CN113027557A - Power device driven by gravity center transfer generated by liquid gasification and liquefaction - Google Patents

Abstract

The invention discloses a power device which utilizes liquid gasification and liquefaction to generate gravity center transfer and drives a transmission shaft to rotate by means of the gravity center transfer, a guide pipe is connected with an upper tank body and a lower tank body to form a gas-liquid container, the lower tank body is filled with easily gasified liquid, partial liquid is gasified at room temperature and accumulated in the upper tank body, the upper tank body is liquefied by gas accumulated in the upper tank body when being cooled, so that the air density at the upper part of the tank body is reduced, the pressure intensity is reduced, the lower liquid is sucked into the upper tank body under the action of the pressure intensity, the gravity center of the gas-liquid container is transferred from the lower tank body to the upper tank body to rotate, the transmission shaft is driven to continuously rotate by the orderly rotation of a plurality of gas-liquid containers, the continuous power output of the power device is realized, the invention only needs a small amount of water for cooling during the operation, no, can be stably operated for a long time.

Description

Power device driven by gravity center transfer generated by liquid gasification and liquefaction

Technical Field

The invention relates to a power device, which mainly utilizes liquid gasification and liquefaction to generate gravity center transfer and drives a transmission shaft to rotate by means of the gravity center transfer. Specifically, a guide pipe is connected with an upper tank body and a lower tank body to form a gas-liquid container, the lower tank body is filled with easily-gasified liquid, part of the liquid is gasified at room temperature and accumulated in the upper tank body, the accumulated gas in the upper tank body is liquefied when the upper tank body is cooled, so that the air density at the upper part of the tank body is reduced and the pressure intensity is reduced, the lower liquid is sucked into the upper tank body under the action of the pressure intensity, the gravity center of the gas-liquid container is shifted from the lower tank body to the upper tank body to rotate, and the transmission shaft is driven to continuously rotate through the orderly rotation of the plurality of gas-liquid containers, so that the continuous power output of.

Background

The current mature driving mode generated by primary energy can be mainly divided into driving modes such as gas pressure driving (including high-pressure steam driving of thermal power stations, nuclear power stations and solar thermal power stations and high-pressure detonation gas driving of internal combustion engines), wind power driving, hydraulic gravity driving and the like, the driving modes have high requirements on environmental conditions, the running cost is high, part of the driving modes need to burn fossil energy, and the emission can influence the environment.

Thermal power station, centralized photovoltaic power plant, centralized wind power plant all need remote wiring to be used for transmitting electric power, and wiring cost is high, transmission line loss is big, and constitutes the hidden danger to national wartime energy safety supply, therefore the country advocates the construction distributed energy energetically.

The invention has low requirement on the operating environment condition, only needs a small amount of water for cooling during operation, does not need to add any fuel during operation, can stably operate for a long time, has no pollutant emission during the whole operation process, can freely customize the installed capacity according to the requirement, and connects the transmission shaft with the generator, thereby becoming a distributed independent power station.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the traditional driving equipment has higher requirement on environmental conditions and high operation cost, and part of driving modes need to burn fossil energy, emissions can influence the environment, the installed capacity is large, so that the remote transmission wiring cost is high, the transmission line loss is large, and hidden dangers are formed on national wartime energy safety supply.

