A hose control system comprising a receiver and a transmitter by which one can remotely control both the flow of water through a hose and the winding or unwinding of the hose onto a reel. The system preferably has power saving advantages, for example, by the use of a power control unit that reduces
A hose control system comprising a receiver and a transmitter by which one can remotely control both the flow of water through a hose and the winding or unwinding of the hose onto a reel. The system preferably has power saving advantages, for example, by the use of a power control unit that reduces the power consumed by the electronics of the devices, but does not unreasonably disrupt the use of the devices. The receiver may be used with different aspects or all of the hose control system.
대표청구항▼
1. A hose control system, comprising: a flow controller having an inlet, an outlet, a fluid flow path defined between the inlet and outlet, and an electrically actuated valve configured to open and close, wherein the opening of the valve opens the fluid flow path, and wherein the closing of the valv
1. A hose control system, comprising: a flow controller having an inlet, an outlet, a fluid flow path defined between the inlet and outlet, and an electrically actuated valve configured to open and close, wherein the opening of the valve opens the fluid flow path, and wherein the closing of the valve closes the fluid flow path;a hose reel device comprising a rotatable hose reel onto which a hose can be spooled;an electrically controllable motor configured to be bi-directionally rotated via electrical power provided to the motor, the motor connected to bi-directionally rotate the reel;a hose that is in fluid communication with the outlet of the flow controller, wherein the hose is at least partially spooled on said hose reel;electronic components in communication with said valve and said motor; anda wireless remote control configured to transmit wireless command signals to the electronic components for controlling the opening and closing of the valve and the bi-directional rotation of the motor, wherein the wireless remote control is mounted proximate a distal end of the hose, and wherein the wireless command signals include a single command that causes the valve to close the fluid flow path and causes the motor to initiate rewinding of the hose reel. 2. The hose control system of claim 1, wherein the electronic components in communication with said valve and said motor comprise a wireless receiver configured to receive the wireless command signals for controlling the valve and the motor, the electronic components configured to convey electrical power to drive the valve and the motor, and wherein the wireless remote control comprises manual controls and a wireless transmitter, the wireless transmitter configured to transmit the command signals to the wireless receiver for controlling the valve and the motor, the manual controls connected to the wireless transmitter to permit control of the wireless transmitter. 3. The hose control system of claim 2, wherein the wireless receiver is integrated with the flow controller. 4. The hose control system of claim 2, wherein the electronic components further comprise an electronic logic unit configured to receive the wireless command signals from the wireless receiver and process said command signals to control the valve and the motor. 5. The hose control system of claim 4, wherein the logic unit comprises an IC decoder unit. 6. The hose control system of claim 2, wherein the electronic components are configured to position the valve at any of a plurality of positions between a completely closed position in which the fluid flow path is completely closed and a completely open position in which the fluid flow path is completely open. 7. The hose control system of claim 2, wherein the inlet of the flow controller is configured to mate with an outlet of a water faucet, the outlet being configured to mate with a hose. 8. The hose control system of claim 2, wherein the inlet and the outlet of the flow controller are configured to be mechanically coupled to standardized fittings of ends of hose sections. 9. The hose control system of claim 2, wherein the hose reel device and the flow controller are positioned within a common housing. 10. The hose control system of claim 2, wherein the manual controls of the wireless remote control comprise one or more motor controls for transmitting command signals to the wireless receiver for controlling the motor, and one or more valve controls for transmitting command signals to the wireless receiver for controlling the valve. 11. The hose control system of claim 1, wherein the inlet is configured to mate with a residential water faucet, the outlet being configured to mate with a water hose. 12. The hose control system of claim 2, wherein the wireless receiver is capable of receiving the wireless command signals only when the wireless receiver is in a powered state, wherein the hose control system further comprising a power control unit configured to repeatedly switch the wireless receiver between powered and unpowered states in a cycle. 13. The hose control system of claim 12, wherein the wireless receiver comprises a detection unit configured to detect and receive the wireless command signals and an electronic logic unit configured to receive the command signals from the detection unit, the logic unit further configured to process said command signals to control at least one of the motor and the valve, wherein the power control unit is configured to keep the logic unit in an unpowered state until the wireless receiver receives a wireless signal. 14. The hose control system of claim 12, wherein the power control unit is configured to keep the wireless receiver in its unpowered state for no more than a set time period during each cycle, the wireless remote control configured to transmit the wireless command signals such that each signal is transmitted for a duration at least as long as said set time period. 15. The hose control system of claim 1, wherein when the single command causes the valve to close so as to stop a fluid flow into the hose, the hose can be wrapped upon the hose reel without substantial fluid pressure within the hose. 16. The hose control system of claim 1, wherein the hose comprises a first hose, fluid connection between the valve and a proximal end of the first hose being conducted via an additional hose, the additional hose leading to a tubing integrated with the hose reel and to a connection on the hose reel between the integrated tubing and the proximal end of the first hose.
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