KR20140058065A - Eco-friendly multi-layer power generating set having spinning wheel - Google Patents

Abstract

Provided is an eco-friendly multi-level water mill type power regenerating apparatus for recycling, to a reservoir, water drained from a water mill chamber after accommodating the water by having a circulation chamber on a lower side of the lowest generation chamber. The eco-friendly multi-level water mill type power regenerating apparatus comprises: a water storing chamber which vertically extends and stores water therein; and a plurality of generation chambers installed to vertically make multiple levels on a side of the reservoir by being separated by a partitioned chamber having a portioned wall. The generation chamber includes: an upper chamber which is formed on the upper part and accommodates water received from the reservoir; a water mill chamber which has a water mill repeatedly rotated by water falling from the upper chamber and installed vertical to the partitioned wall; and a generation chamber which is formed beside the water mill chamber and has a generator generating power by being connected to a central shaft of the water mill. According to the present invention, the eco-friendly multi-level water mill type power regenerating apparatus has high generation efficiency by generating power by operating a generator using force generated by repeatedly rotating multiple water mills installed vertical to the partitioned wall while circulating water, can be installed in a small installation space and a small occupied area without limitation on an installation area by simply generating hydroelectric power without large civil engineering construction, such as a dam or an embankment, can reduce costs required for installation and maintenance and installation time, and can secure safety and provide a space for installing and maintaining a pipe by absorbing an impact of hydraulic pressure by having a partitioned chamber in the center.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an eco-

More particularly, the present invention relates to a power generating apparatus using a spindle, and more particularly, to a power generating apparatus using a spindle, which is equipped with a plurality of spindles and a generator and is small in installation space and occupied area, The present invention relates to a pulley-type regenerative power generator.

Korea is a non-oil producing country, and its reliance on imports of crude oil is so high that it seeks to save energy as a national goal. However, the consumption of energy is increasing due to diversification of industrialization and high growth.

Especially, since crude oil is used for thermal power generation which generates a large amount of crude oil, it can be a great help to national finances and it can effectively reduce environmental pollution if power is produced without using crude oil.

On the other hand, the method of directly obtaining electric power from nature such as wind power, tidal power, and hydroelectric power is environmentally friendly, but it requires a high installation cost, low power generation efficiency, and is greatly affected by weather and geographical conditions.

In particular, hydroelectric power generation refers to a power generation system in which water is replaced with kinetic energy to generate electricity and a water turbine is connected to the water turbine.

As shown in FIG. 1, conventionally, a dam 1 is constructed by intercepting a river or a valley, and a large amount of water is stored to increase the water level. After the water stored in the dam 1 flows into the water intake port 2a, The water turbine 3 is rotated by using the high drop generated at this time to generate power to the generator 4 and the used water is discharged to the downstream side through the watertight opening 5 do.

However, in the case of the above-mentioned dam used for the conventional power generation, since the installation area is very limited due to the necessity of a large low-water supply area, low water volume, and low water level, it requires a lot of construction cost and period, And the power generation efficiency is inferior. In the case where the water storage amount is insufficient, the power generation can not be stopped, so that there is a problem that continuous power generation is difficult.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an object of the present invention is to provide a power generation system, It is possible to install hydroelectric power easily even without large civil engineering work such as dam or bank, so that it can be installed in a small installation space and occupied area without being limited in the installation area, and the installation period, The present invention aims to provide an environmentally friendly multi-layered regenerative regenerative power generator which is provided with a compartment in the middle to buffer the influence of water pressure to provide safety and to provide space for installing and maintaining piping

In addition, the water used for power generation can be recycled without recycling and reused for power generation. Therefore, it is possible to generate electricity repeatedly with a small amount of water, and even if a problem occurs in any one of the mills or generators, It is also intended that the power generation is not stopped and continuously carried out by discharging the water through the supply pipe or the outflow pipe.

In addition, it is possible to produce electric power stably without being affected by natural conditions or external environment, easy to install and maintain, and easily change the quantity, size and capacity of the device configuration There is a purpose in what can be done.

