阅读说明：本技术 一种自循环式压强动力发电装置及自循环式压强动力发电方法 (Self-circulation type pressure power generation device and self-circulation type pressure power generation method ) 是由 祁同刚 于 2020-12-15 设计创作，主要内容包括：本发明属于发电器械技术领域,公开了一种自循环式压强动力发电装置及自循环式压强动力发电方法,动力转换设备内设有势能压强动力转换装置,势能压强动力转换装置上设有若干传动部件；动力转换设备上端固定有动力设备室,动力设备室内部固定有动力设备,动力设备与势能压强动力转换装置连接。与传统的火力发电、水力发电、核能发电等发电方式相比,自循环势能压强动力发电系统能量转换效率高、几乎不耗费任何外部能源及资源、持续稳定、安全环保绿色、不受地域限制、不受气候条件影响、投入成本低、占地面积小,几乎克服了以上所有传统发电方式的缺点,是一种理想的分布式发电系统,可在全国任何区域广泛、大规模地开发应用。(The invention belongs to the technical field of power generation equipment, and discloses a self-circulation type pressure power generation device and a self-circulation type pressure power generation method, wherein a potential energy pressure power conversion device is arranged in power conversion equipment, and a plurality of transmission parts are arranged on the potential energy pressure power conversion device; the upper end of the power conversion equipment is fixed with a power equipment chamber, the power equipment is fixed in the power equipment chamber, and the power equipment is connected with the potential energy pressure power conversion device. Compared with the traditional power generation modes such as thermal power generation, hydroelectric power generation, nuclear power generation and the like, the self-circulation potential energy pressure power generation system has high energy conversion efficiency, almost does not consume any external energy and resource, is continuous and stable, safe, environment-friendly and green, is not limited by regions, is not influenced by climatic conditions, has low investment cost and small occupied area, almost overcomes the defects of all the traditional power generation modes, is an ideal distributed power generation system, and can be widely developed and applied in any region in the country on a large scale.)

1. A self-circulation pressure power generation method is characterized by comprising the following steps:

circulating liquid medium filled in the bottom of the power conversion equipment enters the potential energy pressure power conversion object, the potential energy pressure power conversion object generates corresponding upward force by the potential energy pressure of the liquid medium and automatically rises to drive a potential energy pressure power conversion device in the power conversion equipment to continuously rotate, swing and operate a piston, further drive power equipment in a power equipment chamber to continuously work to generate continuous mechanical power, and drive a generator to continuously and stably output power by using the mechanical power.

2. The self-circulating pressure-powered power generation method of claim 1, wherein the self-circulating pressure-powered power generation method specifically comprises:

opening a first valve, and automatically dropping potential energy pressure power conversion substances which are arranged at the bottom of the potential energy pressure power conversion substance transmission pipeline 11 and close to the first valve into an upper cavity conversion chamber by utilizing gravity;

closing the first valve, opening the second valve, enabling liquid in the power conversion equipment to automatically enter and fill the upper cavity through a connecting pipeline by utilizing gravity and potential pressure power, enabling a potential pressure power converter in the upper cavity conversion chamber to automatically generate an upward force under the action of the potential pressure of the liquid, and enabling the upward force to rise to the position below a transmission part, closest to the first valve, in the bottom of the power conversion equipment to generate power for power generation;

when the potential energy pressure power conversion object in the upper cavity conversion chamber rises to enter the power conversion equipment, the second valve is closed, the third valve is opened, and the liquid in the upper cavity conversion chamber enters the lower cavity conversion chamber through the connecting pipeline;

starting a supercharger of the lower cavity conversion chamber, simultaneously opening a fourth valve, a fifth valve and a sixth valve in sequence, and transmitting the liquid of the lower cavity conversion chamber into the power conversion equipment through a connecting pipeline;

in the operation process of the potential energy pressure power conversion device, driving power equipment to operate and work, and driving a generator to work and generate power;

the potential energy pressure power converter drives the potential energy pressure power converter to automatically rise to an outlet at the top end of the power conversion equipment, and the potential energy pressure power converter is extruded out of the outlet by a transmission part rising below the power converter to wait for the next power generation cycle.

3. The method of claim 2, wherein a portion of the electricity generated by the generator is divided to supply the consumed electric energy for the operation of the subsequent pressure booster or pressure reducer and valve.

