HomeMy WebLinkAbout310.013 - Apparatus 63 and 64 Patrols
TRAINING AND EQUIPMENT MANUAL
310 APPARATUS
310.013 APPARATUS 63 AND 64 (PATROLS)
EFFECTIVE: APRIL 2007
Current Revision Date: 01/04/21 Next Revision Date: 01/04/26
Author’s Name/Rank: Mario Caro, Equipment Supervisor Review Level: 1
Administrative Support:
Leslie Oulashian,
Management Analyst II
Section 310.013
Page 1 of 17
PURPOSE
The purpose of this policy is to provide Fresno Fire Department (FFD or
Department) members an overview on the use of Apparatus No. 63 and Apparatus
No. 64 Patrols.
APPLICATION
In 2007, the National Wildland Coordinating Group (NWCG) changed its engine-
typing standards. These standards were adopted by FIRESCOPE in 2012.
According to these updated standards, Apparatus 63 and 64 are Type 6 engines.
For more information on all engine types, please refer to the FIRESCOPE Field
Operations Guide (FOG), ICS 420-1.
NWCG Engine Typing Minimum Standards
Strike
Team Type
Number
Type GPM PSI
Tank
Capacity
1.5"
Hose
1"
Hose
GVWR
Max
E 5 50 100 400 300' 300' 26,000
F 6 50 100 150 300' 300' 19,500
OPERATIONAL POLICY
The Administrative Manual, Section 106.023, Pre-Trip Inspection Report (FD-03)
form shall be completed daily.
The Administrative Manual, Section 106.029, Emergency Equipment Weekly
Inspection Report (FD-11) shall be completed weekly.
OPERATIONAL GUIDELINE
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Section 310.013
Page 2 of 17
PROCESS
1. Patrol Apparatus:
Apparatus 63, Patrol Apparatus 64, Patrol
Figure 1
a. Features:
i. 2008 Dodge Ram 5500 4X4 Dually.
ii. Engine, 6.7 Liter Cummins Turbo Diesel.
*This apparatus is equipped with a green fuel tank cap.
iii. 305 Horse Power/610-foot pounds Torque.
iv. 6-Speed Automatic Transmission with Manual Shift on
the Fly. 4WD Transfer Case.
v. 52-Gallon fuel tank. Diesel Fuel Only.
vi. Four-Door Crew cab; carries up to four firefighters.
vii. GVWR-12,500 pounds.
b. Hydraulic Brake Check:
i. Pump the brake: Pump the brake pedal three times, and
then hold it down for five seconds. The brake pedal
should not move during the five seconds.
ii. Check the hydraulic brake reserve system: With the key
off, depress the brake pedal and listen for the sound of
the reserve system electric motor.
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iii. Check the Hydro-Boost brake system: Release the
parking brake and with the engine off, depress and
release the brake pedal several times to deplete all
hydraulic pressure. Depress and hold the brake pedal
with light pressure (15-25 pounds), then start the engine
and run it at idle speed. If the Hydro-Boost is operating,
the pedal will yield slightly to foot pressure and then hold.
Less pressure is required to hold the pedal at this
position.
iv. Check the warning light is off.
c. Water Tank:
i. 300-gallon tank constructed of 1/2-inch thick
polypropylene.
d. Foam Tank:
i. 15 gallons of Class A Foam.
e. Fire Hose:
i. 1,000 feet of 1-inch.
ii. 1,250 feet of 1-1/2-inch.
iii. 500 feet of 3/4-inch.
iv. 200 feet of 3/4-inch reel line.
f. Hose Reel:
Apparatus 63 and 64 are equipped with one hose reel located in
the center of the truck bed. The reel is equipped with
independent ball valves and has two sections of 3/4-inch hose
in 100-foot lengths. The ball valves should remain in the open
position (See Figure 2). The reel line has a 1-inch dual gallon
combination fog/straight stream nozzle with bale shut-off. The
hose reel can be locked into place by hand tightening the
locking mechanism (See Figures 2 and 3).
Section 310.013
Page 4 of 17
Figure 2
Figure 3
Ball Valve
Hose Reel Lock
Section 310.013
Page 5 of 17
g. Pump Panel:
Figure 4
i. Panel Light.
ii. Water Level Gauge (This is the only one; there is not one
in the cab.)
iii. Pressure/vacuum gauge (The gauge shows the
discharge pressure at the pump or the vacuum when
priming the pump.)
iv. Panel Light Switch
v. Pump Throttle Control
vi. Engine Choke
vii. Engine On/Off Switch
viii. Engine Starter Switch
ix. Automatic Low Pressure Shut-off Switch
i.
iii.
iv.
v
vi. vii. viii.
ix.
x.
xi.
xii. ii.
