| CPC E03F 1/003 (2013.01) [E03B 1/042 (2013.01); E03F 5/02 (2013.01); E03F 7/02 (2013.01); G05D 16/024 (2019.01); G05D 16/202 (2013.01)] | 15 Claims |
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15. A floodwater redistribution assembly for routing floodwaters from a natural body of water to predetermined locations for the purposes of irrigation and municipal water service, said assembly comprising:
a subterranean vault being configured to be positioned adjacent to a body of water known for periodic flooding, said subterranean vault having an inlet wherein said inlet is configured to direct water from the body of water into said subterranean vault, said subterranean vault having an outlet wherein said outlet is configured to direct the water from the body of water outwardly from said subterranean vault, said subterranean vault having a lower wall, an upper wall and an outer wall extending therebetween, said outer wall having a front side and a back side, said inlet extending through said front side, said outlet extending through said back side, said upper wall having an entrance extending into an interior of said subterranean vault wherein said entrance is configured to facilitate a service worker to enter said subterranean vault, said subterranean vault including a retaining wall being spaced from said front side of said outer wall wherein said retaining wall is configured to block water from the body of water, said retaining wall having a height being greater that the distance between said lower wall and said upper wall of said subterranean vault;
an inlet pipe being integrated into said subterranean vault wherein said inlet pipe is configured to be in fluid communication with the body of water for directing the water from the body of water into said subterranean vault, said inlet pipe having an outlet end being positioned within said subterranean vault;
an outlet pipe being integrated into said subterranean vault wherein said outlet pipe is configured to direct the water from said inlet pipe outwardly from said subterranean vault, said outlet pipe being in fluid communication with a predetermined location wherein said outlet pipe is configured to direct the water to the predetermined location for the purposes of irrigation and municipal water service, said outlet pipe having an input end being positioned within said subterranean vault;
a ball valve being positioned within said subterranean vault, said ball valve being in fluid communication with said inlet pipe and said outlet pipe wherein said ball valve is configured to receive the water from said inlet pipe, said ball valve being positionable in a closed position wherein said ball valve is configured to inhibit the water from flowing into said outlet pipe, said ball valve being positionable in an open position wherein said ball valve is configured to facilitate the water to flow into said outlet pipe, said ball valve having an inlet and an outlet, said inlet of said ball valve being fluidly coupled to said outlet end of said inlet pipe, said outlet of said ball valve being fluidly coupled to said input end of said outlet pipe, said ball valve including an actuation mechanism being integrated therein wherein said actuation mechanism is configured to be accessible to the service worker, said actuation mechanism manipulating said ball valve between said open position and said closed position wherein said actuation mechanism is configured to facilitate the service worker to manually manipulate said ball valve between said open position and said closed position; and
a ball valve control unit being coupled to said ball valve, said ball valve control unit being in mechanical communication with said ball valve, said ball valve control unit being in remote communication with a remote control source, said ball valve control unit actuating said ball valve between said open position and said closed position, said ball valve control unit comprising:
a control circuit being integrated into said ball valve control unit, said control circuit receiving an open input and a close input, said control circuit being electrically coupled to a power source;
a motor being integrated into said ball valve such that said motor is in mechanical communication with said ball valve, said motor rotating in a first direction for urging said ball valve into said open position, said motor rotating in a second direction for urging said ball valve into said closed position, said motor being electrically coupled to said control circuit, said motor rotating in said first direction when said control circuit receives said open input, said motor rotating in said second direction when said control circuit receives said close input;
a transceiver being coupled to said entrance of said subterranean vault, said transceiver being electrically coupled to said control circuit, said transceiver being in wireless communication with the remote control source for receiving operational commands from the remote control source, said control circuit receiving said open input when said transceiver receives an open command from the remote control source, said control circuit receiving said close input when said transceiver receives a close command from the remote control source;
a pressure sensor being integrated into said inlet pipe wherein said pressure sensor is configured to sense pressure of the water in said inlet pipe, said pressure sensor being electrically coupled to said control circuit, said control circuit receiving said open input when said pressure sensor senses pressure that exceeds a predetermined threshold wherein said pressure sensor is configured to facilitate flood waters to flow through said ball valve, said control circuit receiving said close input when said pressure sensor senses pressure that is below the predetermined threshold wherein said pressure sensor is configured to facilitate said ball valve to inhibit normal water levels from flowing through said ball valve;
a flow sensor being integrated into said outlet pipe wherein said flow sensor is configured to sense the flow of water through said outlet pipe, said flow sensor being electrically coupled to said control circuit, said transceiver communicating a flow verification signal to the remote control source wherein said flow sensor is configured to alert service workers that said ball valve is functioning normally;
a data port being integrated into said ball valve control unit, said data port being electrically coupled to said control circuit, said data port being electrically coupled to a data transmission conductor thereby facilitating said control circuit to receive data from the data transmission conductor; and
at least one battery being positioned within said subterranean vault, said at least one battery being electrically coupled to said control circuit, said at least one battery facilitating said control circuit to receive operational voltage in the event of failure of the power source to which said control circuit is electrically coupled thereby facilitating continuous operation of said control circuit.
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