Furthermore, it aims to protect the natural environment and ecosystem through the development of eco-friendly energy, and to promote regional development and increase the economic ripple effect.

In order to solve the above-described problems, the present invention provides a water purifier comprising: a water storage chamber extending in the vertical direction and storing water therein; and a plurality of compartments separated by a compartment having a partition wall at least in one direction of the low- Wherein the power generation room comprises an upper chamber formed at an upper portion thereof and receiving water from the water storage chamber and accommodated therein, and a water supply portion And a generator chamber provided at a side of the spinning chamber and connected to a central axis of the spinning wheel and provided with a generator for generating electric power, Wherein the water is discharged from the water chamber, and then recycled to the water storage chamber, Thereby providing a pulley-type regenerative power generator.

According to the present invention, there is also provided a water treatment system comprising: a water storage chamber extending in the horizontal and vertical directions and storing water therein; and a plurality of rows and columns along the horizontal and vertical directions separated by a compartment having a partition wall in at least one direction of the low- Wherein the power generation chamber includes an upper chamber formed at an upper portion thereof and receiving water from the water storage chamber and accommodating the water in the water storage chamber, And a power generation chamber provided at a side of the power chamber and connected to a central axis of the power generating chamber and provided with a generator for generating electricity, A circulation chamber is formed on the lower side of the chamber to receive water discharged from the water chamber and recirculate the water to the reservoir chamber Thereby providing an eco-friendly multi-layered regenerative power generator.

The present invention relates to a water treatment system comprising a water storage chamber extending in the horizontal and vertical directions and containing water at the edges thereof and provided with an installation space therein and a compartment separated by at least one compartment having at least one side of the water storage chamber, The present invention relates to an eco-friendly freshening type regenerative power generation apparatus comprising a plurality of multi-layered power generation rooms arranged in rows and columns along a vertical direction, wherein the power generation rooms are provided with an upper A milling machine, comprising: a chamber; a mill chamber provided in a direction orthogonal to the partition wall, the mill being repeatedly rotated by water falling from the upper chamber; and a power generator connected to the center axis of the mill, And a circulation chamber is formed at a lower side of the lowermost power generation chamber, After receiving the water provides an environment-friendly multi-layer type wheel reproducing power generator to recycle the water storage chamber.

At this time, the water storage room is also provided apart from the compartment and the power generation room.

In addition, the eco-friendly multi-layer regenerative power generator is also buried underground.

In addition, the upper chamber is also provided with a water supply pipe communicating with the spindle chamber on the lower side and equipped with a water supply valve.

In addition, the upper chamber is provided with a water supply pipe provided with a water supply valve on the lower side, and the water supply pipe is provided so as to be inclined so as to communicate with a wheel chamber of another power generation chamber located on the same layer.

In addition, an inflow pipe having an inflow valve and an inflow pipe having an inflow valve are provided to allow the upper chamber and the lower water chamber to communicate with each other so that water can flow in and out of each other.

Here, the outflow pipe is also characterized in that a pump is provided, and a cap is provided so as to be openable and closable at a distal end located on the low water chamber side.

Further, a connecting pipe for connecting the upper chambers of the power generating chambers adjacent to each other is provided in the space where the compartment is located.

The spindle chamber is also characterized in that a plurality of spindles are connected by a central axis.

Furthermore, the generator is also provided on the support table.

Further, the generator is also characterized in that a speed increasing gear and a coupling are connected between the center shaft of the wheel and the generator.

Further, the circulation chamber is also provided with a circulation pipe communicating with the water storage chamber and having a circulation valve and a pump.

In addition, an inlet / outlet pipe for supplying water to the water storage chamber or discharging water stored in the water storage chamber to the outside is connected to the water storage chamber, and the inlet / outlet pipe is provided with an inlet / outlet valve and a pump .

In addition, the power generation room and the circulation room are characterized in that stairs or ladders are provided on the wall surface, and entrances are provided on the ceiling front surface or the floor surface.

