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©Copyright Task Force Tips LLC 2014-2018

19

LIZ-060 October 26, 2020 Rev03

5.3 DRAINING RESIDUAL WATER

The automatic water drain valve allows the monitor and Booster body to drain after the upstream water supply is shut off, even with the

swing-check valve closed. This minimizes susceptibility to damage from corrosion and freezing water. The drain valve seal membrane is

designed to close automatically when pressure exceeds 5 psi. When pressure drops below 5 psi, the seal membrane will open to allow

drainage. Proper function must be verified prior to fireground use. 
To fully drain the Side A Inlet of the Booster, the upstream device to which it is mounted must also be drained. The TFT Hydrant Under

Monitor and Industrial Valve Under Monitor include additional automatic drain valves that serve this purpose.

Figure 5.3

5.4 ADJUSTING SWEEP ANGLE

Oscillating sweep angle can be adjusted from zero to 120 degrees in 10 degree increments at any time while oscillating or stationary,

without removing the  safety guard  that  encloses the oscillating mechanism. From the  0° OFF setting (screw head showing through

safety guard), turning clockwise allows angles of 20°, 40°, 60°, 80°, 100° or 120°. Turning counter-clockwise allows angles of 30°, 50°,

70°,  90°,  or  110°. DO  NOT  REMOVE THE SAFETY  GUARD  WHILE  FLOWING. A  padlock  can  be  attached  to the safety  guard to

prevent removal.
To adjust the sweep angle:

1. Pull  the  pin  on  the  bottom  of  the  gearbox  and  pivot  the  monitor  by  hand

clockwise or counter-clockwise. IF RESISTANCE IS FELT, DO NOT ATTEMPT

TO FORCE THE MONITOR BEYOND THAT POINT.

2. To reach a setting beyond the toggle point:

A. Without flowing: use a ½” wrench to manually rotate the external OSC drive

hex shaft and then pivot the monitor by hand.

B. When flowing: Continue to gently push the monitor against the toggle point.

As the oscillating mechanism continues to rotate, it will eventually allow the

angle adjustment disc to reach the desired setting.

3. When desired setting is reached, release pull pin and adjust the monitor slightly

until pull pin snaps into place.

4. Center the sweep pattern on the target using the horizontal adjustment (IE: tiller,

handwheel or crank) on the monitor.

5. The sweep angle range, centering, and discharge elevation can be verified “dry”

(without flowing water) by rotating the external OSC drive hex shaft throughout

the complete sweep range. Final verification is made by operating under actual

flowing conditions.

To make a fine adjustment of 10° wider or narrower than the current setting, it is necessary to reach an adjustment on the opposite side

of the adjustment disc. To avoid the nozzle stream striking objects away from the intended target, it is always safest to reduce the angle

towards the 0° OFF position, then increase the angle towards the desired setting.

WARNING

Monitors, valves, and piping may be damaged if frozen while containing sufficient amounts of

water. Such damage may be difficult to detect visually and can lead to possible damage, injury, or

death. Equipment that may be exposed to freezing conditions must be drained immediately 

following use to prevent damage. 

CAUTION

Structural damage from corrosion can result from failure to drain appliance between uses. Damage 

from corrosion can cause injury due to equipment failure. Always drain appliance between uses. 

Automatic water 
drain valve

Port to automatic 

water drain valve

Swing check valve

(clapper)

Side A Inlet

must be drained

through upstream device

Lockout

Figure 5.4

Summary of Contents for ZCH1T1-OSC

Page 1: ...and maintenance personnel with the operation servicing and safety procedures associated with this product This manual should be kept available to all operating and maintenance personnel Model ZCF1T3...

Page 2: ...The purpose of the proof test is to be con dent the valve design may be safely operated at the rated operating pressure SAMPLE CONFIGURATIONS Model ZBAD31X00 with 4 ANSI 150 on side B 6 Storz on port...

Page 3: ...ANSI 150 FLANGE INLET ADAPTER SIDE A OPTION G 4 3 MONITOR COMPATIBILITY AND INSTALLATION 4 3 1 MONITOR INSTALLATION USING CODE RPM DIRECT CONNECTION SIDE B OPTIONS 1 AND 2 4 3 2 MONITOR INSTALLATION U...

Page 4: ...ly hose may reduce water flow and cause injury or death to persons dependent on water flow Avoid tight bends to minimize risk of hose line kinks WARNING Injury or damage can occur from an inadequately...