The technical scheme of the invention is as follows: the scheme mainly comprises seven main parts, namely a gas-liquid container for containing liquid, a gas-liquid container rotating shaft, a pull rod supporting frame, a transmission shaft, a single support and a water spraying system, wherein the gas-liquid container, the gas-liquid container rotating shaft, the pull rod supporting frame, the transmission shaft, the single support and the water spraying system are formed by connecting an upper tank body and a lower tank body through a. The pull rod comprises an upper pull rod and a lower pull rod, a guide pipe in the gas-liquid container is inserted into the cavity of the lower tank body, the pipe orifice of the guide pipe is submerged below the liquid level of the lower tank body, and the rotating shaft of the gas-liquid container is fixed in the middle of the guide pipe of the gas-liquid container. The liquid in the gas-liquid container is gasified in the lower tank body, the gas rises to the upper tank body through the guide pipe, a layer of water-absorbing material is coated outside the upper tank body, a water spraying system sprays water to the water-absorbing material to realize that the surface temperature of the upper tank body is lower than the liquefaction temperature of the gas in the cavity, the gas in the upper tank body is condensed into liquid when meeting the condensation, the liquid condensed under the action of gravity flows from the upper tank body to the lower tank body, the density of the gas in the cavity of the upper tank body is reduced, the gas pressure is reduced, so that the gas pressure in the cavity of the lower tank body is higher than the gas pressure in the cavity of the upper tank body, the liquid in the lower tank body is sucked into the upper tank body through the guide pipe under the action of the gas pressure difference until the gravity center of the gas-liquid container is shifted to be deviated to the upper tank body from the lower tank body, and the gas-liquid container rotates, the maximum central height of the lower tank body is always lower than the central height of the upper tank body in the rotating process, when the pipe orifice part in the lower tank body is exposed out of the liquid surface, the upper tank body is communicated with the lower tank body through air, the air pressure of the upper tank body and the air pressure of the lower tank body are balanced, liquid in the upper tank body flows back to the lower tank body again under the action of gravity, the gravity center of the gas-liquid container is shifted to be deviated to the lower tank body from the original deviation to the upper tank body, so that the gas-liquid container reversely rotates by taking the rotating shaft of the gas-liquid container as the center, the upper tank body rotates upwards, the lower tank body rotates downwards until the initial balanced state is reached, and then the steps are repeated. The gas-liquid container transmission device is characterized in that a parallel pull rod is fixed on a gas-liquid container rotation shaft, a certain distance is reserved between the two ends of the parallel pull rod and the center of the gas-liquid container rotation shaft, an upper pull rod and a lower pull rod are fixed at the two ends of the parallel pull rod, the upper pull rod and the lower pull rod are respectively lapped on a transmission gear on a transmission shaft when the gas-liquid container rotates, the upper pull rod, the lower pull rod and the transmission gear are in a saw-tooth shape, namely, an oblique angle and a right angle, so that the transmission gear can be driven to rotate when the upper pull rod or the lower pull rod is in contact with the transmission gear through a right-angle surface, when. Therefore, when the gas-liquid container rotates, the upper tank body rotates downwards, the lower tank body rotates upwards, the upper pull rod moves downwards, the sawtooth inclined plane of the upper pull rod is in contact with the sawtooth inclined plane of the transmission gear to slide, the upper pull rod does not do work on the transmission gear, the lower pull rod moves upwards, the right-angle plane of the sawtooth is in contact with the right-angle plane of the transmission gear to effectively pull work, so that the transmission gear is driven to rotate, the transmission gear drives the transmission shaft to rotate, when the gas-liquid container rotates reversely, the upper tank body rotates upwards, the lower tank body rotates downwards, the upper pull rod moves upwards, the right-angle plane of the sawtooth is in contact with the right-angle plane of the sawtooth of the transmission gear to effectively pull, the transmission shaft still keeps the original rotation direction to continue rotating, the sawtooth inclined plane of the lower pull rod is in contact with the sawtooth inclined plane, the upper pull rod and the lower pull rod drive the transmission gear to rotate in the unique direction in a wheel-to-wheel mode, the transmission gear drives the transmission shaft to rotate in the unique direction, and a certain time interval is reserved between the static state and the re-rotation of the gas-liquid container, so that a plurality of sets of gas-liquid containers, the pull rods, the transmission gears and the like need to be configured to achieve reciprocating alternate motion, the pull rods are guaranteed to drive the transmission gear to rotate at each time point, and the stable rotation of the transmission shaft is achieved. The pull rod support frame is fixed on the single support, when one round of reciprocating motion is closed to the end, the lower tank body rotates downwards to be close to the home position, the lower swing arm of the pull rod support frame can be touched and driven to rotate downwards, the upper swing arm of the pull rod support frame is driven to rotate upwards according to the lever principle, the upper swing arm can lift the upper pull rod and the lower pull rod, the upper pull rod and the lower pull rod are not in contact with the transmission gear, unnecessary friction between the upper pull rod and the lower pull rod in a static state and the transmission gear is avoided, when a new round of rotation starts, the lower tank body starts to rotate upwards, the lower swing arm of the pull rod support frame loses stress to realize upward slight rotation, the upper swing arm rotates downwards, and the upper pull rod and the lower pull rod are overlapped on.

