초록 ▼

Systems and methods are described herein for remotely controlling the operation of a fire-fighting device coupled to a pump and a valve. The system may comprise a base component and a remote component. The base component comprises a transceiver operable to control operation of the fire-fighting devi

Systems and methods are described herein for remotely controlling the operation of a fire-fighting device coupled to a pump and a valve. The system may comprise a base component and a remote component. The base component comprises a transceiver operable to control operation of the fire-fighting device. The remote component comprises a transceiver configured to wirelessly communicate with the base component and is positioned near a discharge end of a hose coupled to the fire-fighting device wherein an input end of the hose coupled to the fire-fighting device. The remote component also includes an input device for receiving input from a user and is configured to wirelessly communicate the received input to the base component. The base component is configured to control at least one of the pump and the valve based on the received input communicated to the fire-fighting device subject to a set of rules.

대표청구항 ▼

1. A controller for use with a fire-fighting device coupled to a pump, said controller comprising: a nozzle configured to selectively discharge fluid supplied from the pump;a transceiver configured to wirelessly receive data from the fire-fighting device and to wirelessly transmit data to the fire-f

1. A controller for use with a fire-fighting device coupled to a pump, said controller comprising: a nozzle configured to selectively discharge fluid supplied from the pump;a transceiver configured to wirelessly receive data from the fire-fighting device and to wirelessly transmit data to the fire-fighting device to facilitate automatic control of the pump operation such that a user-requested parameter of fluid is selectively discharged from said nozzle based on the user-requested parameter of fluid, an actuation state of a first valve configured to control a first flow of liquid from a storage tank at the fire-fighting device, an actuation state of a second valve configured to control a second flow of liquid from a remote water source, and an actuation state of a third valve configured to control a third flow of liquid to the nozzle. 2. A system in accordance with claim 1 further comprising an output device for controlling operation of at least one of: a pressure of water discharged from a hose coupled to the pump, a flow rate of water through the hose, and the actuation state of at least one of the first valve, the second valve, and third valve. 3. A control system for use with a fire-fighting device coupled to a pump, said system comprising: a base component comprising a transceiver for receiving data transmitted from a remote component, said base component configured to control operation of the pump using a programmable logic controller based on predefined logic, wherein the predefined logic facilitates control of the pump based on a user-requested parameter of fluid received wirelessly from the remote component, a first actuation state of a first valve configured to control a first flow of liquid from a storage tank at the fire-fighting device, a second actuation state of a second valve configured to control a second flow of liquid from a remote water source, a third actuation state of a third valve configured to control a third flow of liquid to a nozzle, a volume of water stored at the storage tank, and a water pressure associated with the remote water source. 4. A control system for use with a fire-fighting device coupled to a pump, a first valve configured to control a first flow of liquid from a storage tank at the fire-fighting device, a second valve configured to control a second flow of liquid from a remote water source, and a third valve configured to control a third flow of liquid to a nozzle, said system comprising: a base component comprising a transceiver operable to control operation of the fire-fighting device; anda remote component comprising a transceiver configured to wirelessly communicate with said base component, said remote component positioned near a discharge end of a hose coupled to the fire-fighting device, wherein an input end of the hose is coupled to the fire-fighting device, said remote component comprising:an input device for receiving input from a user, said remote component configured to wirelessly communicate the received input to said base component, said base component configured to control at least one of the pump, the first valve, the second valve, and the third valve based on the received input communicated to the fire-fighting device, an actuation state of the first valve, an actuation state of the second valve, and an actuation state of the third valve. 5. A system in accordance with claim 4, wherein said input device includes at least one of a keypad, a pushbutton, and a rotary control, and wherein the input received from the user by said input device includes at least one of a desired pressure of water output from the discharge end of the hose and a desired flow rate of water output from the discharge end of the hose. 6. A system in accordance with claim 4, wherein said remote component further comprises an output device for presenting information to the user, said output device configured for presenting information received by said remote component from said base component to the user, the presented information including at least one of the actuation state of at least one of the first valve, the second valve, and the third valve, a user-requested parameter of water output, and a detected parameter of water output at the discharge end of the hose. 7. A system in accordance with claim 5, wherein said remote component incorporates a unique identifier in wireless communications transmitted to said base component, the unique identifier identifying the hose which said remote component is positioned adjacent. 8. A system in accordance with claim 7, further comprising a second remote component having a wireless transceiver configured to wirelessly communicate with said base component, said second remote component positioned adjacent a discharge end of a second hose coupled to the fire-fighting device, a proximal end of the second hose coupled to the fire-fighting device, said second remote component comprising an input device and an output device. 9. A system in accordance with claim 8, wherein said second remote component incorporates a second unique identifier in wireless communications transmitted by the wireless transceiver to said base component, the second unique identifier identifying the hose which said remote component is positioned adjacent. 10. A method of controlling a fire-fighting device, the fire-fighting device coupled to a pump, said method comprising: receiving, at the fire-fighting device, a wireless communication from a remote component, the wireless communication including instructions input by a user into an input device on the remote component, wherein the instructions include at least one of a desired pressure of water to be output from a discharge end of a hose and a desired flow rate of water output from the discharge end of the hose;determining, with a programmable logic controller, based on predefined logic whether to execute the instructions received from the remote component; andcontrolling the operation of the fire-fighting device with the programmable logic controller based on the determination of whether to execute the instructions received from said remote component, the instructions received from the remote component, a first actuation state of a first valve configured to control a first flow of liquid from a storage tank at the fire-fighting device, a second actuation state of a second valve configured to control a second flow of liquid from a remote water source, and a third actuation state of a third valve configured to control a third flow of liquid to the discharge end of the hose. 11. A method in accordance with claim 10, further comprising transmitting information to an output device for presentation to the user, the information including at least one of the actuation state of at least one of the first valve, the second valve, and the third valve, a user-requested parameter of water output, and a detected parameter of water output at the discharge end of the hose. 12. A system for use with a fire-fighting device coupled to a pump, said system comprising: a remote component having a transceiver coupled wirelessly with the fire-fighting device for receiving data transmitted from the fire-fighting device and for transmitting data to the fire-fighting device, said remote component configured to transmit data wirelessly to the pump to control operation of the pump; anda programmable logic controller coupled to the remote component, said programmable logic controller configured to control operation of the pump based on a user-requested parameter of fluid, an actuation state of a first valve configured to control a first flow of liquid from a storage tank at the fire-fighting device, an actuation state of a second valve configured to control a second flow of liquid from a remote water source, and an actuation state of a third valve configured to control a third flow of liquid to a nozzle. 13. A system in accordance with claim 12, wherein said remote component is coupled to the nozzle positioned adjacent a discharge end of a hose couple to the fire-fighting device. 14. A system in accordance with claim 12, wherein said remote component is positioned adjacent a user. 15. A system in accordance with claim 12, wherein said remote component further comprises an output device for presenting information to a user, said output device configured for presenting information received by said remote component, the presented information including at least one of the actuation state of the first valve, the second valve, and the third valve, the user-requested parameter of fluid, and a detected parameter of fluid output at the nozzle.