Further, the eco-friendly multi-layer regenerative bipolar regenerative power generation apparatus may further include a plurality of surveillance cameras installed therein, and a control room for automatically controlling operations of the valves and the pumps by the information captured by the surveillance cameras. have.

Further, the present invention is also characterized in that an elevator room provided with elevators is provided beside the power generation rooms provided with a plurality of elevators.

In addition, an auxiliary water tank is provided on the upper side of the low water chamber.

At this time, the auxiliary water tank is also connected to the power generation chamber located on the uppermost layer by an auxiliary supply pipe.

According to the present invention, power is generated by rotating a generator by using a force generated by repeatedly rotating a plurality of spindles arranged in a direction orthogonal to a partition wall while circulating water, so that the power generation efficiency is high and a large civil engineering work such as a dam or an embankment is carried out It is possible to install it in a small installation space and occupied area without being limited by the installation area, and it is possible to install the module at a lower cost for installation period, installation and maintenance, It is possible to provide a space in which the piping can be installed and maintained in a safe manner by buffering it.

In addition, the water used for power generation can be recycled without recycling and reused for power generation. Therefore, it is possible to generate electricity repeatedly with a small amount of water, and even if a problem occurs in any one of the mills or generators, It is possible to continuously perform the power generation without stopping the power generation by discharging the water through the supply pipe or the outflow pipe.

In addition, it is possible to produce electric power stably without being affected by natural conditions or external environment, easy to install and maintain, and easily change the quantity, size and capacity of the device configuration There is an effect that can be.

Furthermore, through the development of eco-friendly energy, it protects the natural environment and ecosystem, and promotes regional development and increases the economic ripple effect.

1 is a schematic view showing a configuration for a conventional dam power generation.
2 is an exploded perspective view of an embodiment of the present invention.
Figures 3a and 3b are front cross-sectional views according to embodiments of the present invention.
4 is a side cross-sectional view of an embodiment of the present invention with an elevator chamber;
Figures 5A and 5B are perspective views of a portion of an incinerator according to an embodiment of the present invention with a plurality of spindles.
6 is a side cross-sectional view in accordance with an embodiment of the present invention formed in multiple layers to form a plurality of rows and columns.
7 is a schematic view showing a side cross section according to an embodiment of the present invention in which the water supply pipe is inclined so as to communicate with another power generation room located on the same floor;
8 is a plan sectional view according to an embodiment of the present invention having an elevator chamber.
9A and 9B are schematic views showing an appearance according to an embodiment of the present invention in which a power generation chamber is provided in both directions.
10A and 10B are schematic views showing an appearance according to an embodiment of the present invention in which power generating chambers are provided in four directions.
11A and 11B are schematic views showing an appearance according to an embodiment of the present invention formed in multiple layers in a row and in a row in two directions.
12A and 12B are schematic views showing an appearance according to an embodiment of the present invention in which a plurality of power generation chambers are provided in a multi-layered structure in a cylindrical low-water chamber.
13A and 13B are schematic views showing a flat section according to an embodiment of the present invention in which a water storage room where water is stored at the edge and a power storage room is formed at the outside and inside of the low water storage room in multiple layers.
Figure 14a is a state of use in accordance with an embodiment of the present invention installed in a basement of a building;
Fig. 14b is a state of use according to an embodiment of the present invention installed across the ground and underground of a building; Fig.
15 and 16 are schematic views showing a structure according to an embodiment of the present invention in which a power room is installed in multiple directions in a low-water chamber having various forms.

The inventor of the present invention has found that, in the case of dams used for power generation in the past, a large low-water-supply area, a low water level and a low water level are required, and the installation area is very limited. It is recognized that there is a problem that sustainable power generation is difficult because the ecosystem can be seriously damaged, maintenance cost is high, power generation efficiency is low, and power generation is stopped when the water volume is insufficient.

