KR102228133B1 - An eco-friendly method of producing eco-friendly electricity while purifying contaminated river water - Google Patents

Abstract

자 형태로 오염 물질분자 차단막을 구성시키고 , 상기 오염물질분자 차단막의 사이사이에 비중이 무거운 깨끗한 하천수들이 비중이 가벼운 오염된 하천수들을 밀어내고 우선적으로 유입되도록 작용하는 유입구를 구성시켜서 하천수와 결합 되어 흘러내려오는 비중이 가벼운 오염된 하천수와 비중이 무거운 깨끗한 하천수들이 자연적으로 분리되도록 작용시켜서 비중이 무거운 깨끗한 하천수들만 선별적으로 채수하여 구성되는 자연친화적인 친환경 취구 시스템을 특징으로하는 하천수를 저장하여 오염된 하천수를 정화시켜 주면서 친환경 전력을 생산하는 친환경공법과 여기에 적용되는 전기생산수단 및 하천수 정화수단에 관한 발명이다In the present invention, after configuring the intake port and the intake pipe at the rear portion of the lower water discharge device and the power generating waterwheel coupled to the winding type sluice gate, the upper end portion

A pollutant molecule barrier is formed in a shape of a ruler, and clean river water with a heavy specific gravity pushes out contaminated river water with a light specific gravity between the pollutant molecule barrier layers and flows in combination with the river water by forming an inlet that acts to preferentially inflow. Contaminated river water with a low specific gravity and clean river water with a heavy specific gravity act to separate naturally, so that only clean river water with a heavy specific gravity is selectively collected. It is an invention related to an eco-friendly method of producing eco-friendly power while purifying river water, and electricity production means and river water purification means applied thereto.

Description

An eco-friendly method of producing eco-friendly electricity while purifying contaminated river water

The present invention relates to an eco-friendly method for generating electricity while storing large-capacity river water to purify contaminated river water, and to an electricity generation means and a river water purification means applied thereto, and more particularly, to a sluice gate rising, descending, or conduction. It is an invention related to an eco-friendly construction method that produces a large amount of electricity while naturally purifying contaminated river water using a winder sluice gate or a conductive sluice gate configured to open and close a waterway.

As is well known, a sluice gate is constructed at the entrance of a waterway from a river or related waterway to the paddy field so that the water from the river does not flow back to the farmland, and a sluice gate is installed to control the supply of water to the farmland by pumping out the river water. The sluice gates installed for the purpose had a drawback that they could not purify contaminated river water naturally.In the present invention, it was necessary to recognize the necessity of developing a technology equipped to produce a large amount of eco-friendly electricity while purifying the contaminated river water naturally, and to develop a new technology. It was done.

Patent Document 1: Patent No. 10-1233804 Patent Document 2: Patent No. 10-1468199 Patent Document 3: Patent No. 10-1577938 Patent Document 4: Patent No. 10-1741836

The present invention has been proposed in consideration of these points, and after constructing a discharge passage for low water in the interior of the sluice gate, a discharge passage for generating a gravitational acceleration action is formed on the back side of the sluice gate, and a power generation facility is constructed at the lower part to produce a large amount of electricity. It is a subject of the present invention to produce a large amount of electricity using an eco-friendly power generation facility.

As a means of solving the problem of the present invention, after constructing a discharge passage for low water in the interior of the sluice gate, a discharge passage for generating the gravitational acceleration action is additionally formed on the back side of the sluice gate, and a power generation facility is configured at the lower end of the sluice gate in two layers to produce a large amount of electricity. It is intended to present a power generation system that produces electricity in large quantities using eco-friendly power generation facilities that are configured to be

In the present invention, among the stream water mixture flowing from the upstream of the river, clean river water with a heavy specific gravity is discharged through the low-water discharge passage naturally configured at the lower end of the sluice gate and the siphon passage formed in the sluice gate, and a plurality of power generation devices combined with the sluice gate at the same time. Contaminated river water with a light specific gravity rises to the top of the sluice by the material cut-off and material push action, which is naturally generated by gravity and clean river water with a light specific gravity while rotating to produce a large amount of electricity. It has the effect of naturally purifying clean river water with heavy specific gravity by various water purification actions such as material friction and material explosion that occur naturally in the state of being used.