4. A self-circulating pressure power generation device, characterized in that the self-circulating pressure power generation device is provided with:

a power conversion device;

a potential energy pressure power conversion device is arranged in the power conversion equipment, and a plurality of transmission parts are arranged on the potential energy pressure power conversion device;

the upper end of the power conversion equipment is fixed with a power equipment chamber, the power equipment is fixed in the power equipment chamber, and the power equipment is connected with the potential energy pressure power conversion device.

5. A self-circulating pressure power generation device as claimed in claim 4, wherein the power conversion equipment includes but is not limited to a cylinder, a cube, a cuboid, and a triangle, and the power conversion equipment is filled with a liquid medium;

the bottom of the power conversion equipment is connected with a supercharger in the lower cavity conversion chamber through a third connecting pipe;

and a fourth valve, a fifth valve and a sixth valve are arranged on the third connecting pipe.

6. A self-circulating pressure power generating apparatus as claimed in claim 1, wherein the bottom of the power conversion device is connected to the upper chamber conversion chamber through a first connecting pipe, and a second valve is disposed on the first connecting pipe;

the size of the upper cavity conversion chamber is matched with the size of the potential energy pressure power conversion object.

7. A self-circulating pressure-powered electric generating apparatus as claimed in claim 5, wherein the bottom of the upper chamber conversion chamber is connected to the lower chamber conversion chamber through a second connecting pipe, and a third valve is disposed on the second connecting pipe.

8. A self-circulating pressure-powered power generation assembly as claimed in claim 5, wherein the right end of the upper chamber conversion chamber is connected to the upper end of the power conversion device via a potential energy pressure-powered conversion material transfer pipeline.

9. A self-circulating pressure-powered power plant as claimed in claim 8, wherein the potential energy pressure-powered conversion product transport conduit is provided with a first valve.

10. A self-circulating pressure powered electricity generating apparatus as claimed in claim 4, wherein the power plant is connected to an electrical generator, the electrical generator being connected to the pressure intensifier by electrical wiring.

Technical Field

The invention belongs to the technical field of power generation instruments, and particularly relates to a self-circulation type pressure power generation device and a self-circulation type pressure power generation method.

Background

Currently, there are several ways to generate electricity globally on a large scale: thermal power generation is a method of generating electric power by burning combustible materials such as coal, petroleum, natural gas, and the like. Hydroelectric power generation, namely a power generation method which is to construct a gravity dam through a river, improve the water level, convert the potential energy of water into kinetic energy and obtain electric power through a hydroelectric generating set. The nuclear power generation is a power generation method for generating power by a nuclear reactor to drive a generator set to obtain electric power. Solar power generation, a power generation method for converting solar radiation energy into electric energy through water or other working media and devices. In addition, there are wind power generation, tidal power generation, and the like.

The hydroelectric power generation is constrained by objective environment, so that even if the water energy is abundant, the terrain and the landform are appropriate, a large amount of construction fund is also required, the construction period is very long, the manpower investment is huge, and the rapid development of national economy is not facilitated. The thermal power generation directly consumes primary energy such as petroleum, coal, natural gas and the like, according to related material reports, the existing coal and petroleum in the world are not sufficient for mining for 100 years, the coal and petroleum become extremely limited energy, and the problem of energy shortage will more and more obviously puzzle the economy of high-speed development in the world at present, and meanwhile threaten the prospect of thermal power generation. In addition, the thermal power generation has serious environmental pollution problem and is not accepted by people. Nuclear power generation is a high-tech power generation method, but the technology is complex, the investment is huge, safety risks such as nuclear leakage exist, once an accident occurs, pollution to surrounding areas and even large-scale areas cannot be reversed, and damage caused by the accident of the japanese fukushima nuclear power station continues till now and is increasingly difficult to control. The problem of nuclear waste treatment is a worldwide problem, and no effective solution is available up to now. Wind power and tidal power generation rely on periodic or aperiodic wind power and tide in nature as power conversion sources and lack stability.