Section 310.013
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x. Primer Valve (This valve must be open when priming the
pump and closed at all other times.)
xi. Primer Motor On/Off Button
xii. FoamPro Control Unit
2. 23-Horsepower Pump and Motor:
The CF-130 is a centrifugal pump powered by a 23-horsepower Briggs
and Stratton Vanguard engine. The engine has manual recoil and a
12-volt electric starter.
PERFORMANCE FOR CF-130 PUMP
PSI 100 125 150 175 200 225 250 275 300 325
GPM 132 130 120 108 100 90 80 60 47 15
a) Valves:
i. Suction: There are two valves on the suction side of the
pump. One valve is located between tank and the intake
side of the pump and is left in the open position except
when drafting or receiving water from a hydrant or other
source. The second suction valve is normally in the
closed position and is used for an external water source.
It may be necessary to prime the pump after filling
the tank from the suction valve as air may have
been introduced to the pump while closing the
tank suction valve and opening the intake valve.
ii. Discharges: There are three discharges: one (1) reel
line and two (2) 1-1/2-inch discharges. (The hose tray
and one on the rear of the apparatus may have a gated
wye attached to it).
Hose Tray - This valve controls the flow to the
hose tray. NEVER OPEN THIS VALVE UNTIL
ALL HOSE IS REMOVED FROM TRAY.
Hose Reel - This valve controls the flow to the
hose reel and is normally left in the open position.
Section 310.013
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iii. Tank Fill: This valve controls the flow of water from the
pump discharge to the water tank. When this valve is
opened, pressure may fall below 30 psi.
iv. Direct Fill: Opening this valve fills the tank directly
bypassing the pump and is labeled “Hyd. Fill.”
b) Fire Pump Operations:
In order to prevent running the pump without water, Apparatus
63 and 64 are equipped with an automatic shut-off system.
When the system is activated, the pump will shut off whenever
the discharge pressure falls below 30 psi. In order to start the
engine, the automatic shut-off switch must be in the START
position (See Figure 4); this switch disengages the system.
When the pressure gauge shows a reading of 50 psi or greater,
move the switch to the RUN position. The automatic shut-off
system is now engaged. If the pump runs out of water, or the
pressure drops below 30 psi, the pump will automatically
shut off.
Figure 4
Section 310.013
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c. Priming Pump:
The primer valve is located on the pump panel (See Figure 6).
The primer valve allows the primer to be opened when priming
and closed at all other times. Apparatus 63 and 64 are
equipped with a 12-volt, electric primer pump. The pump is
activated by a momentary push button located on the control
panel.
i. Do not start engine until prime is established.
ii. Close all valves on discharge side of the pump including
discharge, reel, by-pass, and tank fill.
iii. Open the priming valve.
iv. Activate priming pump until a full flow of water is
achieved through primer overflow tube. This will be
visible from the bottom of the apparatus below the pump
panel.
v. Close primer valve.
Figure 6
d) Starting Engine:
i. Switch automatic shut-off to the START position.
ii. Switch ignition to the run position.
iii. Close choke.
iv. Advance throttle 1/4 open.
Primer Valve
Section 310.013
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v. Start engine with either rope rewind or electric start.
vi. Slowly open choke and increase the throttle to build
pressure.
vii. Check pressure reading on gauge to verify pump is
primed.
a. Partially open discharge valve, checking gauge to
verify pressure is maintained. If pressure drops,
maintain engine speed and repeat priming
procedure until pressure is restored.
viii. SLOWLY open discharge valve or nozzle.
ix. With discharge open, advance throttle to adjust speed of
engine until required water discharge pressure is
achieved.
x. Switch automatic shut-off down to the RUN position.
xi. Open the TANKFILL VALVE slightly to ensure the pump
stays cool.
e) Engine Fails To Start Or Run:
i. Check position of automatic shut-off switch.
ii. .Make sure engine switch is in the RUN position and pilot
light is on.
iii. Spark plug is operating and set at correct gap. (Refer to
engine manufacturer’s manual.)
vi. Battery and wiring connections are clean and tight.
vii. Check electrical ground connections.
viii. Check the fuel level in the integrated fuel tank.
Apparatus 63 and 64 have an integrated fuel tank which
holds 4 gallons of unleaded gasoline. A gas can should
be carried on the apparatus to fill tank when necessary.
Please keep fuel tank topped off as much as possible.
Section 310.013
Page 10 of 17
f) The pump has lost its prime. This may have been caused by
filling through the tank fill valve introducing air into the pump. If
this is the case, operate the primer pump.
