KR20160010920A - Water pressure of power plant - Google Patents

Abstract

The present invention relates to a water pressure power plant operating a power generator using water pressure to generate power. More specifically, the present invention comprises: a lower end water tank (100) positioned in a bottom end; a pump (110) transferring water upward through a water supply pipe (111); a soft water tank (200) firstly storing water supplied through the pump (110); an upper end power generation water tank (300) where a water pressure pipe (310) is provided to one side of a lower end; a lower end power generation water tank (400) where the power generator (420) fastened to an end part of the water pressure pipe (310) is provided to an internal upper end and a horizontal pipe (410) is fastened to the lower end. The present invention relates to the water pressure power plant which can continuously generate permanent power.

Description

{WATER PRESSURE OF POWER PLANT}

The present invention relates to a hydraulic power plant for generating electric power by operating a generator using water pressure. In particular, the present invention relates to a water power plant for generating electricity by water pressure, The water stored in the lowermost stage is supplied to the water tank through the water tank. The water is supplied from the water tank at the uppermost stage to the water tank provided at the lowermost stage. The present invention relates to a hydraulic power plant capable of continuously supplying infinite power while circulating water through a water tank provided at the uppermost stage by using a pump supplied from a solar power generator.

Modern society is heavily dependent on using fossil fuels such as petroleum or coal to produce electricity, or generating electricity using nuclear power plants.

For example, in the case of petroleum, not only the primary consumption behavior of using oil directly as an energy source, but also the production of synthetic fibers and other goods, as well as the use of oil as a raw material, It is a reality to be used.

However, it is expected that human civilization will face difficulties due to resource depletion in the near future, because consumption is excessive compared to the amount of fossil fuel reserves. Already, international oil prices have skyrocketed over the years, and this has become a factor in the global economic growth rate. For this reason, governments are making every effort to find alternative energy sources.

Particularly, investment and development are progressing rapidly in various alternative power generation facilities such as photovoltaic power generation, wind power generation, and hydro power generation as one of economic methods for producing electric energy.

However, solar power generation is greatly affected by solar altitude and sunshine, so there is a problem that the efficiency of power generation is reduced due to the geographical limitation of the Korean Peninsula located at 33 ~ 43 ° N. In the case of wind power generation, There is a problem that the place where wind power generation facilities capable of producing sufficient electric energy compared to investment capital can be installed is extremely limited.

On the other hand, in the case of hydroelectric power generation, similarly, the place where the installation can be done is extremely limited, and the amount of electric energy that can be produced against the investment of the facility is insufficient.

Therefore, it is necessary to search for a new methodology that can produce electric energy environmentally and infinitely with relatively low equipment investment. Based on this desire, various types of environmentally friendly energy generation facilities have been developed.

However, most of the inventions have little effect on the investment of the facility, and when they are used for a long time, the effect is halved and there is a problem in obtaining sustainable energy.

Modern society As the biggest environmental problem, global warming, the snow of the Arctic and the Antarctic is melted, and it is necessary to solve the global warming by securing the renewable energy as the hydroelectric power plant, and the earth can survive. It is true that there is no hydroelectric plant that is effective in producing such renewable energy.

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to provide an electric power generating apparatus, The purpose of this project is to provide a hydroelectric power plant that can produce the surplus power with maximum efficiency by using electric power.

According to an aspect of the present invention,

A bottom water tank 100 positioned at the lowermost end;

A pump 110 for supplying water stored in the lower stage water tank 100 to the upper side through a water supply pipe 111 by receiving power from the solar power generator 112;

An upper water tank 200 configured to receive the water supplied through the pump 110 first and having a hydraulic pipe 210 at a lower end thereof and to discharge water by water pressure;

The other end of the hydraulic pipe 210 is fastened to the upper end of the upper water tank 200 to discharge water discharged from the upper water tank 200. The water discharged from the upper end of the water pipe 210, An upper generation water tank 300 having a generator 320 for generating electric power by an electric power generated by the generator 300 and having a hydraulic pipe 310 at a lower end thereof;

The other end of the hydraulic pipe 310 provided at the lower side of the upper power generation water tank 300 is connected to the upper end to receive water discharged from the upper power generation water tank 300, And a generator 420 installed at one end of the generator 420 is coupled to the lower end of the generator 420 and the water is supplied to the lower water tank 100 And a lower-stage power generation water tank 400 for supplying the lower-stage power generation water.