The disadvantages of solar power generation are as follows: the energy density is low. Although the sum of the energy projected by the sun to the earth is extremely large, the surface area of the earth is large, and most of the surface of the earth is covered by the ocean, so that the solar energy which can really reach the surface of the land only reaches about 10% of the solar radiation energy of the earth range, and the solar energy which can be directly obtained on the unit area of the land is less. The utilization of solar energy is actually the collection and utilization of low-density energy. ② the occupied area is large. Due to the low solar energy density, the floor area of the photovoltaic power generation system is large, the floor area of every 10kw of photovoltaic power generation needs about 100 square meters, and the average power generation power of every square meter is 100 w. And the conversion efficiency is low. The most basic unit of photovoltaic power generation is a solar cell module. The conversion efficiency of photovoltaic power generation refers to the ratio of light energy to electric energy. The conversion efficiency of the existing crystalline silicon photovoltaic cell is 13% -17%, and the conversion efficiency of the existing crystalline silicon photovoltaic cell is amorphous siliconThe photovoltaic cell is only 5% -8%. Since the photoelectric conversion efficiency is too low, the photovoltaic power generation power density is low, and it is difficult to form a high-power generation system. And fourthly, intermittently working. On the earth surface, the photovoltaic power generation system can only generate power in the daytime and cannot generate power at night. The influence of climate and environmental factors is great. The energy of solar photovoltaic power generation is directly from the irradiation of sunlight, the solar irradiation on the earth surface is greatly influenced by the weather, and the power generation state of the system can be seriously influenced by the change of long-term rain and snow days, cloudy days, foggy days and even cloud layers. In addition, environmental factors also have great influence, and what is more prominent is that particulate matters (such as dust) in the air and the like are deposited on the surface of the solar cell module to block partial light irradiation, so that the conversion efficiency of the solar cell module is reduced, and the generated energy is reduced and even the solar panel is damaged. Sixthly, the dependence is strong geographically. The different geographical positions and climates make the difference of sunshine resources in different regions large. The photovoltaic power generation system has good effect only when being applied to areas with rich solar energy resources. And the system cost is high. Because the efficiency of solar photovoltaic power generation is low, the cost of photovoltaic power generation is still several times that of other conventional power generation modes (such as thermal power generation and hydroelectric power generation) so far, which is the most main factor restricting the wide application of the solar photovoltaic power generation. However, it should be appreciated that the cost of the photovoltaic power generation system is reduced rapidly as the productivity of the solar cell is increased and the photoelectric conversion efficiency of the cell is improved. The price of solar modules has dropped from the initial more than $ 70 per watt to the current $ 2 per watt for decades. The manufacturing process of the crystalline silicon cell is high in pollution and energy consumption. The main raw material of crystalline silicon cells is pure silicon. Silicon is the second element of the earth's oxygen content and exists primarily in the form of sand (sio)₂). The silicon sand is changed into crystalline silicon with the purity of more than 99.9999 percent step by step, and the crystalline silicon is treated by a plurality of chemical and physical processes, so that a large amount of energy is consumed, and certain environmental pollution is caused.

Through the above analysis, the problems and defects of the prior art are as follows:

(1) the hydroelectric generation is constrained by objective environment, and a large amount of construction funds are also required to be invested; and the construction period is very long, the manpower investment is huge, and the rapid development of national economy is not facilitated.

(2) The thermal power generation directly consumes primary energy such as petroleum, coal, natural gas and the like, so that the problem of energy shortage is easily caused, and the prospect of the thermal power generation is threatened. In addition, the thermal power generation has serious environmental pollution problem and is not accepted by people.

(3) The nuclear power generation technology is complex and has huge investment, and the safety risks of nuclear leakage and the like exist; once an accident occurs, the pollution to the surrounding area or even a large area cannot be reversed, the problem of nuclear waste disposal is always a worldwide problem, and no effective solution exists so far.

(4) Wind power and tidal power generation rely on periodic or aperiodic wind power and tide in nature as power conversion sources and lack stability.

(5) The solar power generation has low energy density, large floor area, low conversion efficiency, intermittent work, strong regional dependence and high system cost and is greatly influenced by climatic environment factors; meanwhile, the manufacturing process of the crystalline silicon cell is high in pollution and energy consumption.

(6) The traditional power generation equipment is large-scale equipment, one-time investment is large, internal equipment is various, the structure is complex, and the whole power generation equipment can stop running if any link has errors.