As a result of repeated research and efforts to solve this problem, the inventor of the present invention has found that, as a result of repeatedly rotating a plurality of spindles while circulating water, power is generated by rotating the generator using the generated power, Hydropower can be easily generated even without civil engineering work, so it can be installed in a small installation space and occupied area without being restricted by the installation area. The installation period, installation and maintenance costs are small, and a compartment is installed in the middle It is possible to provide a space for piping installation and maintenance as well as to provide safety by cushioning the influence of water pressure and to reuse the water used for power generation without recirculating the water used for power generation to generate electricity, , Even if there is a problem with one of the mills or generators, The power generation can be continuously carried out by discharging the water through the outflow pipe, or the power can be stably generated without being affected by the natural conditions or the external environment, and the installation and maintenance work is easy Size, capacity, etc. of the device configuration can be easily changed to suit the installation location and dropping conditions, as well as to protect the natural environment and ecosystem through the development of eco-friendly energy, and to promote regional development and economic ripple effects Thereby completing the present invention relating to an environmentally friendly multi-layered regenerative regenerative power generator.

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

As shown in Figs. 2 and 3A, the eco-friendly multi-layered fretted regenerative power generator 10 according to the present invention includes a low water chamber 100 on one side where water is stored, And a compartment having a partition wall W formed on both sides of the compartment 200 between the low water chamber 100 and the power generation chamber 200. The compartment 200 may be formed as shown in FIG. A plurality of generators 221 are installed along the vertical direction or in the horizontal and vertical directions and water is repeatedly circulated by installing the spindle 211 and the generator 221 in each of the power generation rooms 200, ) To generate electric power easily with high efficiency.

9 to 12, the low water chamber 100 may be formed so as to extend along the vertical direction so that the plurality of power generation chambers 200 are formed in a multi-layered structure, Are formed so as to extend along the horizontal and vertical directions so as to be coupled and installed in a plurality of rows and columns.

15 and 16, the low water chamber 100 may be formed in the form of a triangular column, a quadrangular column, and a polygonal column having a square or more, as well as a cylindrical shape. In this case, The chambers 200 can be formed in a variety of structures to form multiple layers or a plurality of rows and columns.

3B, the low water chamber 100 is spaced apart from the compartment 400 and the power generation chamber 200, and the low water chamber 100 and the compartment 400 and And may be connected to the power generation room 200 by various pipes.

The low water chamber 100 may be supplied with water from the outside through the inlet / outlet pipe 101 and may store the water stored in the low water chamber 100, An inlet valve 102 and a pump P are installed to control supply and discharge.

In addition, the auxiliary water tank 600 may be installed above the low water chamber 100. If the water stored in the low water chamber 100 is insufficient or needs to be repaired, the auxiliary water tank 600 may be connected to the auxiliary water tank 600 Power can be supplied by receiving water.

In addition, the auxiliary water tank 600 may be provided in an increased size and capacity in proportion to the number of the power generating chambers 200, or an auxiliary water tank may be further provided for emergency use.

Here, the auxiliary water tank 600 is connected to the upper chamber 240 of the power generation room 200 located at the uppermost layer through an auxiliary supply pipe 610, and the auxiliary water supply pipe 610 is connected to the auxiliary water tank 600 to adjust the supply of water.

The water used for power generation is supplied to the low water chamber 100 through the circulation pipe 310 installed in the circulation chamber 300 formed in the lower part of the lowermost power generation room 200 and communicated with the low water chamber 100 100, and can be reused.

In this way, water is supplied to the inside of the low-water chamber 100 to fill it sufficiently, and then, after being filled in the inlet 100 formed in the upper part of the partition wall W across the internal space of the compartment 400, The power generation unit 200 drives the spindles 211 driven by the hydraulic force that water flows in and flows through the inflow pipe 130 provided with the plurality of power generation rooms 200 and 135.

The power generation chamber 200 includes an upper chamber 240 and a power chamber 210 and a power generation chamber 220. An upper chamber 240 is formed in the power generation chamber 200 disposed at the uppermost layer Water flowing through the inflow pipe 130 may directly fall into the spindle 211 and the circulation chamber 300 may be formed only in the lower part of the power generation room 200. [

The upper chamber 240 is formed to have a predetermined space on the upper side of the spindle chamber 210 and receives water stored in the lower storage chamber 100 and receives the water therein. An inlet port 110 and an outlet port 120 communicating with the low water chamber 100 are formed in a partition wall W provided in the upper chamber 240. A water supply pipe 242 is provided below the upper chamber 240, And a water supply valve (243) is installed on the water supply pipe (242).

