Conventional fire apparatus
The conventional fire apparatus
(also called a fire appliance, fire tender, fire engine, water ladder, pumper
or pump-ladder) may have several methods of pumping water onto the fire. The
most common method is to pass water from a pump through hoses to the fire, from an array of valves. It may also have a fixed
pumping "cannon" (also called a fire
monitor or deck gun), which can
direct the water as pointed by the operator. The horizontal and vertical range
of the monitor arrangement usually is limited and appropriate only for specific
tasks, such as airport fires. Monitors can also be used as water cannons for crowd
control. A fire engine may have an onboard water reservoir allowing
firefighters to begin tackling the fire immediately or it may be completely
reliant on external sources, such as fire
hydrants, water tenders, natural
sources such as rivers, or reservoirs by using draft water suction.
A development is the use of an impulse fire-extinguishing system (IFEX), in which the water is highly
pressurized into a vaporous mist, creating a more efficient cooling effect. Some fire engines have been equipped
with injectors for mixing foam into the pumped water stream creating a foam
solution that is more effective than water alone. Some modern apparatus have
included an air pump alongside foam injection to produce a compressed air foam
product that further increases the efficiency of the water stream, cutting down
dramatically on extinguishing time and water damage. This is referred to as a
CAFS (compressed air foam system).
Turntable ladder-
A turntable ladder (TL) is
perhaps the best-known form of special purpose aerial apparatus, and is used to
gain access to fires occurring at height using a large telescopic ladder, where
conventional ladders carried on conventional appliances might not reach.
The name is derived from the
fact that the large ladder is mounted on a turntable on the back of a truck chassis, allowing it to pivot around a
stable base, which in turn allows a much greater ladder length to be achieved.
To increase its length, the ladder is telescopic.
Modern TLs are either hydraulic or pneumatic in operation.
A ladder can also be mounted
behind the cab. This is sometimes called "mid-ship" and the arrangement
allows a shorter wheelbase for the truck, and also can be more stable in some
conditions.
The key functions of a
turntable ladder are:
Allowing access or egress of firefighters
and casualties at height;
Providing a high level water point for
firefighting (elevated master stream);
Providing a working platform from which
tasks such as ventilation or overhaul can be executed.
While the traditional
characteristic of a fire appliance was a lack of water pumping or storage, many
modern TLs have a water pumping function built in (and some have their own
onboard supply reservoir), and may have a pre-piped waterway running the length
of the ladder, to allow a stream of water to the firefighters at the top. In
some cases, there may also be a monitor at
the top of the ladder for ease of use. Other appliances may simply have a
trackway which will hold a manually run hose reel securely, and prevent it from
falling to the ground.
Tower ladder-
Some turntable ladders may have
a basket (sometimes known as a bucket) mounted at the top of the ladder, as on
a hydraulic platform; these are called tower ladders. These appliances can
provide a secure place for a firefighter to operate equipment from, and allow
multiple people, including rescued persons, to be carried.
Tiller ladder (Hook-and-ladder)
A tiller ladder, also known as
a tractor-drawn aerial, aerial ladder truck or hook-and-ladder truck, is a
specialised turntable ladder mounted on a semi-trailer
truck. It has two drivers, with separate steering
wheels for front and rear wheels.
This truck is primarily used in the United States, especially in cities—like San Francisco and Washington, DC—where narrow
streets cannot be entered by longer, rigid-bodied trucks. City Service Truck
was the predecessor to the modern tiller ladder in that there was no aerial
turntable ladder mounted. Only ground ladders were carried on a City Service
Truck. The 65 ft. (bangor pole, tormentor pole or stay pole) extension
ladder was the longest wood ground ladder carried on the obsolete San Francisco Fire Department City Service Truck, now only used for
parade and display. [2]
The hook-and-ladder concept
originated when taller buildings and narrow city streets became a problem for
fire departments. Larger ladders were needed to get to the upper stories of
buildings, and the only way to move them was with a large vehicle. However, the
only way to position these ladders properly was with a highly maneuverable
vehicle. The independent steering for the rear wheels allows the truck to
quickly position itself for fighting fires.