The difficulty in solving the above problems and defects is:

the invention provides a brand new power generation method, realizes zero-energy-consumption power generation (without consuming energy sources which generate pollution like coal, petroleum, natural gas and the like), is safe and reliable, has simple structure and low manufacturing cost, can quickly carry out marketized large-scale application, realizes large-scale layout propulsion of distributed energy sources, and has zero pollution to the environment.

The significance of solving the problems and the defects is as follows:

the method solves the defects of ecological environment damage, huge cost consumption, natural resource exhaustion, serious environmental pollution, unstable power generation and the like in power station construction in the prior power generation technology, and innovatively provides a high-quality low-price clean energy source with zero energy consumption and no pollution for human beings.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a self-circulation type pressure power generation device and a self-circulation type pressure power generation method.

The invention is realized in such a way that a self-circulation pressure power generation method comprises the following steps:

circulating liquid medium filled in the bottom of the power conversion equipment enters the potential energy pressure power conversion object, the potential energy pressure power conversion object generates corresponding upward force by the potential energy pressure of the liquid medium and automatically rises to drive a potential energy pressure power conversion device in the power conversion equipment to continuously rotate, swing and operate a piston, further drive power equipment in a power equipment chamber to continuously work to generate continuous mechanical power, and drive a generator to continuously and stably output power by using the mechanical power.

Further, the self-circulation type pressure power generation method specifically comprises the following steps:

opening a first valve, and automatically dropping potential energy pressure power conversion substances which are arranged at the bottom of the potential energy pressure power conversion substance transmission pipeline 11 and close to the first valve into an upper cavity conversion chamber by utilizing gravity;

closing the first valve, opening the second valve, enabling liquid in the power conversion equipment to automatically enter and fill the upper cavity through a connecting pipeline by utilizing gravity and potential pressure power, enabling a potential pressure power converter in the upper cavity conversion chamber to automatically generate an upward force under the action of the potential pressure of the liquid, and enabling the upward force to rise to the position below a transmission part, closest to the first valve, in the bottom of the power conversion equipment to generate power for power generation;

when the potential energy pressure power conversion object in the upper cavity conversion chamber rises to enter the power conversion equipment, the second valve is closed, the third valve is opened, and the liquid in the upper cavity conversion chamber enters the lower cavity conversion chamber through the connecting pipeline;

starting a supercharger of the lower cavity conversion chamber, simultaneously opening a fourth valve, a fifth valve and a sixth valve in sequence, and transmitting the liquid of the lower cavity conversion chamber into the power conversion equipment through a connecting pipeline;

in the operation process of the potential energy pressure power conversion device, driving power equipment to operate and work, and driving a generator to work and generate power;

the potential energy pressure power converter drives the potential energy pressure power converter to automatically rise to an outlet at the top end of the power conversion equipment, and the potential energy pressure power converter is extruded out of the outlet by a transmission part rising below the power converter to wait for the next power generation cycle.

Further, a part of the electricity generated by the generator is divided to supply the consumed electric energy required by the operation of a subsequent booster or pressure reducer and valve.

Another object of the present invention is to provide a self-circulating pressure power generation apparatus provided with a power conversion device; a potential energy pressure power conversion device is arranged in the power conversion equipment, and a plurality of transmission parts are arranged on the potential energy pressure power conversion device;

the upper end of the power conversion equipment is fixed with a power equipment chamber, the power equipment is fixed in the power equipment chamber, and the power equipment is connected with the potential energy pressure power conversion device.

Further, the power conversion equipment comprises, but is not limited to, a cylinder, a cube, a cuboid and a triangular body, and the power conversion equipment is filled with a liquid medium.

Further, the bottom of the power conversion equipment is connected with a supercharger in the lower cavity conversion chamber through a third connecting pipe.

Furthermore, a fourth valve, a fifth valve and a sixth valve are arranged on the third connecting pipe.

Furthermore, the bottom of the power conversion equipment is connected with the upper cavity conversion chamber through a first connecting pipe, and a second valve is arranged on the first connecting pipe.

Further, the size of the upper cavity conversion chamber is matched with the size of the potential energy pressure power converter.

Furthermore, the bottom of the upper cavity conversion chamber is connected with the lower cavity conversion chamber through a second connecting pipe, and a third valve is arranged on the second connecting pipe.

Furthermore, the right end of the upper cavity conversion chamber is connected with the upper end of the power conversion equipment through a potential energy pressure power conversion product transmission pipeline.