The water supply valve 243 may be disposed inside the power generation chamber 220 so as to be easily adjustable in the power generation chamber 220.

7, the upper chamber 240 is provided with a water supply pipe 242 provided with a water supply valve 243 on the lower side, and the water supply pipe 242 is connected to another power generation chamber And may be inclined to communicate with the spindle chamber 210 of the spindle 200 to increase the length of the drop.

Accordingly, the water introduced from the low-water chamber 100 through the inlet 110 is filled in the upper chamber 240 to maintain a predetermined water pressure. Thus, the water is received in the upper chamber 240, The water in the maintained state falls through the water supply valve 243 to the spindle 211 provided in the lower spindle chamber 210 to obtain a rotating force so that good power generation is possible even when the flow of water is not large.

At this time, a pressure sensor is provided in the upper chamber 240 so that the water supply valve 243 is opened only when the predetermined water pressure is maintained, so that the water is discharged into the spindle chamber 210 through the water supply pipe 242 .

The inflow pipe 110 having the inflow valve 135 is connected to the low water chamber 100 through the compartment 400 and is stored in the low water chamber 100. [ Water flows into the upper chamber 240 through the inflow pipe 130 and an outflow pipe 140 having an outflow valve 145 is connected to the outflow port 120 through the compartment 400, (100) and discharges the water contained in the upper chamber (240) to the low water chamber (100).

It is difficult to supply water from the upper side when a fault occurs in the wind power generator or the like installed in the power generation room 200 on the upper side so that the inflow valve 135 provided in the power generation room 200 is opened, The water stored in the low-water chamber 100 can be directly supplied to the power generation system.

It is also difficult to drain the water used for power generation in the power generation room 200 to the lower power generation room 200 when a failure occurs in the power generation room 200 provided in the lower power generation room 200, The outlet valve 145 provided in the chamber 200 is opened to discharge the water contained in the upper chamber 240 to the low water chamber 100 through the outlet pipe 140.

It is preferable that the outlet pipe 140 is installed so that the cap 141 is openable and closable at the end located at the low water chamber side so that the cap 141 is normally blocked and stored in the low water chamber 100 The water contained in the upper chamber 240 can be discharged into the water storage chamber 100 by opening the cap 141 when a failure occurs in the lower power generation chamber 200 .

In addition, it is preferable that the outflow pipe 140 is provided with a pump P so that the water remaining in the upper chamber 240 is discharged to the low-water chamber 100 when the device fails.

The spindle chamber 210 is installed in a direction perpendicular to the partition wall W for driving the spindle 210 repeatedly driven by the water dropped from the upper side. For example, the spindle 211 is provided with a plurality of wings 211a, and is rotated repeatedly about a center shaft 212 coupled by a bearing on both sides (not shown).

In addition, the mills 211 may be manufactured in various sizes and shapes, and may be selectively installed in accordance with the installation location and dropping conditions.

5a and 5b, the spindle chamber 210 may include a plurality of spindles 211 connected to each other by a single central axis 212, The water flowing into the chamber 200 drops from the upper side to rotate the plurality of spindles 211 and this rotational force is transmitted to the generator 221 through the center shaft 212 to obtain a high power generation amount.

A drain port 215 is formed in the lower portion of the spindle chamber 210 so as to communicate with the lower power generation room 200. A drain port 213 is installed in the drain port 215, A drain valve 214 is provided to drain the water used for power generation in the sprocket chamber 210 to the upper chamber 240 of the lower generator room 200 through the drain pipe 213.

Here, the drain valve 214 may be disposed inside the power generation chamber 220 so as to be easily adjustable in the power generation chamber 220.

The power generation chamber 220 is formed on the side of the spindle chamber 210 and a generator 221 connected to the center axis 212 of the spindle 211 to generate electricity is installed in the inner space.