According to the present invention, it is possible to continuously produce eco-friendly energy by operating the generator by the flow of water while naturally flowing by the water pressure of the water, and the water stored at the lowermost stage is supplied to the pump And the water is supplied to the uppermost water tank again. As a result, the water can circulate continuously to produce infinite power continuously. After the initial facility investment, it is possible to operate the power plant with the energy produced by itself without additional management or energy input. It can maximize the contrast effect. This means that the water tank keeps the water level at the same time and keeps the water level at all times, so that the water pressure can be used to the maximum. When water is circulated and the water is raised to the ground tank, The largest amount of energy is produced to generate surplus energy. It is expected to provide a hydraulic power plant capable of maximizing the ineffectiveness.

1 is an overall side sectional view of a hydraulic power plant according to the present invention,
Fig. 2 is a sectional view of the hydraulic power plant according to the present invention,
3 is a side cross-sectional view of another embodiment of the hydraulic power plant according to the present invention, in which the hydraulic valve is provided with a venturi tube,
4 is a side cross-sectional view of another embodiment for injecting air into a hydraulic valve in a hydraulic power plant according to the present invention,
5 is a side cross-sectional view of another embodiment in which a plurality of power generation tanks are additionally provided in a hydraulic power plant according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a sectional view showing the whole of a hydraulic power plant according to the present invention, FIG. 2 is a sectional view of the hydraulic power plant according to the present invention, FIG. 4 is a side cross-sectional view of another embodiment for injecting air into a hydraulic valve in a hydraulic power plant according to the present invention, and FIG. 5 is a cross-sectional view of a hydraulic power plant according to the present invention, Sectional view of another embodiment in which a power generation water tank is additionally provided,

As shown in the accompanying drawings, the present invention relates to a hydraulic power plant for producing electric power using water pressure obtained by stacking water tanks in a multi-stage manner and holding water in a water tank at a high water level,

In the present invention, the lower water tank 100 is provided at the lowermost stage, the upper water tank 200 receiving water from the lower water tank 100 is provided at the uppermost stage of the present invention, And a lower stage power generation water tank 400 for receiving water from the upper generation water tank 300. The lower stage power generation water tank 400 connects the water tanks to each other, And a piping for allowing the pipe to be connected to the pipe.

As shown in the accompanying drawings, the lower water tank 100 is located at the lowermost end of the hydroelectric power plant of the present invention, and water flowing naturally by the water pressure at the upper portion is inflowed and stored. The water stored in the lower water tank 100 To the upper water tank 200 so that the water can be continuously circulated. In order to supply the water to the upper water tank 200, the water is transferred to the upper side by using a separate device.

In the present invention, as shown in the accompanying drawings, there is provided a water supply pipe 111 having one side positioned inside the lower stage water tank 100 and the other side positioned at the upper end of the upper water tank 200, The water flows, and at this time, a pump 110 for raising water from the lower side to the upper side is provided.

Here, in the present invention, the power for operating the pump 110 is supplied through the photovoltaic generator 112 to produce the most environmentally-friendly and economical energy. In addition, Generator 112 to prevent the pump 110 from stopping by supplying electric power generated by itself in the present invention to the pump 110 when a problem occurs in generating power through the generator 112. [

The upper power generation water tank 300 receives the water discharged from the upper water tank 200 by being connected to the upper end of the other end of the hydraulic pipe 210, A generator 320 for generating electric power by the flow of water sprayed by the water pressure is provided at the inner upper end and a hydraulic pipe 310 is provided at the lower end of the generator 320.