3. FOAMPRO
The FoamPro System 1600 is an electric motor-driven flow-based
proportioning system, which measures water flow and then injects the
proportional amount of foam concentrate to maintain the preset
percentage. The system will accurately deliver from 0.1 percent to 1.0
percent foam concentrate to the foam injector fitting.
Foam concentrate is injected directly into the water stream on the
discharge side of the water pump. It is fed as foam solution by the
main fire pump into a standard fog nozzle.
a. Foam Pump Priming Check:
i. Turn the CAL/INJECT valve to the CALIBRATE or
FLUSH position.
a) Provide a container to collect the output, which will
be coming from the foam pump.
ii. Turn the INJECTION RATE knob to the 1.0 percent
setting. Place the system into simulated flow and engage
the FoamPro system at the control module (See Figure
7).
Figure 7
a) Foam concentrate should begin flowing into the
container. If concentrate is not being pumped,
Section 310.013
Page 11 of 17
check first to make sure the foam pump is running.
If the pump is running, but no concentrate is being
delivered, the pump is most likely not primed
completely. If the pump does not prime within 20-
30 seconds, disengage the system by turning the
switch off.
b) Foam concentrate should flow readily to the pump.
c) Once foam flow is established, turn the system off
and turn the CAL/INJECT valve back to the inject
position (See Figure 8).
Figure 8
iii. Turn the simulated flow switch off (See Figure 9). If operator
is still having difficulty priming the foam pump in FoamPro
system, do the following:
Figure 9
iv. Make sure foam concentrate tank shutoff valve is open
(See Figure 10).
Cal/Inject Valve
Section 310.013
Page 12 of 17
Figure 10
v. Check to make sure there are no restrictions from the
concentrate tank to the inlet of the foam pump (See Figure
11).
Figure 11
d. Normal System Operation:
When the FOAM switch is toggled into the ON position, the
LOW CONC light momentarily flashes on. This indicates the
system is ready to operate. The foam injection rate can be
Shutoff valve
Section 310.013
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adjusted at any time during operation to suit the conditions
and/or concentrate being used.
e. Display Messages:
Several safety features are provided to protect the foam
concentrate pump and motor and help diagnose problems in
system operation. The display method used in the MODEL
1600/1601 is done with the usage of the LOW CONC light.
LIGHT STATUS SYSTEM CONDITION
Light blinks on and then goes out.
System is activated and ready to run
and/or running depending on the main
water flow conditions.
Light goes on and stays on. System is activated and ready to run but
has insufficient concentrate in the tank.
Light does not turn on at all on
start-up.
System is turned off at the motor driver
module.
Poor ground.
Control module is not properly connected.
Internal fuse is tripped, check flowmeter.
No power or insufficient power to unit.
Light blinks once per second after
successful start-up.
A low concentrate condition has been
detected. The light will blink for two
minutes and then shut the foam pump off
unless sufficient foam level is restored.
Light is on solid after successful
start-up and operation.
System has been out of chemical for more
than two minutes and the foam pump is
not operating.
Light blinks five times per second.
No pump feedback is detected and a
problem exists at the speed sensor.
Insufficient ground.
f. Simulated Flow Operation:
The simulated flow function of the system allows the operator to
control the foam pump manually. The water flow rate is factory
set at approximately 100 gpm; the percentage rate can be
adjusted at the control module. This function provides the
manual control requirement of NFPA. This function allows the
operator to employ the foam concentrate tank for cleaning or
changing foams. It also provides a means of checking the foam
pump without running the water pump.
Warning: When operating the FoamPro in the simulated flow
function, an outlet for the foam concentrate must be
Section 310.013
Page 14 of 17
provided. Otherwise, dangerous excessive
pressure may build up in the apparatus water piping
and/or hoses.
g. Simulated Flow Operation Procedures:
To begin simulated flow.
Turn the switch to the ON position
located on the left side of the motor
driver.
To adjust the percentage of
concentrate.
Adjust the percentage on the control
module.
To exit the simulated flow.
Turn the switch to the OFF position
located on the left side of the motor
driver.
4. OFF-ROAD OR 4WD OPERATIONS
a. Manually Shifted Transfer Case Operating Information /
Precautions:
Apparatus 63 and 64 are equipped with a manual transfer case
lever for shifting into four-wheel drive (See Figure 12). The
transfer case provides four mode positions: two (rear)-wheel-
drive high range (2H), four-wheel-drive high range, neutral (N),
and four-wheel-drive low range (4L). The transfer case is
intended to be driven in the two-wheel- drive position for normal
street and highway conditions such as dry hard surfaced roads.