The word hook in
hook-and-ladder refers to the long-poled hooks, also called pike poles, carried on many types of
fire fighting apparatus. Hooks and ladders, essential tools in fire fighting,
were carried on fire trucks long before the development of the large tiller
ladder trucks. The fire-fighting hook is used to penetrate and pull apart
structure in the process of firefighting. In the US, tiller ladder trucks came
to be called hook-and-ladder trucks, even though hooks and ladders are not
their distinguishing features. At one time, there were two principle types of
firefighting apparatus: one carried the pump and hoses, and the other carried
the hooks and ladders.
Hydraulic platform-
A hydraulic platform, also
known as articulating booms, Snorkels, platform trucks, Bronto (used in
Australia and New Zealand) or sometimes shortened to HP, is a specialized aerial work platform designed for firefighting use. They
have a number of functions, which follow the same principles as the turntable
ladder, providing high level access and elevated water pump positions.
Some hydraulic platforms are articulated, which allows the arm to
bend in one or more places, giving it the ability to go "up and over"
an obstacle (such as a building roof). There are non-articulated platforms,
based on standard aerial work platforms, although the most common type is the
tower ladder (mentioned above). HPs (articulated or not) may still have a
ladder arrangement fitted to the arm, primarily as an emergency measure. In
some jurisdictions these can be denoted ladder platforms.
Most HPs are designed to reach
a height of around 33 metres (100 feet), although larger models are
capable of reaching heights of over 100 metres (328 feet).
Many HPs are fitted with
additional equipment in the platform itself, which can include a control panel,
lighting equipment, a fixed water outlet or monitor, power outlets or
compressed air outlets (allowing the fixing of rescue equipment, such ashydraulic
rescue tools). Many are also adapted or capable of carrying a stretcher. Some units have video
systems and remote control in case of dangerous chemical fires.
In an emergency, liquid-concrete
pumping boom trucks can be
temporarily repurposed for delivery of water for firefighting, as in the case
of the Fukushima Daiichi nuclear
disaster in 2011.
Heavy Rescue Vehicle-
A heavy rescue vehicle,
sometimes referred to as a Rescue Company, Rescue Squad or Technical Rescue, is
a type of specialty firefighting or EMS apparatus. Essentially giant toolboxes on wheels, they are primarily designed
for technical rescue situations such as vehicle extrications following traffic collisions, confined space rescues, rope rescues, swiftwater rescues, or building collapses.
In the U.S., NFPA regulations
1006 and 1670 provide guidelines and regulations for the operation of heavy
rescue vehicles and also state that all "rescuers" must have medical
training to perform any technical rescue operation, including cutting the
vehicle itself. In most rescue
environments, fire department personnel conduct rescue operations working
hand-in-hand with medical personnel, such as EMTs or paramedics.
In addition to fire and rescue
departments, tram or railway companies may have their own dedicated
heavy rescue squads. For example,
railway rescue squads may carry very specialized equipment for railway
accidents like hydraulic jacks with capacity for lifting locomotives or even moving them horizontally, and
equipment for tank car accidents.
Tanker truck-
A tanker truck, which can also
be known as a water tender or water bowser, is a specialist fire
appliance with the primary purpose of transporting large amounts of water to
the fireground to make it available for extinguishing operations. These are
especially useful in rural areas where fire hydrants are not readily available
and natural water resources are insufficient or difficult to exploit.
Most tankers have an on-board
pumping system. This pump is often not of sufficient power to fight fires (as
it is designed to be attached to a fire engine), but is more often used to draw
water into the tender from hydrants or other water sources. In some areas, the
tenders are used to pump water during floods, and may be fitted with a heavier
duty pump for this purpose. Many tankers are equipped with fast-drain valves on
the sides and back of the truck. This allows firefighters to empty thousands of
gallons or several cubic meters of water into a portable water tank in just a few seconds.
