KR20200127138A - Pumped water power generation system - Google Patents

Abstract

The present invention relates to a pumped-storage hydroelectric system. The pumped-storage hydroelectric system combines a tank for a fluid and a moving mechanism of the fluid by using vacuum to integrate new water pumping and discharging functions into a system for the fluid so as to produce a power generation function using rotating aberration related in a rotating process of the fluid. According to the present invention, the pumped-storage hydroelectric system has a connection hole installed on one side portion of an upper end of the tank for the fluid.

Description

Pumped water power generation system{omitted}

It relates to a pumped-up power generation system in which a system discharged by forced circulation of a fluid material is converted into electric energy by a water wheel rotating body to which a generator is connected.

The aberration rotating body connected to the generator is rotated so that power generation energy is produced, and the fluid material is vacuumed back into the fluid tank.

By combining the movement mechanism of the fluid material in a vacuum type, the power generation function can be generated by the aberration rotation associated with the conversion of the new drainage function to the fluid system.

The flow path of the fluid was arranged with a vacuum and a system that was discharged, and a functional system for the natural discharge of the fluid was introduced to produce power generation energy while the fluid flows naturally.

In the process of smoothly moving fluid water in the vacuum process, power generation energy is continuously produced by utilizing water turbine power generation.

A and B are pumped-up power generation systems with two fluid tanks.
Figure 2 is a system made by embedding a vacuum absorption tube in the center of one fluid tank.
3 is a system in which an inlet pipe is provided between two fluid tanks.
Figure 4 is a system in which the vacuum pumping pipe is obscured outside the fluid tank.

In the present invention, a plurality of fluid tanks are installed and connected to a fluid pipe, and a forced circulation system of fluid substances is formed to connect them, and the forced circulation of the fluid substances in the system thus constituted is induced to a vacuum state. It is configured to be discharged forcibly, and the fluid material that is discharged is collected and flowed in one place, and the aberration rotating body connected to the generator is rotated to produce power generation energy and the fluid material is returned to the fluid tank. It relates to a pumped-up power generation system that is made to be vacuum-in.

In the present invention, a plurality of drain pipes (water conduction) are formed on the entire lower end of the tank for liquid in order to allow the fluid material to be circulated in a vacuum state in the liquid tank of each individual.

On one side of the liquid tank formed in this way, an external indicator tube to see the state of the fluid in the tank for liquid is installed, and a distribution port is installed at the top of the tank for emergency. It makes it possible to have the function of intake and exhaust of air or of water. In this way, a plurality of faucets for drainage are installed in a certain part of the entire outer periphery of the lower side of the liquid tank, thereby providing a smooth drainage function if necessary.

A large-sized water reservoir is formed by forming a water outlet and a water outlet on one side of the water storage handrail so that the liquid tank can be closely contacted with the bottom of the liquid tank. It forms a vortex.

A wide liquid capable of storing liquid at the lower end of the water-reservoir, which is made in this way, is formed with a pitcher and a column at intervals so that a certain space for installing a water turbine generator is formed. Make Joe.

At the bottom of the liquid tank made in this way, in order to suck up the liquid, the suction water pipe is wrapped with a mesh so that it extends to the upper part of the tank for liquid, and between the reservoir plate and the liquid tank A water wheel connected to the generator is installed with the fluid flowing out of the reservoir plate so that the water wheel connected to the power generation system can be rotated.

In this way, it relates to a fluid circulation device for power generation by forming a suction hole in order to have a flow of the fluid, and incorporating the suction pipe of the fluid into a liquid tank.

The present invention is a liquid tank (A) (B) (A) (B) (C) (D) (D') (E) in order to allow a fluid material to be circulated in a vacuum state. C)(D)(D')(E) multiple drainage pipes on the entire lower part of the lower part (water supply)(S)(S)(S)(S)(S)(S)(S)(S) (S) (S) is formed.

On one side of the liquid tank (A) (B) (C) (D) (D') (E) formed in this way, an external indicator tube (1) is provided so that the fluid in the liquid tank can be seen. (1-1)(1-2)(1-3)(1-4)(1-5) are side piped and the liquid tank (A)(B)(C)(D)(D') (2)(2-1)(2-2)(2-3)(2-4)(2-5) is installed on one side of the upper part of (E) to provide air intake and exhaust function and fluid Drainage faucet with a large number of drainage faucets in a certain part of the entire outer periphery of the lower end of the copper liquid tank (A)(B)(C)(D)(D') (S)(S1)(S2)(S3)(S4)(S5)(S6)(S7)(S8)(S9) are installed to have a smooth drainage function if necessary.

The bottom part of the liquid tank (A) (B) (C) (D) (D') (E) prepared in this way (3) (3-1) (3-2) (3-3) (3 -4)(4)(4-1)(4)(4)(4)(4) is installed to prevent water and water from outside so that the close contact of It is formed, and a large-sized water-reservoir part (6)(6) is formed by forming a water outlet for running water (5)(5)(5)(5)(5)(5) on one side of the water storage handrail. (6)(6)(6)(6) is formed.