The power device driven by the gravity center transfer generated by liquid gasification and liquefaction is mainly characterized in that: 1. the gas-liquid container is composed of an upper tank body and a lower tank body which are connected by a guide pipe; 2. the gas-liquid container is a complete sealing body, and no loss occurs when the liquid is sealed in the gas-liquid container; 3. the liquid in the gas-liquid container is selected from liquid which is easy to be gasified and liquefied at normal temperature, such as diethyl ether, pentane, dichloromethane, carbon disulfide and the like; 4. a guide pipe in the gas-liquid container is inserted into the lower tank body in the gas-liquid container, and a guide pipe port is submerged below the liquid level in the lower tank body in a static state; 5. the upper tank body of the gas-liquid container is coated with a water absorbing material; 6. a water spraying system supplies water to the water absorbing material coated on the upper tank body of the gas-liquid container; 7. a parallel pull rod is fixed on the rotating shaft of the gas-liquid container, and two ends of the parallel pull rod are at a certain distance from the center of the rotating shaft of the gas-liquid container; 8. an upper pull rod and a lower pull rod are fixed at two ends of the parallel pull rod; 9. when the gas-liquid container rotates, the upper pull rod and the lower pull rod are both lapped on the transmission gear on the transmission shaft; 10. the upper pull rod, the lower pull rod and the transmission gear are in sawtooth shapes with an oblique angle and a right angle; 11. when the gas-liquid container is in a static state, the pull rod supporting rod can support the upper pull rod and the lower pull rod so that the upper pull rod and the lower pull rod are not rubbed with the transmission gear; 12. an anti-over-tilting rod is arranged beside a rotating shaft of the gas-liquid container so as to ensure that the maximum central height of the lower tank body is always lower than the central height of the upper tank body in the rotating process of the gas-liquid container; 13. the device is provided with a plurality of sets of gas-liquid containers, gas-liquid container rotating shafts, pull rods, pull rod supporting frames, transmission shafts, transmission gears, single supports and the like to realize reciprocating alternate motion, so that the pull rods can drive the transmission gears to rotate at each time point, and the transmission shafts can be driven to stably rotate.

The power device has the advantages that the power device has low requirement on the operating environment condition, only needs a small amount of water for cooling during operation, does not need to add any fuel during operation, can stably operate for a long time, does not discharge any pollutant during the whole operation process, can be randomly customized according to the requirement, and can be changed into a distributed independent power station by connecting the transmission shaft with the generator.

Description of the drawings:

FIG. 1 is an overall schematic view of the present invention after installation;

FIG. 2 is a schematic view of an initial state of a monomer gas-liquid container;

FIG. 3 is a schematic view of a liquid inlet pipe of a monomer gas-liquid container;

FIG. 4 is a schematic view of a monomer gas-liquid container liquid entering an upper tank body;

FIG. 5 is a schematic view of the liquid level exposed from the lower nozzle of the conduit of the monomer gas-liquid container;

FIG. 6 is a schematic view of the lower nozzle of the conduit of the monomer gas-liquid container submerged in the liquid level;

FIG. 7 is a schematic view showing the fixed fit of a single gas-liquid container with a pull rod and a transmission gear;

FIG. 8 is a schematic view of the gear contact surface of the pull rod and the transmission gear;

FIG. 9 is a schematic view of the balance state of the drawbar support frame;

FIG. 10 is a schematic view of the pull rod support frame supporting the upper pull rod and the lower pull rod;

FIG. 11 is a detailed view of the contact surface between the upper swing arm and the upper and lower pull rods of the pull rod support frame;

the reference numbers in the figures mean: 1-a transmission shaft; 2-a water-absorbent material; 3-water delivery port; 4-a water tank; 5-lower opening of the conduit; 6-liquid level of the lower tank body; 7-a catheter; 8-putting the tank body; 9-lower tank body; 10-liquid level in the conduit; 11-gas-liquid container rotating shaft; 12-anti-tip bar; 13-parallel tie rods; 14-upper pull rod; 15-lower pull rod; 16-a transmission gear; 17-a right angle face of the sawtooth of the transmission gear; 18-drive gear saw tooth bevel; 19-a lower pull rod sawtooth slope; 20-a sawtooth right-angle surface of the lower pull rod; 21-a sawtooth right-angle surface of the upper pull rod; 22-upper pull rod sawtooth inclined plane; 23-a pull rod support frame; 24-swinging the upper arm of the pull rod support frame; 25-a lower swing arm of a pull rod support frame; 26-a monolithic scaffold; 27-a gas-liquid container; 28-upper swing arm upper projection; 29-upper swing arm lower projection.