Most water tenders are designed
to carry loads of 1,000 US gallons (3,800 L; 830 imp gal) or
more. In the U.S., 1,000 U.S. gallons is the requirement in the NFPA standards. Some may carry up to or even upwards
of 5,000 US gallons (4,200 imp gal; 19,000 L) of water.
Hose layer-
In some fire departments, a
similar function may be performed by a hose layer, hose tender or hydrant
tender which carries large-capacity high-pressure hose wagons to incidents
where hydrants or other water sources are not close enough to the fireground.
It will lay out its hose at the nearest hydrant or water source then drive to the
fireground with the hose laying off the back; upon arrival it will connect to a
fire appliance to supply it with the water needed for the firefighting
operations.
Foam tender-
Foam tenders carry large amounts of foam to be
used at incidents where water is ineffective or cannot be used to tackle a
blaze. They may take the form of a tanker, or a truck carrying foam packets or
barrels.
Design & Construction-
Many fire appliances around the
world are based on standard truck or lorry models, which are upgraded to the
specifications required by the purchasing department. In the United States, a
majority of fire trucks are specially designed from the chassis to the cab and
body. This has led to the use of the term custom fire truck, as opposed to a
commercial chassis and cab.
A fire appliance may undergo
modifications such as adjustments for higher durability, removal of any speed
limiter, and adjustments for long periods of idling at a higher temperature.
This may be accomplished by heavy duty suspensions, brakes, tires, alternator,
transmission and cooling systems. It is also usual to upgrade the capacity of
the electrical system to accommodate additional electrical and electronic
equipment.
Fire appliances have audible
and visual warnings, to protect themselves from traffic, and make themselves
visible to other units at an incident.
In many countries, use of the
audible and visual warnings affords the driver a degree of exemption from road
traffic laws (such as the right to exceed speed limits, treat red stop lights
as give way etc.) and may also infer a duty on other motorists to move out of
the direction of passage of the fire vehicle (or face possible prosecution).
Active visual warnings-
The active visual warnings are
usually in the form of flashing colored lights (also known as "beacons"
or "lightbars").
These flash to attract the attention of other road users as the fire appliance
approaches, or to provide warning to motorists approaching a stopped appliance
in a dangerous position on the road. Common colors for fire warning beacons are
blue and red. The beacons can be made to flash. The original method was to
place a spinning mirror which moves around a light bulb, called a "rotating
beacon". More modern methods include the use of strobe lights, which are usually
brighter, and can be programmed to produce specific patterns (such as a left
-> right pattern when parked on the left hand side of the road, indicating
to other road users that they should move out away from the vehicle). LED flashing
lights are becoming more widespread, as they are low profile and consume less
energy. See also Emergency
vehicle equipment.
Audible warnings-
In addition to visual warnings,
most appliances are also fitted with audible warnings, sometimes known as sirens, which can alert people to the
presence of an emergency vehicle before they can be seen. The first
audible warnings were mechanical bells, mounted on the front or roof of the
truck. Most vehicles are now fitted with electronic sirens, which can produce a
range of different sounds. Fire service driving training often includes the use
of different sounds depending on traffic conditions and maneuver being
performed. For instance, on a clear road, approaching a junction, the
"wail" setting may be used, which gives a long up and down variation,
with an unbroken tone, whereas, in heavy slow traffic, a "yelp"
setting may be preferred, which is like a wail, but faster.
The speakers for modern sirens
can be located in several places on the vehicle, including being integral to
the lightbar, or hidden in the grille. Some vehicles may also be fitted with airhorn audible warnings. A number of North
American fire departments have returned to the "acoustic" or
"air" traditional siren, as its overtones help the public
"locate" and avoid the fire truck—the newer electronic signals
disperse almost pure electronic sine wave tones, which are hard to locate,
especially in city "canyons" of buildings. In Chile, many vehicles
are fitted with three types of audible warnings, which are sounded all at once:
the classic "air" siren, the electronic "yelp", and the
European two-tone air horns (sometimes newer vehicles are fitted with the electronic
version of the latter, commonly called "Hi-Lo").