Furthermore, a first valve is arranged on the potential energy pressure power conversion product transmission pipeline.

Further, the power equipment is connected with a generator, and the generator is connected with the supercharger through an electric wire.

The pipeline, the cavity, the valve and the supercharger are all provided with a sensor and an electric signal transmission control element, and the operation actions of the components such as the valve, the supercharger and the like are intelligently controlled.

By combining all the technical schemes, the invention has the advantages and positive effects that:

the self-circulation potential energy pressure power generation system is not limited by any region, climate condition and resource condition, does not need to consume energy sources which are similar to coal, petroleum, natural gas and the like and generate pollution, can realize power generation with energy consumption close to zero, has no pollution to the environment, is only applied to gravity and liquid potential energy pressure power which widely exist on the earth, and can be manufactured and used in any place with gravity. The self-circulation potential energy pressure power generation system only uses gravity and internal liquid potential energy pressure power to generate power through self-circulation conversion, and therefore the self-circulation potential energy pressure power generation system is not limited by any climate conditions and resource conditions. The self-circulation potential energy pressure power generation system has simple structure and low manufacturing cost, and can be rapidly popularized and applied. The electric energy conversion efficiency is high, and the self-circulation potential energy pressure power generation system automatically converts the high potential energy pressure of liquid with a certain depth into electric energy. In the power conversion equipment filled with liquid medium, the height of the self-circulation potential energy pressure power generation system is only 10 meters, and the surface area is 1m²The potential energy pressure power converter can generate potential energy pressure power of not less than 10 tons for conversion power generation, the higher the height is, the higher the density of the liquid medium is, the larger the volume of the potential energy pressure power converter is, and an auxiliary pressurization means is added, so that the larger the potential energy pressure power is, the higher the unit power generation power is. The self-circulation potential energy pressure power generation system only needs to provide electric signal loss of initial valve action and electric energy for initial start of the supercharger from the outside, and the subsequent valve action and supercharger operation can be continuously generated from the self-circulation potential energy pressure power generation systemAnd a large amount of generated electric energy is obtained, and external energy is not consumed in the later period. The self-circulation pressure power generation system does not need external energy supply, only uses gravity and liquid potential energy pressure power widely existing on the earth as a power source for power generation, and utilizes a potential energy pressure power converter as a medium to perform circular reciprocating type conversion power generation. The self-circulation pressure power generation system is safe and reliable, green and environment-friendly and pollution-free, and the operation principle of the self-circulation pressure power generation system is that liquid potential energy pressure power with a certain depth is converted into mechanical energy to drive a generator to generate power, so that no pollution is generated, and no safety risk or hidden danger exists. The self-circulation pressure power generation system device has the advantages of small occupied area, large influence on the generated power of the self-circulation pressure power generation system device by the height of the device, extremely small occupied area of a single device, and capability of continuously generating power with zero energy consumption without depending on any external energy, so that the self-circulation pressure power generation system device can be widely manufactured and used in cities, suburbs, islands, deserts and other remote areas. The self-circulation pressure power generation system device can be independently manufactured, installed and used, and can also be combined with water supply systems of urban and rural buildings to be manufactured and used. The self-circulation pressure power generation system device is a set of pure mechanical power device, has clear and simple internal structure, few parts and low cost compared with power generation systems such as nuclear power, thermal power, hydroelectric power and the like, and is suitable for large-scale manufacture and use. Compared with the traditional power generation modes such as thermal power generation, hydroelectric power generation, nuclear power generation, solar power generation, wind power generation, tidal power generation and the like, the self-circulation potential energy pressure power generation system has high energy conversion efficiency, almost does not consume any external energy and resource, is continuous and stable, safe, environment-friendly and green, is not limited by regions, is not influenced by climatic conditions, has low investment cost and small occupied area, almost overcomes the defects of all the traditional power generation modes, is an ideal distributed power generation system, and can be widely and massively developed and applied in any region (city, countryside, desert, island and the like) of the whole country.

The power conversion equipment comprises, but is not limited to, a cylinder, a cube, a cuboid and a triangle, and is filled with a liquid medium, so that power conversion is effectively realized.

The bottom of the power conversion equipment is connected with the lower cavity conversion chamber through a third connecting pipe, and a supercharger is arranged in the lower cavity conversion chamber to realize supercharging operation.

