heavy objects
- May involve air bags/jacks, cribbing, system of
wooden braces
83Rescue From Trench Cave-Ins
- Caused by trench construction
- Sometimes would-be rescuers are killed
- Knowing how to make structure safe for entrance
and taking time to do so offer best chance of
survival
(Continued)
84Rescue From Trench Cave-Ins
- Rescue operations depend on making site as safe
as possible - Rescuers should not be sent into trench unless
trained/equipped
(Continued)
85Rescue From Trench Cave-Ins
- Rescue apparatus, nonessential personnel,
equipment, spectators should be kept away - Safety precautions should be taken
86Confined Space Rescues
- Confined space
- Large enough and configured so that employee can
bodily enter/perform assigned work - Limited/restricted means of entry/exit
- Not designed for continuous employee occupancy
(Continued)
87Confined Space Rescues
- Several common types
- Should only be performed by firefighters with
specific training - Atmospheric hazards
- Physical hazards
- Command post, staging area outside hot zone
(Continued)
88Confined Space Rescues
- Do not enter staging area until IAP
developed/communicated - Attendant must track personnel, equipment
entering/leaving space - Equipment
- Lifeline
(Continued)
89Confined Space Rescues
- O-A-T-H Method
- O One tug OK
- A Two tugs Advance
- T Three tugs Take-up
- H Four tugs Help
- Air monitoring devices
- Accountability system
90Rescue From Caves, Mines, Tunnels
- Most firefighters not trained/equipped to perform
- Must be done by those familiar with specific
environment
91Rescues Involving Electricity
- Safety precautions
- Electrical wires on ground can be dangerous
without being touched - Ground gradient
- Rescuers should stay away from downed wires
distance equal to one span between poles
92Water and Ice Rescue
- Swimming pools, ponds, low-head dams
- Rescues
- Victim stranded, floundering, has been submerged
for short time - Recoveries
- Victim submerged for long period of time and
likely deceased
(Continued)
93Water and Ice Rescue
- All appropriate PPE should be worn
- Methods
- REACH
- THROW
- ROW
- GO
94Ice Rescue Considerations
- Because ice is thick, not necessarily strong
- Victims almost certainly suffering hypothermia
- Victims may not be able to help
- Victims chances of survival depend on how
quickly out of water/into warmth
95Ice Rescue Protocols
- Instruct victim NOT to try to get out of water
until rescuer says so - REACH
- THROW
- GO
96Industrial Extrication
- Can be among most challenging rescue situations
- Once mechanism stabilized, power should be shut
off - If problem outside capability of team, outside
expertise required
97Elevator Rescue
- Usually not a true emergency
- Usually involves elevators stalled between floors
- Firefighters should reassure passengers and wait
for a mechanic
(Continued)
98Elevator Rescue
- Only an elevator mechanic should perform
adjustments to mechanical system - Elevator rescue may be necessary should only be
performed by trained personnel - Communication with passengers essential
99Escalator Rescue
- Stop switches usually on nearby wall, at base of
escalator, at point close to handrail in newel
base - Activating switch stops stairs
- Should be stopped during rescues
- Escalator mechanic should be requested when
removing victims
100Summary
- Firefighters must be capable of performing basic
rescue and extrication operations as a member of
a team.
(Continued)
101Summary
- Firefighters must be willing to pursue
specialized training in each of the rescue areas,
including fireground search and rescue
operations, vehicle extrication operations, and a
variety of technical rescue operations.
102Review Questions
- 1. Describe powered hydraulic tools used in
rescue incidents. - 2. What are air chisels and pneumatic nailers
commonly used for? - 3. List four safety rules when using pneumatic
lifting bags. -
(Continued)
103Review Questions
- 4. Why is stabilizing vehicles involved in
incidents important? - 5. What are the common means of locating hidden
victims in the rubble of a structural collapse? -