A development is the use of the RDS system
of car radios, whereby the
vehicle can be fitted with a short range FM transmitter, set to RDS code 31,
which interrupts the radio of all cars within range, in the manner of a traffic
broadcast, but in such a way that the user of the receiving radio is unable to
opt out of the message (as with traffic broadcasts). This feature is built into
all RDS radios for use in national emergency broadcast systems, but short range
units on emergency vehicles can prove an effective means of alerting traffic to
their presence, although is not able to alert pedestrians and non-RDS radio
users.
Crew Assignment-
Engines are normally staffed
with at least three people if possible: an officer, a driver (who usually
operates the pump), and a firefighter. Preferably, an engine will carry a
second firefighter, to increase effectiveness in safely attacking a fire. In
some countries, such as Finland, an engine carries the unit leader, an
engineer, and one or two pairs of firefighters. Since firefighting takes places in a
very hot and hostile environment with high risks, fire fighters work as pairs,
and at least one more pair of firefighters is needed on scene for the safety
and shifting.
In cities of the United States,
firefighters are generally deployed into fire companies specializing in certain
tasks. Most common are engine companies and ladder, or "truck",
companies. In addition, large cities frequently staff rescue companies. By
definition, each company is led by an officer (a captain or lieutenant) who
commands several firefighters. Staffing of fire companies varies by
jurisdiction and frequently by company type. In large cities, fire company
staffing may vary from as few as three to as many as six personnel. In suburban
and rural areas of the United States, the legal organization to which
volunteers belong is usually called a company; one company may operate several
pieces of apparatus. Duties of volunteers are often less specialized than those
of city firefighters, because it is less predictable who will be available for
a given emergency, so more flexibility is needed.
Other departments staff their
fire engines as emergency response units. The staged layout of fire stations
and apparatus around a city means that a fire engine dispatched from its
station may reach a medical emergency call faster than an ambulance coming from
a hospital. Therefore, firefighters are trained as EMTs and
paramedics. The usual complement includes 1 fire captain and a number of
additional firefighters. The number of additional firefighters depends on the
severity of the incidents it will respond to, the capacity of the fire truck in
question, the nature of the call for assistance and the personal preference of
the fire department. For example, a pumper truck might carry 1 captain, 2 FF/Es
(Engineers) and 1 FF/P (paramedic). Both the captain and the engineers are
trained as Emergency Medical Technicians.
Many departments staff all of
their trucks as medical response units, while some use a mixture. Common units
that are medical response units include: Pumper, Rescue, Search & Rescue,
and Hazardous Materials Units. The advantage of Medical Response units is well
worth the training expenses. 911 medical calls that are responded to by a fire
truck places less strain on ambulances and certified first responders, enabling
them to focus on more critical patients. The disadvantage includes training for
the firefighters as EMTs and paramedics, which happens to be very expensive.
Also, medical equipment must be carried by the fire truck, reducing storage
space for some firefighting equipment.
In the United Kingdom, firefighters are arranged in fire and rescue services, historically
known as brigades, and usually organized at county, city, or combined level.
These are divided into either commands or areas, in some cases divisions, then
stations, which range in size but in almost every instance have at least one
pumping appliance. In addition, general purpose engine stations may have
specialist vehicles, such as turntable ladders, hydraulic platforms, foam
tenders, etc. The number of personnel at a station varies depending on the
number of appliances, and whether it is full-time, day manned, or retained.
Generally, the crew of an average sized pump is around five, but in any case it
can be no less than four and no more than six.
In New Zealand the standard crew consists of four:
the OIC (Officer in Charge, or Officer in Command), the driver, and two others.
They are numbered OIC, 1, 2, and 3, with the OIC in the front passenger's seat
and number 1 directly behind them; number 3 is the driver. The crew has
specific tasks in a water drill, decided by where they are sitting. At
call-outs, there may be five on an appliance, but only four have allotted
tasks, with the fifth person being spare.