A fourth valve, a fifth valve and a sixth valve are arranged on a third connecting pipe and used for controlling the connection and disconnection of the third connecting pipe.

The bottom of the power conversion equipment is connected with the upper cavity conversion chamber through a first connecting pipe, and a second valve is arranged on the first connecting pipe, so that the potential energy pressure power conversion is switched on or off in logistics.

The size of the upper cavity conversion chamber is matched with the size of the potential energy pressure power converter, so that the potential energy pressure power converter is ensured to smoothly circulate.

According to the invention, the bottom of the upper cavity conversion chamber is connected with the lower cavity conversion chamber through the second connecting pipe, and the third valve is arranged on the second connecting pipe, so that the upper cavity conversion chamber and the lower cavity conversion chamber are communicated or disconnected.

The right end of the upper cavity conversion chamber is connected with the upper end of the power conversion equipment through a potential energy pressure power conversion object transmission pipeline, so that the potential energy pressure power conversion object is transported.

The potential energy pressure power conversion substance transmission pipeline is provided with the first valve, so that the potential energy pressure power conversion substance transmission pipeline is switched on and off.

According to the invention, the power equipment is connected with the generator, the generator is connected with the supercharger through the electric wire, the supercharger can continuously obtain a large amount of electric energy generated in the self-circulation potential energy pressure power generation system during operation, and no external energy is consumed in the later period.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments of the present application will be briefly described below, and it is obvious that the drawings described below are only some embodiments of the present application, and it is obvious for those skilled in the art that other drawings can be obtained from the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a self-circulation pressure-powered power generation apparatus according to an embodiment of the present invention.

In the figure: 1. a potential energy pressure power converter; 2. a first valve; 3. an upper cavity conversion chamber; 4. a second valve; 5. a power conversion device; 6. a potential energy pressure power conversion device; 7. a transmission member; 8. a power plant room; 9. a power plant; 10. a generator; 11. a potential energy pressure power conversion material transmission pipeline; 12. a fourth valve; 13. a fifth valve; 14. a sixth valve; 15. a third valve; 16. a lower cavity conversion chamber; 17. a supercharger; 18. a first connecting pipe; 19. a second connecting pipe; 20. a third connecting pipe; 21. an electric wire.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In view of the problems in the prior art, the present invention provides a self-circulation pressure power generator, which is described in detail below with reference to the accompanying drawings.

The invention provides a self-circulation pressure power generation method, which comprises the following steps:

circulating liquid medium filled in the bottom of the power conversion equipment enters the potential energy pressure power conversion object, the potential energy pressure power conversion object generates corresponding upward force by the potential energy pressure of the liquid medium and automatically rises to drive a potential energy pressure power conversion device in the power conversion equipment to continuously rotate, swing and operate a piston, further drive power equipment in a power equipment chamber to continuously work to generate continuous mechanical power, and drive a generator to continuously and stably output power by using the mechanical power.

As shown in fig. 1, the main body of the self-circulation potential energy pressure power generation device provided by the invention is a power conversion device 5 with a certain height, the shape of the power conversion device 5 includes but is not limited to a cylinder, a cube, a cuboid and a triangle, and the power conversion device 5 is filled with a liquid medium. The power conversion equipment 5 is internally provided with a potential energy pressure power conversion device 6, and the potential energy pressure power conversion device 6 is provided with a plurality of transmission parts 7 for circularly transmitting potential energy pressure power conversion substances. The potential energy pressure power converter 1 is an object with a certain volume and density smaller than the density of a liquid medium in the power conversion device, the shape includes but is not limited to a sphere and a cube, and the material includes but is not limited to metal and nonmetal.

