Replies

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  freia☲ June 24, 2012 at 10:18pm

  Plethora of FREE ENERGY sources:

  http://www.luisprada.com/Protected/the_world_of_free_energy.htm

  Pick yours :)

  Blessings

  <3<3<3
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  0vrcuo8xwis4v June 21, 2012 at 12:17am

  Use this technology to modify your engine on your car to run on the power of a magnetron from a microwave oven, use water as your fuel and add 1 part per hundred fine aluminum powder. This technology is the water engine and it is right there for those who know what it is.
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  0vrcuo8xwis4v May 30, 2012 at 8:25pm

  http://www.google.com/patents/US5970713

  Patents

  Water engine   Giorgio Di Iorio › Overview Abstract Drawings Description Claims Patent number: 5970713 Filing date: Jan 29, 1998 Issue date: Oct 26, 1999

  A water engine having a rocking beam that includes a bucket. A reservoir is mounted on each end of the beam. The respective reservoirs are provided with a valved discharged opening which are alternatively actuated as the corresponding bucket is moved to its elevated position. The actuating medium is supplied to each of the reservoirs by a pump. The timing of the opening and closing of the respective reservoir and bucket discharge valves in an alternating sequence are effected by a mechanical linkage arrangement that is rendered responsive to the rocking motion of the beam. The alternating filling and emptying of the respective bucket imparts a continuous oscillating or rocking motion to the rocking beam, whereby a transmission translates the oscillating motion of the beam into rotary motion for driving a suitable work producing machine. Inventor: Giorgio Di Iorio Current U.S. Classification: 60/640 International Classification: F03B 1706 View patent at USPTO Search USPTO Assignment Database Citations Cited Patent Filing date Issue date Original Assignee Title US1036587 Dec 6, 1911 Aug 27, 1912 WATER-MOTOR US4209990 Apr 18, 1978 Jul 1, 1980 Shelton and Ostrowski Incorporated Gravity flow hydraulic device US4295800 Sep 4, 1979 Oct 20, 1981 Energy convertor US4420373 Aug 3, 1981 Dec 13, 1983 Energy conversion method and system US4465941 Mar 19, 1982 Aug 14, 1984 Aur Hydropower Limited Water engine US4599857 Mar 21, 1985 Jul 15, 1986 Method of power generation and its apparatus utilizing gravitation force and buoyancy US4691514 Aug 4, 1986 Sep 8, 1987 Aur Hydropower Limited Water engine US4739182 Dec 26, 1985 Apr 19, 1988 Hydropneumatic water engine Referenced by Citing Patent Filing date Issue date Original Assignee Title US6299140 May 13, 1999 Oct 9, 2001 Hoist driven by the transfer gearbox of a vehicle Claims 1. A water engine comprising: a rocking beam having opposed ends, a fulcrum adjacent a midpoint of said rocking beam whereby said rocking beam may seesaw thereabout, a weighted member supported on said rocking beam on opposite sides of said fulcrum, said respective weighted members being proportioned so that the weight thereof progressively increases as said weighted member extends away from said fulcrum, means for periodically depositing a predetermined quantity of water on at least one end of said rocking beam sufficient to overbalance the other end of said rocking beam, and causing said water weighted one end of said beam to fall to a predetermined lower lever, means for relieving said one end of the water deposited on said one end at said predetermined lower lever, said other end being weighted to overbalance said lowered one end when relieved of said water to cause said one end to rise to a predetermined upper level, and means for translating the seesawing motion imparted to said rocking beam to rotary motion. 2. A water engine as defined in claim 1 wherein said means for periodically imparting said weight on said one end of said beam comprises: a reservoir for containing a supply of water supported above said one end of said beam, said reservoir having an opening through which water is discharged therefrom a valve means for controlling the opening and closing of said opening, and means for actuating said valve means for periodically shifting said valve means between open and closed position to periodically input a water weight on said one end of said beam to effect a seesawing motion to said beam. 3. A water engine as defined in claim 2 and including: a bucket connected to said one end of said beam for receiving the water from said reservoir, said bucket having a discharge opening, and a valve member for opening and closing said bucket discharge opening, and means for actuating said valve member between said open and closed position whereby said valve member is shifted to the open position as said one end reaches its lower level, and to a closed position as said one end is rising to its upper level adjacent said reservoir. 4. A water engine as defined in claim 1 and including a pair of tanks supported on said beam, each of said pair of tanks being supported on said beam on opposite sides of said fulcrum means. 5. A water engine comprising: a rocking beam having opposed ends, means for fulcruming said rocking beam adjacent a midpoint thereof whereby said rocking beam may seesaw thereabout, means for periodically depositing a predetermined quantity of water on at least one end of said rocking beam sufficient to overbalance the other end of said rocking beam, and causing said water weighted one end of said beam to fall to a predetermined lower lever, means for relieving said one end of the water deposited on said one end at said predetermined lower lever, said other end being weighted to overbalance said lowered one end when relieved of said water to cause said one end to rise to a predetermined upper level, and means for translating the seesawing motion imparted to said rocking beam to rotary motion, said means for periodically imparting said weight on said one end of said beam including a reservoir for containing a supply of water supported above said one end of said beam, said reservoir having an opening through which water is discharged therefrom a valve means for controlling the opening and closing of said opening, and means for actuating said valve means