Figure 12
Section 310.013
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When additional traction is required, the transfer case 4H and
4L positions can be used to lock the front and rear drive shafts
together and force the front and rear wheels to rotate at the
same speed. This is accomplished by simply moving the shift
lever to the desired positions. The 4H and 4L positions are
intended for loose, slippery road surfaces only. Driving in the
4H and 4L positions on dry hard surfaced roads may cause
increased tire wear and damage to the driveline components.
The four-wheel-drive light (4WD), located in the instrument
cluster alerts the driver the vehicle is in four-wheel drive and the
front and rear drive shafts are locked together. This light
illuminates when the transfer case is shifted to either the 4H or
4L positions. There is no light for the 2H or N positions.
When operating vehicle in 4L, the engine speed is
approximately three times that of the 2H or 4H positions at a
given road speed. Take care not to over-speed the engine and
do not exceed 25 mph.
Proper operation of four-wheel-drive vehicles depends on tires
of equal size, type, and circumference on each wheel. Any
difference will adversely affect shifting and can cause damage
to the transfer case. Do not attempt to make a shift while only
the front or rear wheels are spinning. The transfer case is not
equipped with a synchronizer and; therefore, the front and rear
driveshaft speeds must be equal for the shift to take place.
Shifting while only the front or rear wheels are spinning can
cause damage to the transfer case. Because four-wheel drive
provides improved traction, there is a tendency to exceed safe
turning and stopping speeds. Do not go faster than road
conditions permit. Delayed shifts out of four-wheel drive may be
experienced due to uneven tire wear, low or uneven tire
pressures, excessive vehicle loading, or cold temperatures.
b. 2H Rear Wheel Drive High Range: Normal street and highway
driving, and dry hard surfaced roads.
c. 4H Four-Wheel-Drive High Range: Locks the front and rear
drive shafts together, and forces the front and rear wheels to
rotate at the same speed. Additional traction for loose, slippery
road surfaces only.
d. N Neutral: Disengages both the front and rear drive shafts from
the powertrain. To be used for flat towing behind another
vehicle. See Recreational Towing for more information.
Section 310.013
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e. 4L Four-Wheel-Drive Low Range: Low speed four-wheel-drive
locks the front and rear drive shafts together forcing the front
and rear wheels to rotate at the same speed. Additional traction
and maximum pulling power for loose, slippery road surfaces
only. Do not exceed 25 mph.
f. Shifting the Transfer Case into 4WD
g. 2H 4H: Shifting between 2H and 4H can be made with the
vehicle stopped or in motion. If the vehicle is in motion, shifts
can be made up to 55 mph. With the vehicle in motion, the
transfer case will engage/disengage faster if you momentarily
release the accelerator pedal after completing the shift. Apply a
constant force when shifting the transfer case lever.
h. 2H or 4H 4L: With the vehicle rolling at 2 to 3 mph (3 to 5
km/h), shift the transmission to N. While the vehicle is coasting
at 2 to 3 mph, shift the transfer case lever firmly to the desired
position. Do not pause in transfer case N.
Note: Pausing in transfer case N in vehicles equipped
with an automatic transmission may require
shutting the engine OFF to avoid gear clash while
completing the shift. If difficulty occurs, shift
automatic transmission to N, hold foot on brake,
and turn engine OFF. Make shift to the desired
mode.
Shifting into or out of 4L is possible with the vehicle completely
stopped; however, difficulty may occur due to the mating clutch
teeth not being properly aligned. Several attempts may be
required for clutch teeth alignment and shift completion to occur.
The preferred method is with the vehicle rolling 2 to 3 mph.
Avoid attempting to engage or disengage 4L with the vehicle
moving faster than 2 to 3 mph.
Do not attempt to shift to or from 4L while the transmission is in
gear.
After off-road usage, particularly in sand or mud, inspect the underside of the vehicle
for accumulated dirt at the propeller shaft, axles, U-joints, brake rotors, and calipers.
Use a hose to clean off any accumulation of dirt or mud. Check the exhaust system
and all exposed components for any sign of damage. If vehicle experiences unusual
vibration after driving in mud, slush or similar conditions, check the wheels for
impacted material. Impacted foreign material can cause a wheel imbalance.
Removing the foreign material from the wheels will correct the situation. Always
Section 310.013
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check the duals for rocks or other debris and check the hydraulic brake lines for
damage after driving off road in four-wheel drive.
INFORMATION
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DEFINITIONS
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CROSS-REFERENCES
FIRESCOPE Field Operations Guide, ICS 420-1
Administrative Manual
Section 106.023, Pre-Trip Inspection Report (FD-03)
Section 106.029, Emergency Equipment Weekly Inspection Report (FD-11)