The bottom of the power conversion device 5 is connected with the lower cavity conversion chamber 16 through a third connecting pipe 20, wherein a fourth valve 12, a fifth valve 13 and a sixth valve 14 are arranged on the third connecting pipe 20;

the bottom of the power conversion equipment is connected with the upper cavity conversion chamber 3 through a first connecting pipe 18, and the size of the upper cavity conversion chamber is matched with that of the potential energy pressure power conversion object. The first connecting pipe 18 is provided with a second valve 4; the bottom of the upper cavity conversion chamber 3 is connected with the lower cavity conversion chamber 16 through a second connecting pipe 19, and a third valve 15 is arranged on the second connecting pipe 19. The right end of the upper cavity conversion chamber 3 is connected with the upper end of the power conversion equipment 5 through a potential energy pressure power conversion product transmission pipeline 11, and a first valve 2 is arranged on the potential energy pressure power conversion product transmission pipeline 11. A power equipment chamber 8 is fixed at the upper end of the power conversion equipment 5, power equipment 9 is fixed in the power equipment chamber 8, and the power equipment 9 is connected with the potential energy pressure power conversion device 6; the power plant 9 is connected to a generator 10, which generator 10 is connected to the supercharger 17 via an electric line 21.

The working principle of the invention is as follows: and opening the first valve 2, and automatically dropping the potential energy pressure power conversion substance 1 which is arranged at the bottom of the potential energy pressure power conversion substance transmission pipeline 11 and is close to the first valve 2 into the upper cavity conversion chamber 3 by utilizing gravity. And (3) closing the first valve 2, opening the second valve 4, enabling liquid in the power conversion equipment 5 to automatically enter and fill the upper cavity through a connecting pipeline by utilizing gravity and potential pressure power, enabling the potential pressure power converter 1 in the upper cavity conversion chamber 3 to automatically generate upward force under the action of the potential pressure of the liquid, and enabling the upward force to rise to the position below a transmission part 7, closest to the first valve 2, in the bottom of the power conversion equipment 5, so that power generation is generated. When the potential energy pressure power conversion object 1 in the upper cavity conversion chamber 3 rises to enter the power conversion equipment 5, the second valve 4 is closed, the third valve 15 is opened, and the liquid in the upper cavity conversion chamber 3 enters the lower cavity conversion chamber 16 through the connecting pipeline. The booster 17 of the lower cavity switching chamber 16 is started, and simultaneously, the fourth valve 12, the fifth valve 13 and the sixth valve 14 are sequentially opened, so that the liquid in the lower cavity switching chamber 16 is transmitted into the power conversion equipment 5 through the connecting pipeline. In the operation process of the potential energy pressure power conversion device 6, the power equipment 5 is driven to operate and work, and then the generator 10 is driven to work and generate power. The electricity generated by the generator 10 can be divided into a part to supply the consumed electric energy required by the operation of a subsequent booster or pressure reducer and valve. The potential energy pressure power converter 1 drives the potential energy pressure power conversion device 6 to automatically rise to an outlet at the top end of the power conversion equipment 5, and the potential energy pressure power conversion device is extruded out of the outlet by the transmission part 7 rising below to wait for the next power generation cycle.

The self-circulation potential energy pressure power generation system is a novel power generation technology which utilizes liquid potential energy pressure and gravity to be converted into mechanical power to drive a generator to continuously and stably output power for power generation, the main body of the system is a power conversion device which has a certain height and is filled with a liquid medium, a potential energy pressure power conversion object is circularly fed from the bottom of the power conversion device, the potential energy pressure power conversion object generates corresponding upward force by the potential energy pressure of liquid and automatically rises to drive a potential energy pressure power conversion device in the power conversion device to continuously rotate, swing and operate a piston, and then the power device in a power device chamber is driven to continuously do work, so that continuous mechanical power is generated, and the power device chamber is connected with the generator, so that the generator can be driven to continuously and stably output power for power generation.

The self-circulation potential energy pressure power generation system does not need to consume energy sources which are similar to coal, petroleum, natural gas and the like and generate pollution, can realize power generation with energy consumption close to zero, has no pollution to the environment, is safe and convenient, has simple structure and low manufacturing cost, and can quickly realize popularization and application. The power generation system takes the gravity and the liquid potential energy pressure which are widely existed in the nature as power sources for power generation, only weak electric energy is consumed during starting, then any energy source is not required to be input externally, the power generation system can generate power continuously and stably with zero energy consumption, the power generation power is in direct proportion to the height of the power conversion equipment, the density of a liquid medium and the volume of a potential energy pressure power converter, and finally, the power generation system can realize the continuous and stable power generation with zero energy consumption and high power.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

The above description is only for the purpose of illustrating the present invention and the appended claims are not to be construed as limiting the scope of the invention, which is intended to cover all modifications, equivalents and improvements that are within the spirit and scope of the invention as defined by the appended claims.