At this time, the power generation chamber 220 may be provided with an access door D having a proper size on the side surface for convenience of maintenance and repair.

The generator 221 may be connected to a coupling 223 and a boost device 222 between the generator 221 and the center axis 212 of the spindle 211. The power generator And the speed reducer 222 is connected to the center shaft 212 of the spindle 211 or connected by a belt or the like to accelerate the rotational force of the spindle 211, Generator 221 to increase the electromotive force, thereby increasing the power generation efficiency and reducing the size of the generator.

It is preferable that the generator 221 is installed on the support table 225 so as to match the height of the center axis 212 of the spindle 211 and to prevent the leakage water flowing into the power generation chamber 220 The generator 221 is prevented from being directly exposed to the effluent. Of course, it is preferable that the booster 222 and the coupling 223 are installed on the support table 225 together with the generator 221.

The support table 225 may have various sizes and heights and may be selectively installed according to the installation site and conditions of the supported device.

On the other hand, a circulation chamber 300 is formed in a lower portion of the power generation room 200 installed in the lowest layer, and receives water used through a plurality of power generation rooms 200 located on the upper side. (100) and recycled. Therefore, the water used for power generation is circulated again without recycling, and is reused for power generation. Therefore, it is possible to generate electricity repeatedly with a small amount of water even if there is no supplementary water.

At this time, a circulation pipe 310 communicating with the low water chamber 100 is installed in the circulation chamber 300 and a circulation valve 315 is provided on the circulation pipe 310 so that the circulation chamber 300 Is circulated through the circulation pipe 310 to the low water chamber 100 and reused.

Here, the circulation valve 315 may be installed inside the power generation chamber 220 so as to be easily adjustable in the power generation chamber 220.

The pump P is connected to the circulation pipe 310 so that the water contained in the circulation chamber 300 is pumped by the operation of the motor of the pump P, To the low water chamber 100 and circulated.

In addition, the power generation chamber 220 is provided with a step or a ladder S on its wall surface and a step or a ladder S is installed on the wall of the circulation chamber 300. On the upper surface of the circulation chamber 300, It is possible to form the entrance X so that the operator can maintain and repair the convenient facility.

 The compartment 400 is hollow in the middle between the low water chamber 100 and the power generation chamber 200. The compartment 400 cushions the impact of the water pressure stored in the low water chamber 100, And provides a space in which piping can be installed and maintained.

Here, the compartment 400 may be provided with a connection pipe 250 connecting the upper chambers 240 of the power generation chambers 200 adjacent to each other in the upward and downward directions, When the upper power generation room 200 fails to function due to a failure by connecting the upper chamber 240 of the power generation room 200 with the connection pipe 250, the connection valve 255 is opened, The water contained in the upper chamber 240 of the chamber 200 may be drawn out and transferred to the upper chamber 240 of the lower power generation chamber 200 for use.

The connection pipe 250 is communicated between the outlet pipe 140 of the upper generator chamber 200 and the inlet pipe 130 of the lower generator chamber 200 and is directly connected to the generator It can also be used.

On the other hand, the eco-friendly multi-layer regenerative bipolar regenerative power generator 10 may be installed on the ground, or a part of the apparatus may be buried in the ground as shown in FIG. 14B, or all of the apparatus may be buried underground as shown in FIG. For example, when the entire device is embedded in the ground below the ground G, an access room is provided on the ground, and the access room is provided with an access door D, and between the power generating room 200 and the access room And it is also possible to enter and exit the power generation room 200 provided at the lower side through the elevator.

By partially or entirely embedding the device in the basement, it is possible to install the device in a small installation space and occupied area without being restricted by the installation site, and to produce electric power stably without being affected by natural conditions or external environment , Noise caused by operation of the apparatus can be reduced.

In addition, the eco-friendly multi-layered regenerative power generator 10 is provided with a plurality of surveillance cameras C, and automatically controls the operation of various valves and pumps by information photographed by the surveillance camera C A control room (not shown) may be further provided to construct an automatic control system for power generation.