for periodically shifting said valve means between open and closed position to periodically input a water weight on said one end of said beam to effect a seesawing motion to said beam, a bucket connected to said one end of said beam for receiving the water from said reservoir, said bucket having a discharge opening, and a valve member for opening and closing said bucket discharge opening, and means for actuating said valve member between said open and closed position whereby said valve member is shifted to the open position as said one end reaches its lower level, and to a closed position as said one end is rising to its upper level adjacent said reservoir, a pair of tanks supported on said beam, each of said pair of tanks being supported on said beam on opposite sides of said fulcrum means, each of said tanks are generally conical in configuration having their respective apex adjacent said fulcrum means and said tanks diverging outward toward the adjacent ends of said rocking beam. 6. A water engine as defined in claim 5 wherein each of said tanks is filled with a weighted medium. 7. A water engine as defined in claim 6 wherein said weighted medium is water. 8. A water engine as defined in claim 6 wherein said weighted medium is sand. 9. A water engine comprising: a base, a moat for containing a supply of water disposed adjacent said base, a rocking beam mounted on said base, said beam having opposed ends arranged to rise and fall, a transverse axle connected to said beam adjacent its midpoint about which the beam rocks as said opposed ends alternately rise and fall between an elevated and lower position to impart an oscillation motion to said axle, a weighted member supported on said rocking beam on opposite sides of said transverse axle, said weighted members being proportioned so that the weight thereof progressively increases as said weighted member extends away from said transverse axis, a pair of reservoirs, each of said reservoirs being supported above a corresponding opposed end of said rocking beam, each of said reservoirs having a discharge opening, a valve for sequentially opening and closing said discharge opening of its respective reservoir, means for pumping water from said moat to each of said reservoirs, a bucket connected to each end of said beam, each of said buckets having an outlet, a valve member for sequentially opening and closing said outlet, and means for actuating said reservoir valve and said bucket valve member in a predetermined sequence whereby the valve of one reservoir is shifted to an open position as the valve of the other reservoir is closed, and means for sequentially actuating the valve member of the elevating bucket to a closed position and shifting the valve member of the other bucket to an open position as it reaches its lower position. 10. A water engine as defined in claim 9 and including a means for translating the oscillating movement of said axle to a rotary motion. 11. A water engine as defined in claim 10 wherein said translation means includes: a flywheel, a crank shaft connected to said flywheel, and a crank arm interconnected between said axle and said crank shaft whereby the oscillating motion of said axle imparts the rotary motion of said flywheel. 12. A water engine comprising: a base, a moat for containing a supply of water disposed adjacent said base, a rocking beam mounted on said base, said beam having opposed ends arranged to rise and fall, a transverse axle connected to said beam adjacent its midpoint about which the beam rocks as said opposed ends alternately rise and fall between an elevated and lower position to impart an oscillation motion to said axle, a pair of reservoirs, each of said reservoirs being supported above a corresponding opposed end of said rocking beam, each of said reservoirs having a discharge opening, a valve for sequentially opening and closing said discharge opening of its respective reservoir, means for pumping water from said moat to each of said reservoirs, a bucket connected to each end of said beam, each of said buckets having an outlet, a valve member for sequentially opening and closing said outlet, and means for actuating said reservoir valve and said bucket valve member in a predetermined sequence whereby the valve of one reservoir is shifted to an open position as the valve of the other reservoir is closed, and means for sequentially actuating the valve member of the elevating bucket to a closed position and shifting the valve member of the other bucket to an open position as it reaches it lower position, a pair of conical tanks, each of said conical tanks being connected to said rocking beam on opposite sides of said transverse axle whereby the apex end of the respective tanks are located adjacent the transverse axle and diverge outward toward the corresponding end of said beam. 13. A water engine as defined in claim 12 and including a weighted medium disposed within each of said tanks. 14. A water engine comprising: a base, a moat for containing a supply of water disposed adjacent said base, a rocking beam mounted on said base, said beam having opposed ends arranged to rise and fall, a transverse axle connected to said beam adjacent its midpoint about which the beam rocks as said opposed ends alternately rise and fall between an elevated and lower position to impart an oscillation motion to said axle, a pair of reservoirs, each of said reservoirs being supported above a corresponding opposed end of said rocking beam, each of said reservoirs having a discharge opening, a valve for sequentially opening and closing said discharge opening of its respective reservoir, means for pumping water from said moat to each of said reservoirs, a bucket connected to each end of said beam, each of said buckets having an outlet, a valve member for sequentially opening and closing said outlet, and means for actuating said reservoir valve and said bucket valve member in a predetermined sequence whereby the valve of one reservoir is shifted to an open position as the valve of the other reservoir is closed, and means for sequentially actuating the valve member of the elevating bucket to a closed position and shifting the valve member of the other bucket to an open position as it reaches it lower position, said means for sequentially actuating the respective valve members controlling the emptying of the respective buckets comprises a linkage system responsive to the movement of its corresponding bucket between an elevated and lower position to effect the closing of the valve member in the elevated position of the corresponding bucket and the opening of the valve member of said corresponding bucket in the lower position thereof. 