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A power-generating apparatus including an autocontrol electronic mechanical unit, a power-generating unit, a power transportation device, a liquid supply device, a shift device, and a discharge device. The power-generating unit includes a pair of interactive and coupled reverse-linked, hollow moveme

A power-generating apparatus including an autocontrol electronic mechanical unit, a power-generating unit, a power transportation device, a liquid supply device, a shift device, and a discharge device. The power-generating unit includes a pair of interactive and coupled reverse-linked, hollow movement bodies. The relationship between the two movement bodies can be changed through filling liquid to one movement body or discharging liquid from the other. The movement body filled with liquid goes down and brings the other movement body without liquid up to generate power in cycle continuously utilizing lifting and drop movements of the two movement bodies. The power-generating apparatus can utilize objects' gravitational potential energy to generate power in cycle uninterruptedly so as to ensure the continuity and stability of power generation. The power-generating apparatus completely uses the ambient natural energy during its entire power generation process.

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1. A power-generating apparatus comprises: at least a pair of movement bodies;a power-generating unit including a generator coupled to at least a pair of interactive and coupled reverse-linked movement bodies, the movement bodies being hollow bodies equipped with liquid outlet openings;a movement ch

1. A power-generating apparatus comprises: at least a pair of movement bodies;a power-generating unit including a generator coupled to at least a pair of interactive and coupled reverse-linked movement bodies, the movement bodies being hollow bodies equipped with liquid outlet openings;a movement chamber, the movement bodies positionable within the movement chamber;a liquid supply device configured to add liquid through the liquid outlet openings of the movement bodies when the movement bodies are positioned in an upper part of the movement chamber;a shift device, the shift device positioned under the movement chamber and configured to release liquid from the movement bodies when the movement body descends to a lower part of the movement chamber or liquid chamber;a discharging device enabling fluid to leave the shift device to the environment; andan electromechanical autocontrol unit for controlling automated movement of the movement bodies;wherein the power-generating unit comprises:one of a coil and a magnet installed in an inner wall of the movement chamber; the other of a coil and a magnet installed in a first movement body of the movement bodies;a wheel mounted to the movement body such that the wheel defines a gap between the first movement body and the inner wall of the movement chamber. 2. The apparatus of claim 1, wherein the movement bodies are linked to one another such that the movement bodies move vertically in opposite directions. 3. The power-generating apparatus of claim 1, wherein the liquid supply device is in fluid communication with a liquid source and comprises a liquid inlet opening positioned to direct liquid into the movement chamber such that when the movement bodies move to the upper part of the movement chamber, the liquid inlet opening connects to a upper liquid outlet opening of the liquid outlet openings of each movement body to add liquid to the movement body. 4. The power-generating apparatus of claim 1, wherein an upper trap door is installed at an upper part of the shift device having a liquid inlet opening installed thereon, the liquid inlet opening corresponding to a lower liquid outlet opening of the liquid outlet openings of the movement bodies; and wherein the liquid inlet opening of the shift device is positioned such that when the movement bodies move to the lower part of the movement chamber, the liquid inlet connects to the lower liquid outlet opening of each movement body to discharge liquid from the movement body to shift device. 5. The power-generating apparatus of claim 4 wherein the electromechanical control unit comprises a stabilization-retention device positioned between the movement bodies and the shift device, the stabilization-retention device configured to temporarily fix each movement body relative to the shift device during discharging of liquid from the movement body. 6. The power-generating apparatus of claim 1, wherein the power-generating unit comprises: a generator having a drive wheel fixed relative to the movement chamber;a toothed belt engaging the drive wheel and having a first end secured to a first of the movement bodies and a second end secured to a second of the movement bodies. 7. The power-generating apparatus of claim 1, wherein the discharge channel is installed under the shift device such that liquid is permitted to flow from the shift device to the discharge device. 8. The power-generating apparatus of claim 1, wherein a ring-shaped sliding hook is mounted to the movement body and a guiding cable is set up in the movement chamber to control the movement body, wherein the ring-shaped sliding hook grasps the guiding sliding rope to control movement of the movement body. 9. The power-generating apparatus of claim 1, wherein the power-generating apparatus is submerged in a body of water. 10. The power-generating apparatus of claim 9, wherein the power-generating apparatus is mounted to a fixing device comprising: anchors secured to a floor of the body of water;a cable having a lower end fixed to the anchors;a floating board connected with an upper end of the cable. 