A nozzle system is provided for use in a fire-fighting environment. The nozzle system includes a nozzle, and a remote component that is communicatively coupleable to a base component and that is associated with the nozzle. The remote component includes an indicator configured to provide a status sig
A nozzle system is provided for use in a fire-fighting environment. The nozzle system includes a nozzle, and a remote component that is communicatively coupleable to a base component and that is associated with the nozzle. The remote component includes an indicator configured to provide a status signal associated with the nozzle system.
대표청구항▼
1. A nozzle system for use in a fire-fighting environment, said nozzle system comprising: a nozzle adapted for manual control by a firefighter positioned adjacent the nozzle; anda remote component positioned proximate the nozzle, the remote component communicatively coupleable to a base component po
1. A nozzle system for use in a fire-fighting environment, said nozzle system comprising: a nozzle adapted for manual control by a firefighter positioned adjacent the nozzle; anda remote component positioned proximate the nozzle, the remote component communicatively coupleable to a base component positioned remote from the nozzle and associated with the nozzle, the remote component comprising a display configured to display a plurality of indicators associated with a status of the nozzle system to the firefighter positioned adjacent the nozzle, wherein the remote component is configured to receive signals from the base component and, in response to the signals received from the base component, present, via the display, a first of the plurality of indicators indicative of a water volume associated with a first water source stored at a fire fighting device, and a second of the plurality of indicators indicative of a water pressure associated with a second water source remote from the fire fighting device. 2. A nozzle system in accordance with claim 1, wherein the remote component is further configured to present, via the display, at least one of the plurality of indicators indicative of whether the nozzle is ready to discharge water in response to the signals received from the base component. 3. A nozzle system in accordance with claim 1 further comprising a plurality of valves coupled to the nozzle, wherein the remote component is further configured to present, via the display, at least one of the plurality of indicators indicative of an actuation state of at least one valve of the plurality of valves. 4. A nozzle system in accordance with claim 1, wherein the remote component comprises an input device configured to transmit a communication signal to the base component. 5. A nozzle system in accordance with claim 1 further comprising: a bail coupled to the nozzle, the bail configured to control a position of a valve associated with the nozzle, such that a flow of liquid discharged from the nozzle is regulated by the bail; anda sensor configured to detect the position of the valve, and transmit a signal indicative of the position of the valve. 6. A method of controlling a nozzle system in a fire-fighting environment, said method comprising: communicatively coupling a base component to a first remote component of a plurality of remote components, each remote component of the plurality of remote components including a display configured to display a plurality of indicators associated with a status of the nozzle system;selectively associating the first remote component with a first nozzle of a plurality of nozzles, each of the plurality of nozzles adapted for manual control by a firefighter positioned adjacent the nozzle, wherein the first remote component is positioned proximate the first nozzle and the base component is positioned remote from the nozzle;receiving, at the remote component, signals from the base component;presenting, via the display of the first remote component, a first of the plurality of indicators indicative of a water volume associated with a first water source stored at a fire fighting device to the firefighter positioned adjacent the first nozzle in response to the signals received from the base component; andpresenting, via the display of the first remote component, a second of the plurality of indicators indicative of a water pressure associated with a second water source remote from the fire fighting device to the firefighter positioned adjacent the first nozzle in response to the signals received from the base component. 7. A nozzle system for use in a fire-fighting environment, said nozzle system comprising: a base component;a plurality of nozzles, each of the plurality of nozzles adapted for manual control by a firefighter positioned adjacent the nozzle; anda plurality of remote components, each of the plurality of remote components is positioned proximate one of the plurality of nozzles and communicatively coupleable to the base component, wherein the base component is programmed to selectively associate a first remote component of the plurality of remote components with a first nozzle of the plurality of nozzles, the first remote component comprising a display configured to display a plurality of indicators associated with a status of the nozzle system to a firefighter positioned adjacent the first nozzle, wherein the first remote component is configured to receive signals from the base component and, in response to the signals received from the base component, present, via the display, a first of the plurality of indicators indicative of a water volume associated with a first water source stored at a fire fighting device, and a second of the plurality of indicators indicative of a water pressure associated with a second water source remote from the fire fighting device. 8. A nozzle system in accordance with claim 7, wherein the remote component is further configured to display a third of the plurality of indicators associated with a second nozzle of the plurality of nozzles. 9. A nozzle system in accordance with claim 8 further comprising: a bail coupled to the second nozzle, the bail configured to control a position of a valve associated with the second nozzle, such that a flow of liquid discharged from the second nozzle is regulated by the bail; anda sensor configured to detect the position of the valve, and transmit a signal indicative of the position of the valve to the remote component. 10. A nozzle system in accordance with claim 9, wherein the third indicator is associated with the position of the valve. 11. A nozzle system in accordance with claim 7, wherein the remote component is further configured to present, via the display, at least one of the plurality of indicators indicative of whether the nozzle is ready to discharge water. 12. A nozzle system in accordance with claim 7 further comprising a plurality of valves coupled to the first nozzle, wherein the remote component is further configured to present, via the display, at least one of the plurality of indicators indicative of an actuation state of at least one valve of the plurality of valves. 13. A nozzle system in accordance with claim 7, wherein the first remote component comprises an input device configured to transmit a communication signal to the base component. 14. A nozzle system in accordance with claim 1, wherein the remote component is coupled to the nozzle.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (20)
Yoshida, Kenichi, Control apparatus for a fire pump, operation display apparatus for a fire pump and operation mode control apparatus for a fire pump.
Petit Kevin J. (Wooster OH) Dettra Eugene E. (Wooster OH) Beery Richard L. (Shreve OH) Orin Jeffrey T. (Canton OH), Remotely controlled firefighting apparatus and control means.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.