The lower power generation water tank 400 is connected to the upper end of the water pipe 310 at a lower end of the upper power generation water tank 300, A horizontal pipe 410 having a generator 430 at one side is fastened to a lower end of the generator 420 and a generator 420 fastened to an end of the hydraulic pipe 310, So that water can be supplied to the lower stage water tank 100 again.

As shown in the accompanying drawings, the hydraulic pipes 210 and 310 are constructed of tilted inclined flow paths 211 and 311 inclined upward at a certain angle to a portion of the water tank where the water flows from the water tank, 320, and 420 is constituted by horizontal injection nozzles 212 and 312,

This is because the water stored in the water tank is not affected by the water pressure even if the hydraulic pipes 210 and 310 are inclined upward to some extent in a state where the water pressure is considerably high.

In addition, as described above, since the inclined flow paths 211 and 311 are provided in the hydraulic pipes 210 and 310, the height of the water tanks installed in multiple stages can be reduced as much as possible. The bottom tank 100, The height of the lower stage water tank 100 and the upper stage water tank 200 are minimized so that the force of raising the water by the pump 110 is minimized. As shown in Fig.

As described above, the hydraulic pipes 210 and 310 are configured to minimize the power for boiling water without hindrance to the production of electric power, thereby being more efficient in producing electric power.

Hereinafter, a process of continuously generating power using the present invention will be described.

First, each water tank is filled with water by a full water level, and a hydraulic power plant is operated. At this time, all the components of the present invention start to operate at the same time. This is because water This is because a constant water pressure can be obtained by always maintaining a state filled with a constant height.

First, a water pressure is generated in a state where the upper water tank 200 at the uppermost stage of the present invention is filled with water, so that a water pressure is generated at a lower end of the upper water tank 200 The water flows through the hydraulic pipe 210 while generating a strong flow rate of water through the hydraulic pipe 210. The generator 320 provided at the other end of the hydraulic pipe 210 is operated to produce electric power And water that has passed through the generator 320 flows into the upper generation water tank 300.

As described above, water flows into the upper end water tank 300 from the upper water tank 200, and through the water pipe 310 provided at the lower end of the lower end of the equivalent power water tank 300, And flows through the hydraulic pipe 310 and operates the generator 420 provided at the other end of the hydraulic pipe 310 to generate electric power. The water passing through the generator 420 flows through the lower end And then flows into the power generation water tank 400.

As described above, water flows into the lower stage power generation water tank 400 from the upper power generation water tank 300. In this case, the water is strong through the horizontal piping 410 provided at the lower end side of the lower stage power generation water tank 400 And flows through the horizontal pipe 410 while generating a flow velocity and operates the generator 430 provided at one side of the horizontal pipe 410 to produce electric power. And then flows into the bottom water tank 100 installed at the bottom end of the invention.

Water is introduced into the lower stage water tank 100 from the lower stage power generation water tank 400 and is discharged to the lower stage water tank 100 by the pump 110 provided at one side of the upper end of the lower stage water tank 100. [ To the upper water tank (200).

As a result, due to the above-mentioned water flow, each water tank is kept filled with the same amount of water at all times, so that the water pressure is maintained at a constant pressure. As a result, the water flow rate is kept constant, .

In addition, as in the operation flow described above, in the present invention, all three generators are installed to produce electric power, and conversely, one pump 110 consumes electric power. However, Once you install a power plant, you can get unlimited power all the year round.

3, which is another embodiment of the present invention, is characterized in that venturi tubes 213 and 313 are formed in the injection flow paths 212 and 312 of the hydraulic pipes 210 and 310 as shown in the accompanying drawings, The flow rate of water flowing through the inclined flow paths 211 and 311 of the hydraulic pipes 210 and 310 passes through the venturi pipes 213 and 213 while the flow velocity of the water flowing through the venturi pipes 213 and 213 is increased, And as a result, the generators 320 and 420 are driven strongly, so that more power can be obtained.