15. A water engine comprising: a base, a moat for containing a supply of water disposed adjacent said base, a rocking beam mounted on said base, said beam having opposed ends arranged to rise and fall, a transverse axle connected to said beam adjacent its midpoint about which the beam rocks as said opposed ends alternately rise and fall between an elevated and lower position to impart an oscillation motion to said axle, a pair of reservoirs, each of said reservoirs being supported above a corresponding opposed end of said rocking beam, each of said reservoirs having a discharge opening, a valve for sequentially opening and closing said discharge opening of its respective reservoir, means for pumping water from said moat to each of said reservoirs, a bucket connected to each end of said beam, each of said buckets having an outlet, a valve member for sequentially opening and closing said outlet, and means for actuating said reservoir valve and said bucket valve member in a predetermined sequence whereby the valve of one reservoir is shifted to an open position as the valve of the other reservoir is closed, and means for sequentially actuating the valve member of the elevating bucket to a closed position and shifting the valve member of the other bucket to an open position as it reaches it lower position, said means for sequentially operating said valve controlling the discharge of water from the respective reservoirs comprises: a linkage system interconnected between said beam adjacent the bucket carried on the end of said beam and said valve of a corresponding reservoir whereby said reservoir valve is shifted to the open position when said bucket of said corresponding reservoir is in the elevated position and shifted to a closed position as said elevated bucket begins to descend toward its lower position. 16. A water engine comprising: a base, a structural frame mounted on said base, a moat adjacent said base for containing a supply of water, a pedestal supported on said base, a rocking beam having a transverse axle connected thereto, said axle being supported on said pedestal, said rocking beam having opposed end portions arranged to alternately seesaw about said axle between an elevated and lowered position to impart an oscillating motion to said axle, a bucket for receiving a predetermined quantity of water connected to each end of said beam, each of said buckets having a discharge opening formed in the bottom thereof, and a valve member for opening and closing said discharge opening, a reservoir mounted on said frame above each of said buckets, each of said reservoirs having a water discharge opening, and a plug valve for opening and closing said discharge opening of its respective reservoir, a linkage system responsive to the seesaw motion of said rocking beam to effect the sequential actuation of each of the respective bucket valves whereby said bucket valve is opened in the lower-most position of said bucket and closed in the elevated position of said bucket, a second linkage system responsive to the seesaw motion of the rocking beam to sequentially open the plug valve of one of said reservoirs when its corresponding bucket is in the upper position and closing the plug valve of the other reservoir when its corresponding bucket is descending to its lower position. 17. A water engine as defined in claim 16 and including a transmission means for translating the oscillating motion of said oscillating axle into a rotary motion. 18. A water engine as defined in claim 16 and including a pair of tanks supported on said rocking beam to either side of said transverse axle, each of said tanks being generally conical in shape whereby each of said tanks diverge outward to said opposed ends of said beam, and a weighted medium is disposed in each of said tanks. 19. A water engine as defined in claim 16 and including dampening means interposed between the opposed ends of said beam and said base to dampen any input imparted during operation of the rocking beam. 20. A water engine as defined in claim 16 wherein said dampening means includes a telescoping sleeve and rod pivotally interconnected between said rocking beam and said base, a spring assembly loosely mounted on said rod adjacent said base whereby said spring assembly absorbs the impact of said sleeve as said rocking beam bottoms out at the lower most position of the respective buckets mounted thereon. 21. A water engine as defined in claim 20 and including a means slidably mounted on said rod for adjusting the distance between the rise and fall of the respective buckets. 22. A water engine comprising: a rocking beam having opposed ends, a fulcrum supporting said rocking beam intermediate said opposed ends to seesaw thereabout, a weighted member supported on said rocking beam on either side of said fulcrum, each of said weighted members being proportioned so that the weight thereof progressively increases as said weighted member extends away from said fulcrum, a receptacle mounted on at least one of said opposed ends of said rocking beam, a water supply for periodically distributing a predetermined amount of water to said receptacle sufficient to overbalance the other end of said rocking beam, and causing said water weighted one end of said beam to fall to a predetermined lower level, said receptacle having a valve operative to open as said water weighted end of said rocking beam falls to said predetermined lower level to empty the water from said receptacle, said other end of said rocking beam being weighted to overbalance said one end to raise said receptacle thereon to a predetermined upper lever, and a transmission connected to said rocking beam for translating the seesawing motion to said rocking beam to rotary motion. Drawings Drawings Drawings Drawings Drawings Drawings