Patent ID: 9151160
Filing Date: 2015-10-06
Classification: F01B

Abstract:
1. A hydraulic motor for generating electricity, comprising: a container assembly having a container inlet including a body of water and first conduit means with first and second ends, said first end connected to the lowermost point of said container assembly and said first conduit means further including a connecting port between said first and second ends and substantially adjacent to said second end with said second end being positioned at a predetermined distance below said container assembly, a hydraulic shock valve assembly connected to said connecting port and further including second conduit means having third and fourth ends with said third end connected to the lowermost point of said hydraulic shock valve assembly so that the water entering through said connecting port and passing through said hydraulic shock valve assembly is discharged through said second conduit means, a holding tank connected to said fourth end of said second conduit means at the uppermost area of said holding tank, said tank being positioned below said hydraulic shock valve assembly, said tank including first and second inlet ports and further including first and second outlet ports, said first outlet port being positioned on the uppermost area of said tank and said second outlet port being located on the lower side of said tank, a distribution valve assembly having a valve housing with first and second housing ends and having a moving valve member therein that moves between two extreme positions, said valve member including a transversal through opening, said distribution valve assembly including third and fourth inlet ports and a bifurcated tube connecting said third and fourth inlet ports to said second end and connected, respectively, to said first and second inlet ports of said tank, said distribution valve assembly being positioned below said hydraulic shock valve assembly and above said holding tank, and said distribution valve assembly including third and fourth outlet ports adjacent to said first and second housing ends, respectively, and further including first and second inlet/outlet ports in cooperative alignment with said third and fourth inlet ports for allowing said valve member to selectively interrupt the connection between said third inlet port with said first inlet/outlet port while connecting said fourth inlet port with said second inlet/outlet port when said moving valve member is at one extreme position and interrupting the connection between said fourth inlet port with said second inlet/outlet port while the connecting said third inlet port with said first inlet/outlet port when said moving valve member is at the other extreme position, and said distribution valve assembly further including a valve rod mounted to said valve member and being partially housed within said valve housing and extending centrally and outwardly through said first housing end, an actuating mechanism for said distribution valve assembly to cause said valve member to move rapidly between said two extreme positions of said valve assembly, said valve member mounted to said valve rod; a piston assembly including a piston housing with third and fourth housing ends and a piston head therein moveable between extreme first and second positions and further including third and fourth inlet/outlet ports connected to said first and second inlet/outlet ports, respectively, and said piston assembly further including a piston rod coaxially disposed with respect to said piston housing and partially extending centrally within said piston housing and protruding outwardly through said third housing end, an oscillating lever assembly having a pivoting lever member with first and second lever ends and pivoting about a central pivoting point with a slot between said pivoting point and said second lever end, said first lever end being mounted to said piston rod distal end to receive the reciprocating movement transmitted by said piston rod, and further including a linkage rod with first and second linkage rod ends, said first linkage rod end being pivotally mounted to said pivoting lever member adjacent to said second lever end, and said lever assembly further including an actuating rod that extends substantially transversally and adjacent to said lever member with a perpendicularly mounted pin that cooperatively engages with said slot, and said actuating rod mounted to said actuating mechanism, a wheel assembly pivotally receiving said second linkage rod end at an off-centered location on said wheel assembly and in cooperative combination to convert the oscillatory movement of said second lever end to a rotational movement of said wheel assembly, and said wheel assembly including means for transmitting said rotational movement to a valve actuating assembly for driving said hydraulic shock valve assembly to cause it to repetitively open and close to deliver a shock to said first conduit means, an electric generator assembly coupled to said wheel assembly to receive the rotational movement necessary to generate electricity, and electric pump means powered by said generator assembly, said pump means having an inlet connected to said first and second outlet ports of said holding tank and an outlet connected to said container inlet in said container assembly.