In this way, a certain base plate (7) (7) (7) (7) (7) is bonded under the reservoir (6) (6) (6) (6) (6) (6). The water turbine generator (E)(E)(E)(E)(E)(E)(E)(E) is spaced so that a certain space is formed, and the support plate part (7)(7)(7)(7) ) And pillars, and a wide liquid tank in which liquid is stored is made at the lower end of the installation.

At the bottom of the liquid tank made in this way, in order to suck up the liquid, the suction water pipe is wrapped with a mesh so that it extends to the upper part of the tank for fluid, and between the reservoir plate and the liquid tank. The water turbine generator (E) connected to the generator with water or fluid flowing out of the reservoir plate is installed so that the water turbine generator (E) connected to the power generation system can be rotated.

In this way, in order to have a flow of fluid including water, absorption holes (8)(8-1)(8-2)(8-3) are formed, and the suction pipes (H)(H-1)(H- It is a fluid circulation device for power generation by linking 2(H-3) into a liquid tank (A)(B)(C)(D)(D-1)(E).

A,B,C,D,D',E: Liquid tank
S,S-1,S-2,S-3,S-4,S-5,S-6,S-7,S""',S""",A,B,C,D,D' ,E: tank for liquid
1,1-1,1-2,1-3,1-4,1-5: External display tube
2,2-1,2-2,2-3,2-4,2-5: Distribution port
3,3-1,3-2,3-3,3-4,3-5,3-6,: bottom part
4,4-1,4,4,4,4: Water outlet for storage
5,5,5,5,5,5: water outlet
6,6,6,6,6,6: Reservoir wabu
7,7,7,7,7,7: Reservoir base plate
E,E,E,E,E,E,E,E: Water turbine generator
8,8-1,8-2,8-3: oil absorption hole
H,H-1,H-2,H-3: Fluid suction pipe

Claims (1)

In a pumped-up power system, the pumped-up power system
In the upper one side of the liquid tank (A)(B)(C)(D)(D')(E), the outlet (2)(2-1)(2-2)(2-3)(2- 4) Install (2-5) and make it possible to have the function of intake and exhaust air in case of an emergency or the function of intake and drainage of fluid,
The bottom of the liquid tank (A) (B) (C) (D) (D') (E) (3) (3-1) (3-2) (3-3) (3-4) ( To ensure close contact with 3-5)(3-6), the water-reserving handrail part (4)(4-1)(4)(4)(4)(4) is formed and the water-reserving handrail part A water outlet for running water (5)(5)(5)(5)(5)(5) is formed on one side of the large-sized reservoir (6)(6)(6)(6)(6) Install (6),
Under the water reservoir (6) (6) (6) (6) (6) (6), a certain base plate (7) (7) (7) (7) (7) is bonded to each other, and a water turbine generator (E)(E)(E)(E)(E)(E)(E)(E) are spaced between the reservoir base plate (7)(7)(7)(7) and the column so that a certain space is formed. The installation is formed, and the lower part of the installation becomes a wide liquid tank in which liquid is stored,
At the bottom of the liquid tank, a water absorption pipe wrapped in a mesh to allow the liquid to be sucked up is installed so that it extends to the upper part of the tank for fluid, and between the reservoir plate and the liquid tank, water flowing from the reservoir plate or The water turbine generator (E) connected to the fluid is installed to receive the fluid and the water turbine generator (E) connected to the power generation system is rotated.
In order to have a fluid flow, a fluid suction pipe (H) (H-1) (H-2 (H-3) is formed by forming an oil absorption hole (8) (8-1) (8-2) (8-3). ) Into the tank for liquid (A)(B)(C)(D)(D-1)(E), and the tank for liquid of the known technology (A, B, C, D, D' , E), distribution ports (2, 2-1, 2-2, 2-3, 2-4, 2-5), bottom (3, 3-1, 3-2, 3-3, 3-4 , 3-5, 3-6), water outlet (4, 4-1, 4, 4, 4, 4), water outlet (5, 5, 5, 5, 5, 5), water reservoir (6) , 6, 6, 6, 6, 6), reservoir base plate (7, 7, 7, 7, 7, 7), water turbine generator (E, E, E, E, E, E, E, E), liquid In the pumping power generation system formed of tank, absorption pipe, reservoir plate, oil absorption hole (8, 8-1, 8-2, 8-3), and fluid suction pipe (H, H-1, H-2, H-3) In,
Liquid tanks (A)(B)(C)(D)(D') to circulate fluid substances in a vacuum in a liquid tank (A)(B)(C)(D)(D')(E) )(S)(S)(S)(S)(S)(S)(S)(S)(S)(S) formed on the entire bottom of (E) The external indicator tube (1) (in one side of the tank for liquid (A) (B) (C) (D) (D') (E)) is to allow you to see the state where the fluid in the liquid tank is full. 1-1)(1-2)(1-3)(1-4)(1-5) are side-viewed,
The liquid tank (A) (B) (C) (D) (D') (E) has a plurality of drain faucets (S) (S1) (S2) (S3) on the entire outer periphery of the lower end (S4)(S5)(S6)(S7)(S8)(S9) is installed to have a smooth drainage function.

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