As shown in FIGS. 4 and 8, it is preferable to provide an elevator room 500 having a plurality of elevator installed on the side of the power generating room having a plurality of multi-layers. Thus, And can be easily moved to another power generation room 200 through an access door D formed on both sides of the power generation room 200 after the operator descends from the elevator.

13A and 13B, in the eco-friendly multi-layered reamer regenerative power generator 10 according to the present invention, the low water chamber 100 is extended in the horizontal and vertical directions, water is stored at the edges thereof, And a plurality of power generating chambers 200 may be installed in at least one of the outer side and the inner side of the low water chamber 100 so as to be divided into a plurality of layers by barrier ribs.

As a result, the eco-friendly multi-layered regenerative bipolar regenerative power generator 10 according to the present invention produces electric power by rotating the generator using the force generated by repeatedly rotating a plurality of spindles arranged in a direction orthogonal to the partition while circulating water, It is easy to install hydroelectric power even without large civil works such as dams and dykes. It can be installed in a small installation space and occupied area without being restricted in installation area. And it is possible to provide a space where piping can be installed and maintained. In addition, the water used for power generation can be circulated again without discarding the water, Repeated power generation is possible with positive water, and even if there is a problem with one of the mills or generators, By supplying water directly through the installed inflow pipe or discharging the water through the outflow pipe, the power generation can be continuously performed without stopping, and the electric power can be stably produced without being affected by natural conditions or the external environment, It is easy to maintain, and it is possible to easily change the quantity, size and capacity of the device configuration to suit the place of installation and dropping conditions. In addition to protecting the natural environment and ecosystem by developing eco-friendly energy, It can increase promotion and economic ripple effect.

The present invention is not limited to the above-described embodiments. Anything having substantially the same constitution as the technical idea described in the claims of the present invention and achieving the same operational effect is included in the technical scope of the present invention.

1. Dam 2. Doosan Tunnel
2a. Water intake 3. Water intake
4. Generator 5. Waterproof
10. Eco-friendly multi-layer regenerative power generator
100. Low water chamber 101. In /
102. I / O valve 110. Inlet
120. Outlet 130. Inlet piping
135. Intake valve 140. Outflow line
141. Cap 145. Outflow valve
200. Power generation chamber 210. Wheel chamber
211. Wheel 211a. wing
212. Center axis 213. Drain pipe
214. Drain valve 215. Drain
220. Generation chamber 221. Generator
222. Coupling
225. Support table 240. Upper chamber
241. Water supply port 242. Water supply pipe
243. Water supply valve 244. Pressure sensor
250. Connection piping 255. Connection valve
300. Circulation chamber 310. Circulation piping 315. Circulation valve
400. compartment 500. elevator
600. Auxiliary water tank 610. Auxiliary supply line
615. Auxiliary supply valve C. Surveillance camera
D. Access door G. Floor
P. Pumps S. Stairs or ladders
W. Bulkhead X. Entrance

Claims (20)