Page 5: ...An alternate pulley set stored within the safety guard allows the oscillating speed to be doubled by exchanging the pulleys using common hand tools The Booster OSC is compatible with TFT Monsoon Typh...

Page 6: ...ong with the corresponding weights and dimensions The model number and unique serial number of each Booster are located on the label above the external automatic drain as shown in Figure 3 4 Go to tft...

Page 7: ...pter installed is designed for direct connection to the Task Force Tips Industrial Valve Under Monitor IVUM and Hydrant Under Monitor HUM Either of these products provide the valve needed to shut off...

Page 8: ...rz 1T ZCC3 1T 3 2 1 4 6 0 Storz 1X ZCC3 1X 8 7 4 0 3 5 NH female thread 4N ZCC3 4N 3 1 1 4 4 0 NH female thread 4P ZCC3 4P 2 2 1 0 4 5 NH female thread 4R ZCC3 4R 3 6 1 6 5 0 NH female thread 4T ZCC3...

Page 9: ...overlap with the main valve body are excluded from these dimensions SIDE B OPTIONS character position 6 CHARACTER PART NUMBER WEIGHT lb WEIGHT kg CODE RPM DIRECT CONNECTION STRAIGHT 1 A1026 1 8 0 8 C...

Page 10: ...of residual Loctite in the screw holes 5 Follow steps 1 through 5 in Section 4 2 1 6 Install pulley housing using the four 3 8 16 x 1 5 long screws that were originally installed Apply Loctite 242 blu...

Page 11: ...4 2 4 INSTALLATION USING 3 ANSI 150 FLANGE INLET ADAPTER SIDE A OPTION G When Side A option G is specified the 3 ANSI 150 Flange Inlet Adapter is pre installed on side A of the Booster Four 5 8 11 x...

Page 12: ...injury Do not install shutoff valves downstream of Booster Do not exceed the lowest maximum operating pressure rating of any devices assembled together Do not exceed the lowest maximum flow of any of...

Page 13: ...does not interfere with RC monitor Power Com Cable if applicable Reposition Clamp if needed 5 Tighten each screw gradually until both are finger tight with approximately equal spacing between opposit...

Page 14: ...specified with inlet option W swivel base for Booster OSC only 1 Verify O ring size 243 is installed on monitor inlet barb and is free of debris Apply silicone grease over O ring 2 Depress the red lat...

Page 15: ...ource to boost the pressure available to the monitor Port C3 also allows an inline eductor or other foam injection system to be attached to supply foam solution to the monitor See Section 6 0 on page...

Page 16: ...or water supplies from other sources follow the instructions below 1 Close valve installed upstream of the Booster Side A Inlet 2 Connect a hose from the water supply to LDH Inlet Port C3 of the Boost...

Page 17: ...with vehicle access routs maintained using hose bridges when needed The Booster and monitor can be relocated again and again to coordinate with re construction progress of fire main replacement progra...

Page 18: ...03 5 2 3 3 DIRECT CONNECT WITH BROKEN HYDRANT Figure 5 2 3 3 5 2 3 4 CONNECTION WHEN THERE IS NO WATER MAIN Figure 5 2 3 4 MONITOR BOOSTER BLIND FLANGE HYDRANT HOSE FLOW PORT C3 OUT OF SERVICE PORT C3...

Page 19: ...use a wrench to manually rotate the external OSC drive hex shaft and then pivot the monitor by hand B When flowing Continue to gently push the monitor against the toggle point As the oscillating mecha...

Page 20: ...e 20 x 75 long screw from center of one pulley and set the parts aside temporarily Repeat for other pulley 3 Loosen thumb nut Section 8 2 number 9 on bottom of safety guard section 8 2 number 2 Remove...

Page 21: ...e B outlet of the Booster only and does not include pressure losses of any upstream or downstream equipment such as hoses monitors and nozzles Figure 6 0 0 0 5 1 1 5 2 2 5 3 0 2000 4000 6000 8000 0 5...

Page 22: ...ge of its obligations under this limited warranty If TFT makes this election claimant shall return the equipment to TFT free and clear of any liens and encumbrances This is a limited warranty The orig...

Page 23: ...8 1 SERVICE TESTING In accordance with NFPA 1962 equipment must be tested a minimum of annually Units failing any part of this test must be removed from service repaired and retested upon completion...

Page 24: ...LACED BACK IN SERVICE appliances must be inspected to this list 1 There is no obvious damage such as missing broken or loose parts dents cracks corrosion or other defects that could impair operation 2...

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