4, which is another embodiment of the present invention, includes a compressor 113 that operates by receiving power from the photovoltaic generator 112 as shown in the accompanying drawings, Wherein an air nozzle (114) through which air is injected is provided inside the tip end portion of the hydraulic pipe (210)

When the water flows through the hydraulic pipes 210 and 310 by water pressure, the air can be injected strongly into the tip ends of the hydraulic pipes 210 and 310 to further increase the flow rate of water.

This maximizes the rotational force of the generators 320 and 420 to produce more electric power. In addition, the pressure of the water pressure and the force of the air injection are simultaneously generated in the flow of the water, The lower water tank 100 positioned at the lowermost position and the upper water tank 200 located at the uppermost position are arranged at the minimum distance in order to install the respective water tanks in a multi- Can be minimized.

As described above, the gap between the lower stage water tank 100 and the upper stage water tank 200 can be minimized, so that the force for lifting the water from the lower stage water tank 100 to the upper stage water tank 200 can be saved, There is no problem in the overall driving of the present invention with less power than the numerical value produced, and the energy of the ceiling can be produced infinitely.

5, which is another embodiment of the present invention, a plurality of generator tanks 500 are disposed in a multi-stage manner between the upper and lower generator tanks 300 and 400, as shown in the accompanying drawings. It is needless to say that it is possible to produce a larger amount of energy by arranging the number of water tanks as desired according to the configuration of the present invention, though it is not specifically described or shown in the present invention.

100; Bottom water tank 110; Pump
111; A water supply pipe 112; Solar generator
113; Compressor 114; Air nozzle
200; An upper water tank 210; Hydraulic piping
211; An inclined channel 212; Jet flow path
213; Venturi tube 300; Top power generation tank
310; Hydraulic pipe 311; Inclined channel
312; Injection flow path 313; Venturi tube
400; Bottom power generation water tank 410; Horizontal piping
500; Power generation tanks 320, 420, and 430; generator

Claims (5)

A bottom water tank 100 positioned at the lowermost end;
A pump 110 for supplying water stored in the lower stage water tank 100 to the upper side through a water supply pipe 111 by receiving power from the solar power generator 112;
An upper water tank 200 configured to receive the water supplied through the pump 110 first and having a hydraulic pipe 210 at a lower end thereof and to discharge water by water pressure;
The other end of the hydraulic pipe 210 is fastened to the upper end of the upper water tank 200 to discharge water discharged from the upper water tank 200. The water discharged from the upper end of the water pipe 210, An upper generation water tank 300 having a generator 320 for generating electric power by an electric power generated by the generator 300 and having a hydraulic pipe 310 at a lower end thereof;
The other end of the hydraulic pipe 310 provided at the lower side of the upper power generation water tank 300 is connected to the upper end to receive water discharged from the upper power generation water tank 300, And a generator 420 installed at one end of the generator 420 is coupled to the lower end of the generator 420 and the water is supplied to the lower water tank 100 And a lower-stage power generation water tank (400) for supplying the lower-stage power generation water.
The method according to claim 1,
The hydraulic pipes 210 and 310 are composed of inclined flow paths 211 and 311 which are tapered upward at an angle to a portion where water is introduced by the water pressure, and the end portion, which drives the generators 320 and 420 while the water is sprayed, (212, 312).
3. The method of claim 2,
The jetting passages 212 and 312 of the hydraulic pipes 210 and 310 are formed of venturi pipes 213 and 213 so as to maximize the flow rate when water is sprayed to the generators 320 and 420 fastened to the ends of the jetting passages 212 and 312 Hydropower plants including.
The method according to claim 1,
And an air nozzle 114 through which the air supplied through the compressor 113 is injected is provided inside the tip end portion of the water pressure piping 210 And a water-cooled power plant.
The method according to claim 1,
And a plurality of power generation tanks (500) are provided in a multi-stage manner between the upper generation water tank (300) and the lower stage power generation tank (400) to produce more electric power.

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