A water supply control system for use with a fire hydrant comprises a four-way valve assembly having a first inlet port for coupling to a nozzle of the fire hydrant via a fire hose, the four-way valve assembly operable to selectively open and close the inlet and outlet ports according to an operatin
A water supply control system for use with a fire hydrant comprises a four-way valve assembly having a first inlet port for coupling to a nozzle of the fire hydrant via a fire hose, the four-way valve assembly operable to selectively open and close the inlet and outlet ports according to an operating mode of the four-way valve assembly, a stable and sturdy platform substantially supporting the weight of the four-way valve assembly, a flexible tether strap secured to the platform at a first end and having a fastener at a second end for releasably coupling to the fire hydrant, a status indicator mounted on the four-way valve assembly operable to provide a visual indication of the operation mode of the four-way valve assembly, and a scene light mounted on the four-way assembly operable to provide high-intensity illumination.
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1. A water supply control system for use with a fire hydrant, comprising: a four-way valve assembly having a first inlet port for coupling to a nozzle of the fire hydrant via a segment of a fire hose, and a first outlet port for alternately flushing debris and water from the fire hydrant and couplin
1. A water supply control system for use with a fire hydrant, comprising: a four-way valve assembly having a first inlet port for coupling to a nozzle of the fire hydrant via a segment of a fire hose, and a first outlet port for alternately flushing debris and water from the fire hydrant and coupling to an intake line of a booster pump, and a second inlet port for coupling to a discharge line of the booster pump, and a second outlet port for coupling to a fire hose conducting water from the fire hydrant to the site of fire, the four-way valve assembly operable to selectively open and close the inlet and outlet ports according to an operating mode of the four-way valve assembly;a stable and sturdy platform substantially supporting the weight of the four-way valve assembly;a flexible tether strap secured to the platform at a first end and having a fastener at a second end for releasably coupling to the fire hydrant;a status indicator mounted on the four-way valve assembly operable to provide a visual indication of the operation mode of the four-way valve assembly; anda scene light mounted on the four-way assembly operable to provide high-intensity illumination. 2. The water supply control system of claim 1, wherein the four-way valve assembly comprises: a first valve chamber disposed between the first inlet and outlet ports;a second valve chamber disposed between the second inlet and outlet ports;a passageway connecting the first and second valve chambers; anda first valve operable to alternately close off the passageway in a first operating position or close off the second inlet port in a second operating position. 3. The water supply control system of claim 2, wherein the four-way valve assembly further comprises a second valve operable to close off the second outlet port, and the status indicator is operable to indicate whether the second valve is open or closed. 4. The water supply control system of claim 3, wherein the four-way valve assembly further comprises a third valve operable to close off the first outlet port. 5. The water supply control system of claim 1, wherein the first, second, and third valves are manually-operated. 6. The water supply control system of claim 1, wherein at least one of the first, second, and third valves is radio frequency-controlled. 7. The water supply control system of claim 1, wherein the flexible tether strap includes a loop at the second end. 8. A water supply control system for use with a fire hydrant, comprising: a four-way valve assembly having a first inlet port for coupling to a nozzle of the fire hydrant via a segment of a fire hose, and a first outlet port for alternately flushing debris and water from the fire hydrant and coupling to an intake line of a booster pump, and a second inlet port for coupling to a discharge line of the booster pump, and a second outlet port for coupling to a fire hose conducting water from the fire hydrant to the site of fire, the four-way valve assembly operable to selectively open and close the inlet and outlet ports according to an operating mode of the four-way valve assembly;a first valve chamber disposed between the first inlet and outlet ports;a second valve chamber disposed between the second inlet and outlet ports;a passageway connecting the first and second valve chambers;a first valve operable to alternately close off the passageway in a first operating position or close off the second inlet port in a second operating position;a second valve operable to close off the second outlet port;a third valve operable to close off the first outlet port;a status indicator mounted on the four-way valve assembly operable to provide a visual indication of whether the second valve is open or closed;a stable and sturdy platform substantially supporting the weight of the four-way valve assembly; anda chain secured to the platform at a first end and having a fastener at a second end for releasably coupling to the fire hydrant. 9. The water supply control system of claim 8, further comprising a scene light mounted on the four-way assembly operable to provide high-intensity illumination. 10. The water supply control system of claim 8, wherein at least one of the first, second, and third valves is manually-operated. 11. The water supply control system of claim 8, wherein at least one of the first, second, and third valves is radio frequency-controlled. 12. The water supply control system of claim 8, wherein the flexible tether strap includes a loop at the second end. 13. A method to control water supplied by a fire hydrant, comprising: coupling a four-way valve assembly to a nozzle of the fire hydrant using a first fire hose, the weight of the four-way valve assembly being substantially supported by a platform secured thereto, the four-way valve assembly including a first inlet port for coupling to the fire hydrant nozzle, and a first outlet port for alternately flushing debris and water from the fire hydrant and coupling to an intake line of a booster pump, and a second inlet port for coupling to a discharge line of the booster pump, and a second outlet port for coupling to a second fire hose conducting water from the fire hydrant to the site of fire, the four-way valve assembly operable to selectively open and close the inlet and outlet ports according to an operating mode of the four-way valve assembly, the four-way valve assembly further includes a first valve chamber disposed between the first inlet and outlet ports, a second valve chamber disposed between the second inlet and outlet ports, a passageway connecting the first and second valve chambers, a first valve operable to alternately close off the passageway in a first operating position or close off the second inlet port in a second operating position, a second valve operable to close off the second outlet port, and a third valve operable to close off the first outlet port;securely tethering the four-way valve assembly to the fire hydrant using a chain;flushing debris and water from the hydrant via the first outlet port by opening the third valve;delivering water from the hydrant via the second outlet port by opening the second valve and receiving visual indication confirming the proper operation of the second valve; andboosting water pressure by attaching an intake line of a booster pump to the first outlet port, and a discharge line of the booster pump to the first inlet port, and allowing the first valve to be in the first operating position to close off the passageway connected between the first and second valve chambers.
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