And a power generation chamber extending in the vertical direction and containing water therein, the power generation chamber being divided into a plurality of layers separated in a vertical direction by a compartment having a partition wall having at least one direction of the low- As a power generation device,
The power generation chamber includes an upper chamber formed at an upper portion of the upper chamber to receive water from the lower chamber and to receive water from the upper chamber and a spinning wheel rotatably rotated by water falling from the upper chamber in a direction perpendicular to the partition, And a generator chamber formed on the side of the spinning chamber and connected to the center axis of the spinning wheel to generate electricity,
Wherein a circulation chamber is formed on the lower side of the lowermost power generation chamber to receive the water discharged from the power chamber and recirculate the water to the water storage chamber.
A water storage chamber extending in the horizontal and vertical directions and storing water therein; and a plurality of compartments arranged in multiple layers so as to form a plurality of rows and columns along the horizontal and vertical directions separated by the compartments having the partition walls at least in one direction of the low- An eco-friendly regenerative power generator comprising an installed generator room,
The power generation chamber includes an upper chamber formed at an upper portion of the upper chamber to receive water from the lower chamber and to receive water from the upper chamber and a spinning wheel rotatably rotated by water falling from the upper chamber in a direction perpendicular to the partition, And a generator chamber formed on the side of the spinning chamber and connected to the center axis of the spinning wheel to generate electricity,
Wherein a circulation chamber is formed on the lower side of the lowermost power generation chamber to receive the water discharged from the power chamber and recirculate the water to the water storage chamber.
A water storage chamber extending in the horizontal and vertical directions and storing water at the edges thereof and having an installation space formed therein; and a plurality of compartments separated in the horizontal and vertical directions by a compartment having at least one side of the low- And a power generation chamber having a plurality of layers arranged in rows and columns,
The power generation chamber includes an upper chamber formed at an upper portion of the upper chamber to receive water from the lower chamber and to receive water from the upper chamber and a spinning wheel rotatably rotated by water falling from the upper chamber in a direction perpendicular to the partition, And a generator chamber formed on the side of the spinning chamber and connected to the center axis of the spinning wheel to generate electricity,
Wherein a circulation chamber is formed on the lower side of the lowermost power generation chamber to receive the water discharged from the power chamber and recirculate the water to the water storage chamber.
3. The method according to claim 1 or 2,
Wherein the water storage room is spaced apart from the compartment and the power generation room.
4. The method according to any one of claims 1 to 3,
Wherein the eco-friendly multi-layered regenerative power generator is embedded in the ground.
4. The method according to any one of claims 1 to 3,
Wherein the upper chamber is provided at a lower side thereof with a water supply pipe communicating with the milling chamber and provided with a water supply valve.
4. The method according to any one of claims 1 to 3,
Wherein the upper chamber is provided with a water supply pipe provided with a water supply valve at a lower side thereof and the water supply pipe is provided so as to be inclined so as to be communicated with a wheel chamber of another power generation chamber located in the same layer .
4. The method according to any one of claims 1 to 3,
An inflow pipe provided with an inflow valve and an outflow pipe provided with an outflow valve so that the upper chamber and the lower water chamber communicate with each other to allow water to flow in and out of each other;
9. The method of claim 8,
Wherein the outflow pipe is provided with a pump, and a cap is provided so as to be openable and closable at a distal end located on the low water chamber side.
9. The method of claim 8,
Wherein a connection pipe for connecting upper chambers of adjacent power generating chambers is provided in a space where the compartments are located.
4. The method according to any one of claims 1 to 3,
Wherein the spindle chamber is connected to a plurality of spindles by a single central axis.
4. The method according to any one of claims 1 to 3,
Wherein the generator is mounted on a support table.
4. The method according to any one of claims 1 to 3,
Wherein the generator is provided with an accelerator and a coupling connected between the center shaft of the wheel and the generator.
4. The method according to any one of claims 1 to 3,
Wherein the circulation chamber is internally provided with a circulation pipe communicating with the water storage chamber and having a circulation valve and a pump.
4. The method according to any one of claims 1 to 3,
Wherein an inlet / outlet pipe for supplying water to the water storage chamber or discharging water stored in the water storage chamber to the outside is connected to the water storage chamber, and an inlet / outlet valve and a pump are provided for the inlet / Generator.
4. The method according to any one of claims 1 to 3,
Wherein the power generation room and the circulation room are provided with stairs or ladders on the wall surface, and entrances are provided on the ceiling surface or the floor surface.
4. The method according to any one of claims 1 to 3,
The eco-friendly multi-layer regenerative bipolar regenerative power generation apparatus includes a plurality of monitoring cameras installed therein, and a control room for automatically controlling the operation of the valves and the pumps by the information photographed by the monitoring cameras, .
4. The method according to any one of claims 1 to 3,
And an elevator room provided with an elevator is provided beside the power generator room provided with a plurality of elevators.
4. The method according to any one of claims 1 to 3,
And an auxiliary water tank is provided on the upper side of the low water chamber.
20. The method of claim 19,
Wherein the auxiliary water tank is connected to the power generation room located on the uppermost layer by an auxiliary supply pipe.

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