The specific implementation mode is as follows:

the structure of the present invention will be described in further detail below with reference to the accompanying drawings.

Firstly, as shown in figure 2, a gas-liquid container is composed of a conduit 7, an upper tank body 8 and a lower tank body 9, and a conduit lower port 5 in the gas-liquid container is submerged below the liquid level 6 of the lower tank body in a static state;

secondly, as shown in fig. 3, in a static state, liquid in the gas-liquid container is gasified in the lower tank body 9, the gas rises to the upper tank body 8 through the guide pipe 7, the outer part of the upper tank body 8 is coated with a layer of water-absorbing material 2, the water spraying system can convey water to the water-absorbing material 2, the surface temperature of the upper tank body 8 is lower than the liquefaction temperature of gas in the cavity, the gas in the upper tank body 8 is condensed into liquid when meeting the condensation, the liquid condensed under the action of gravity flows from the upper tank body 8 to the lower tank body 9, the density of the gas in the cavity of the upper tank body 8 is reduced, the gas pressure is reduced, so that the gas pressure in the cavity of the lower tank body 9 is larger than the gas pressure in the cavity of the upper tank body 8, the liquid in the lower tank body 9 is sucked into the upper tank body;

thirdly, as shown in fig. 4, when the liquid enters the upper tank 8 due to the action of the air pressure difference, the gravity center of the gas-liquid container is shifted from the lower tank 9 to the upper tank 8 along with the gradual rise of the liquid level 10, so that the gas-liquid container rotates around the rotating shaft 11 of the gas-liquid container, the upper tank 8 rotates downwards, and the lower tank 9 rotates upwards;

fourthly, as shown in fig. 5, an anti-tilting rod 12 is arranged beside a rotating shaft 11 of the gas-liquid container, so that the maximum central height of the lower tank body 9 is always lower than the central height of the upper tank body 8 in the rotating process, when the pipe orifice 5 of the conduit in the lower tank body 9 is partially exposed out of the liquid level 6, the upper tank body 8 is in air communication with the lower tank body 9, the air pressure of the upper tank body and the air pressure of the lower tank body are balanced, the liquid in the upper tank body 8 flows back to the lower tank body 9 again due to the action of gravity, as shown in fig. 6, the gravity center of the gas-liquid container is shifted to be deviated to the lower tank body 9 from the original deviation of the upper tank body 8, so that the gas-liquid container reversely rotates by taking the rotating shaft 11 of the gas-liquid container as the center, the upper tank body 8 rotates upwards, the lower tank body;

fifthly, as shown in fig. 7, a parallel pull rod 13 is fixed on a rotating shaft 11 of the gas-liquid container, two ends of the parallel pull rod 13 are at a certain distance from the center of the rotating shaft 11 of the gas-liquid container, an upper pull rod 14 and a lower pull rod 15 are fixed at two ends of the parallel pull rod 13, and the upper pull rod 14 and the lower pull rod 15 are both lapped on a transmission gear 16 on a transmission shaft 1 when the gas-liquid container rotates;