11. The power-generating apparatus of claim 1, wherein the power-generating apparatus further comprises: at least one pipeline extending outside the movement chamber and coupled to the movement chamber at a first opening proximate a top of the movement chamber and a second opening proximate a bottom of the movement chamber; andat least one filling body;wherein a first movement body of the pair of movement bodies is installed within the movement chamber adjacent the first and second openings, the first movement body having a side door selectively opened to permit the filling body to pass between the movement body and the pipeline. 12. The power-generating apparatus of claim 1, wherein the power-generating apparatus further comprises: at least one pipeline extending outside the movement chamber and coupled to the movement chamber at a first opening proximate a top of the movement chamber;wherein the shift device comprises an upper door and at least one side door, the movement chamber being connected to the shift device through the upper door and the pipeline being connected to the shift device through the side door;wherein the movement bodies move along a route defined by the pipeline, the shift device, and the movement chamber. 13. The power-generating apparatus of claim 12, wherein the pipeline comprises: an upward delivery pipeline;a descending downlink pipeline; anda downward delivery pipeline;wherein the upward delivery pipeline has a first end connected to the first opening of the movement chamber and a second end connected to a first end of the downlink pipeline, a second end of the downlink pipeline being connected to a first end of the downward delivery pipeline, a second end of the downward delivery pipeline being connected to the side door of the shift device. 14. The power-generating apparatus of claim 12, wherein the downlink pipeline has a sliding delivery device installed therein. 15. The power-generating apparatus of claim 13, wherein the pipeline is a straight pipe, standpipe or siphon; and wherein one of a coil and a magnet is installed in inner wall of the pipeline and the other of a coil and a magnet is installed in the filling body. 16. The power-generating apparatus of claim 13, wherein the pipeline comprises a track and the filling body comprises a rotating wheel engageable with the track; and wherein one of a magnet and a coil is installed on the rotating wheel, and the other of a magnet and a coil is installed in the axle of the rotating wheel. 17. The power-generating apparatus of claim 16, further comprising a power transportation device comprising: a cable installed close to an inner wall of the downlink pipeline;a wire connected with the coil in the rotating wheel; andand an elastic rod extending from the filler body having a wheel engaging the cable and electrically connected to the wire. 18. The power-generating apparatus of claim 15, wherein the filling body at least one of is a hollow body;is a solid body; andcontains a brake power generating unit effective to reduce the filling body moving speed and generate power during the process of entering the movement body. 19. The power-generating apparatus of claim 1, wherein the shift device comprises a heat source effective to heat and vaporize liquid discharged from the movement bodies into the shift device; wherein the liquid supply device comprises a condensation compartment installed at the upper part of the movement chamber; and wherein the discharge device comprises a heat insulation pipeline having a first end are coupled to the shift device and a second end coupled to liquid supply device. 20. The power-generating apparatus of claim 19, wherein the heat source is heated by at least one of geothermal energy and solar energy. 21. The power-generating apparatus of claim 19, wherein the condensation compartment is cooled using an ambient temperature difference for condensation. 22. The power-generating apparatus of claim 19, wherein the condensation compartment comprises a refrigeration device. 23. The power-generating apparatus of claim 1, wherein the power-generating apparatus is located within a series of power-generating apparatus located on a slope such the discharge device of a previous power-generating apparatus discharges into the movement chamber of a following power-generating apparatus. 24. The power-generating apparatus of claim 23, wherein the power-generating apparatus is a first power-generating apparatus of a plurality of other power-generating apparatus; the plurality of power-generating apparatus coupled in parallel such that: a first pipeline couples an opening formed in the upper part of the movement chamber of a first power generating apparatus to the shift device of a second power-generating apparatus;a second pipeline couples a first opening formed in the upper part of the movement chamber of the second power generating apparatus to the shift device of the first power-generating apparatus;a third pipeline couples a second opening formed in the upper part of the movement chamber second power-generating apparatus to the shift device of a third power-generating apparatus; anda fourth pipeline couples an opening formed in the upper part of the movement chamber of the third power-generating apparatus to the shift device of the second power-generating apparatus. 25. A pipeline transportation system comprising: a first power-generating apparatus as in claim 10; andan underground transportation pipe, the underground transportation pipe having a first end connected to the pipeline of the first power-generating apparatus and a second end proximate the ground surface having an elevation lower than the first end;wherein the filler body contains at least one of humans and goods. 26. The pipeline transportation system of claim 25, further comprising a second power-generating apparatus as in claim 10 having the movement chamber thereof coupled to the second end of the underground transportation pipe. 27. The power-generating apparatus of claim 19, wherein the liquid is at least one of water, liquid nitrogen, lithium bromide, and Freon.