sixthly, as shown in fig. 8, the upper pull rod 14, the lower pull rod 15 and the transmission gear 16 are all in a sawtooth shape with one bevel and one right angle, so that the transmission gear 16 can be driven to rotate when the upper pull rod 14 or the lower pull rod 15 contacts the transmission gear 16 in a right-angle surface, and when the upper pull rod or the lower pull rod 15 contacts the transmission gear 16 in an oblique-angle surface, the pull rod slides with the transmission gear 16, and the pull rod does not drive the transmission gear 16 to rotate. Therefore, when the gas-liquid container rotates, the upper tank body rotates downwards, the lower tank body rotates upwards, the upper pull rod 14 moves downwards at the moment, the sawtooth inclined plane 22 of the upper pull rod 14 is in contact with the sawtooth inclined plane 18 of the transmission gear 16 to generate sliding, the upper pull rod 14 does not do work on the transmission gear 16, the lower pull rod 15 moves upwards at the moment, the sawtooth right-angle surface 20 of the lower pull rod is in contact with the sawtooth right-angle surface 17 of the transmission gear 16 to generate effective pulling work, so that the transmission gear 16 is driven to rotate, the transmission gear 16 drives the transmission shaft 1 to rotate, when the gas-liquid container rotates reversely, the upper tank body rotates upwards and the lower tank body rotates downwards, the upper pull rod 14 moves upwards at the moment, the sawtooth right-angle surface 21 of the upper pull rod is in contact with the sawtooth right-angle surface 17 of the transmission gear 16 to generate effective pulling, so that the transmission shaft, at this time, the lower pull rod 15 does not work on the transmission gear 16, and through the reciprocating motion, the upper pull rod 14 or the lower pull rod 15 alternately drives the transmission gear 16 to rotate towards the unique direction, and the transmission gear 16 drives the transmission shaft 1 to rotate towards the unique direction.

Seventhly, as shown in fig. 9, a pull rod support frame 23 is fixed on a single support 26, when the reciprocating motion of one cycle is close to completion, the lower tank body rotates downwards, and when the gas-liquid container 27 approaches to the return position, the gas-liquid container touches a lower swing arm 25 of the pull rod support frame 23 and drives the lower swing arm to rotate downwards, an upper swing arm 24 of the pull rod support frame 23 is driven to rotate upwards according to the lever principle, so that the upper swing arm 24 lifts the upper pull rod 14 and the lower pull rod 15, the upper pull rod 14 and the lower pull rod 15 are not in contact with the transmission gear 16, unnecessary friction between the upper pull rod 14 and the lower pull rod 15 and the transmission gear 16 in a static state is avoided, when the rotation of a new cycle starts, the lower tank body starts to rotate upwards, the lower swing arm 25 of the pull rod support frame 23 loses the pressure of the gas-liquid container 27, and the pull rod support frame 23 can rotate, simultaneously, the upper swing arm 24 rotates downwards, and the upper pull rod 14 and the lower pull rod 15 are overlapped on the transmission gear 16 again to start a new round of reciprocating motion. Wherein upper swing arm 24 holds up upper pull rod 14 and lower pull rod 15 as shown in fig. 10. As shown in fig. 11, the upper swing arm is composed of two horizontally fixed protrusions, one long and one short, which are arranged up and down, and the upper protrusion 28 of the upper swing arm supports the lower pull rod 15, and the lower protrusion 29 of the upper swing arm supports the upper pull rod 14.

As shown in fig. 1, since the single gas-liquid container rotates again after standing, a plurality of sets of gas-liquid containers, pull rods, transmission gears, and the like need to be arranged to realize alternate reciprocating motion, so as to ensure that the pull rods drive the transmission gears to rotate at each time point, thereby realizing stable rotation of the transmission shaft 1. And a water tank 4 is arranged at the same time, and a layer of water-absorbing material 2 coated outside the tank body of the gas-liquid container is conveyed with water through a water conveying port 3 to realize the cooling effect.

Claims (16)

1. A power plant driven by the gravity center shift generated by the gasification and liquefaction of liquid is characterized in that: a guide pipe is connected with the upper tank body and the lower tank body to form a gas-liquid container (27), the gas-liquid container (27) is arranged on a rotating shaft (11) of the gas-liquid container, the rotating shaft (11) of the gas-liquid container is arranged on a single body support (26), the lower tank body (9) of the gas-liquid container (27) is filled with easily gasified liquid, part of the liquid is gasified at room temperature and accumulated on the upper tank body (8), the accumulated gas in the upper tank body (8) is liquefied when the upper tank body (8) is cooled, so that the density of air at the upper part of the upper tank body (8) is reduced and the pressure is reduced, the liquid in the lower tank body (9) is sucked into the upper tank body (8) under the action of the pressure, the gravity center of the gas-liquid container (27) is shifted from the lower tank body (9) to the upper tank body (8), the gas-liquid container (27) rotates by taking the rotating shaft (11) of the gas-liquid container as Rotate, drive gear (16) drive transmission shaft (1) and rotate, then make its rotation in order and drive transmission shaft (1) and continue to rotate through disposing a plurality of gas-liquid container (27), realize this power device's continuous power take off, dispose simultaneously water tank (4) and go up jar body (8) and cool down to the gas-liquid container.

2. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: the gas-liquid container (27) is composed of a guide pipe (7), an upper tank body (8) and a lower tank body (9), the two tank bodies are connected to two sides of the guide pipe (7), the interiors of the two tank bodies are communicated with each other, and the two tank bodies are completely isolated from outside air.

3. A power plant driven by the shift of the center of gravity by the vaporization and liquefaction of a liquid according to claim 1 or 2, wherein: the lower opening (5) of the catheter (7) extends into the cavity of the lower tank body (9).

4. A power plant driven by the shift of the center of gravity by the vaporization and liquefaction of a liquid according to claim 1 or 2, wherein: a gas-liquid container rotating shaft (11) is fixed on the guide pipe (7), and the gas-liquid container (27) rotates around the gas-liquid container rotating shaft (11).

5. A power plant driven by the shift of the center of gravity by the vaporization and liquefaction of a liquid according to claim 1, 2 or 4, wherein: the gas-liquid container (27) takes a gas-liquid container rotating shaft (11) as a rotating center, and the gravity center of the gas-liquid container (27) is deviated to the lower tank body (9) in a static state.

6. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: the gas-liquid container (27) is filled with liquid which is easy to gasify and liquefy at normal temperature.

7. A power plant driven by the shift of the center of gravity by the vaporization and liquefaction of a liquid according to claim 1, 3 or 6, wherein: in a static state, the lower opening (5) of the guide pipe is not below the liquid level (6) of the lower tank body.

8. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: the single support (26) is provided with an anti-tilting rod (12), and when the gas-liquid container (27) is contacted with the anti-tilting rod (12), the central height of the lower tank body (9) is always lower than that of the upper tank body (8).

9. The power plant driven by the shift of the center of gravity by the vaporization and liquefaction of a liquid according to claim 1 or 8, wherein: when the gas-liquid container (27) is contacted with the anti-tilting rod (12), the lower opening (5) of the guide pipe is partially or completely positioned above the liquid level (6) of the lower tank body.

10. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: a parallel pull rod (13) is fixed on the gas-liquid container rotating shaft (11), an upper pull rod (14) and a lower pull rod (15) are connected to two ends of the parallel pull rod (13) respectively, and a certain distance is reserved between two connecting points of the parallel pull rod (13) and the upper pull rod (14) and the lower pull rod (15) and the gas-liquid container rotating shaft (11).

11. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: one surface of each of sawtooth tooth surfaces of the upper pull rod (14), the lower pull rod (15) and the transmission gear (16) is an inclined surface (22) (19) (18) with an angle smaller than 85 degrees, and the other surface of each sawtooth tooth surface is an inclined surface (21) (20) (17) with an angle larger than 60 degrees.

12. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: and a pull rod support frame (23) is arranged on the single support (26), and when the gas-liquid container (27) presses the lower swing arm (25) of the pull rod support frame downwards, the upper swing arm (24) of the pull rod support frame can be lifted up according to the lever principle, and the upper pull rod (14) and the lower pull rod (15) are supported to be separated from the transmission gear (16).

13. A power plant driven by the shift of the center of gravity by the vaporization and liquefaction of a liquid according to claim 1 or 12, wherein: the upper swing arm upper protrusion (28) of the pull rod support frame (23) is slightly shorter than the lower swing arm lower protrusion (29).

14. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: the outer part of the upper tank body (8) is coated with a layer of water-absorbing material (2).

15. A power plant driven by the shift of the center of gravity by the vaporization and liquefaction of a liquid according to claim 1 or 14, wherein: the water tank (4) conveys water to the water-absorbing material (2) through the water conveying port (3) to realize the cooling effect.

16. The power plant driven by the gravity center shift generated by the vaporization and liquefaction of the liquid according to claim 1, wherein: the transmission shaft (1) is connected with a plurality of transmission gears (16) and a gas-liquid container (27).

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