1 is a cross-sectional perspective view of a wound-type sluice gate constructed in accordance with claim 1 of the present invention.
Figure 2 is a cross-sectional perspective view of a wound-type sluice gate constructed in accordance with claim 2 of the present invention
Fig. 3 is a front perspective view of a winding type sluice gate constructed in accordance with claims 1 and 2 and 3 of the present invention
Figure 4 is a cross-sectional perspective view of a wound-style sluice gate constructed in accordance with claim 3 of the invention
5 is a cross-sectional perspective view of a conductive sluice gate constructed in accordance with claim 4 of the present invention.
6 is a front perspective view of a conductive sluice gate constructed in accordance with claim 4 of the present invention
Figure 7 is an exemplary configuration diagram of a power generation aberration applied to each embodiment of the present invention
8 is a cross-sectional perspective view of line A_A in FIG. 7
9 is a cross-sectional perspective view of a conductive sluice gate constructed in accordance with claim 5 of the present invention.
Fig. 10 is a cross-sectional perspective view showing a state in which electricity is produced by configuring a plurality of generating aberrations inside a sluice gate according to claim 6 of the present invention

The following will be described for each embodiment configured according to the present invention.

Embodiment 1 constructed in accordance with claim 1 of the present invention is constructed as follows.

1 is a cross-sectional perspective view of a wound-type sluice gate configured according to claim 1 of the present invention,

3 is a front perspective view of a wound-type sluice gate constructed in accordance with claims 1, 2, and 3 of the present invention, and FIG. 8 is a power-generating aberration inside the winding-type sluice gate applied to the embodiments of the first, 2, and 3 of the present invention. It is a cross-sectional perspective view showing the state of generating electricity.

After dredging the river and maintaining both banks of the river using river facilities, a support base that supports the base concrete and the water gate, which is a water storage device, is formed in the river, and the connecting rod and the winding are combined with the sluice gate provided to store the river water in between. In the nature-friendly eco-friendly method of producing a large amount of electricity while purifying contaminated river water using a device and a power generation device, and the river water storage means and intake means applied thereto.

After dredging the river and maintaining both banks of the river using the river facilities, a support base that supports the foundation concrete 1000 and the sluice gate 8000, which is a water storage device, is formed in the river, and river water is provided between them. A nature-friendly eco-friendly method that generates electricity in large quantities while purifying contaminated river water by installing a number of power generating aberrations (3300, 3000) combined with the sluice gate 8000 provided to store, and river water applied thereto The structure of the storage means and the water intake means is a structure of a winding-type sluice gate (8000) consisting of a hollow space in the form of a rectangle or a rectangle; the winding-type sluice gate (8000) is wound on the upper end of the winding-type sluice gate (8000), or A connecting rod 200 used when descending is provided, and an upper portion of the connecting rod 200 constitutes the hoisting device 300; At the lower end of the winding-type sluice gate 8000, a low-floor water inlet (7777) for preferentially inflowing low-level water with a heavy specific gravity is formed in a horizontal direction; The upper discharge port (7778) for discharging is configured to be elongated in the horizontal direction; The rear end of the winding type sluice gate 8000 is combined with the upper discharge port 7778 to collect the river water flowing in through the upper discharge port 7778 and discharge it to the lower end of the winding type sluice gate 8000. The structure of the inlet port 9000 and the lower part of the structure of the low seawater discharge device 7000 configured to be combined with the lower discharge port 3001 configured narrowly, the lower seawater discharge device 7000 is a bubble generated by the natural contact of the river water and river water falling A structure in which a plurality of protruding discharge plates 361 provided with a bubble discharge port 365 for discharging them are configured in a horizontal direction,

A structure of a winding type sluice gate 8000 in which a power generation aberration 3000 is configured at the lower end of the low water discharge device 7000;

In the interior of the winding type sluice gate 8000, an intermediate support plate 809 is formed in the vertical direction to serve as the main frame to perform the main frame role of supporting the winding type sluice gate 8000.

자 형태로 발전수차 수납공간(889)이 가로 방향으로 길게 구성되고 , 상기 발전수차 수납공간(889)에는 가뭄시 또는 필요시에 발전수차(3300)를 승강 시키거나 하강하여 주도록 구성되는 승하강 장치(8800)와 결합되는 발전수차(3300)가 결합 구성되는 상기 권양식 수문(8000)의 구조로써 승하강 장치는 공지의 실린더 방식이나 스크류 나사 조절방식 또는 감속기 방식등을 이용할 수가 있기에 특별히 어느 방식으로 한정하지 않는다.At the lower end of the winding-style sluice gate (8000)

The power generation aberration storage space 889 is configured to be elongated in the horizontal direction in the form of a ruler, and the power generation aberration storage space 889 has an elevating device configured to elevate or descend the power generation aberration 3300 when drought or when necessary. As the structure of the winding type sluice gate 8000 in which the power generating aberration 3300 coupled with the 8800 is coupled, the elevating and descending device can use a known cylinder method, a screw screw adjustment method, or a speed reducer method. Not limited.

The reason is that it is possible to change and configure any number of companies in question, so it is natural that all of these design changes belong to the scope of the present invention.

After installing the winding-type sluice gate in the river to store the clean river water with heavy specific gravity and the flowing river water mixed with various impurities and contaminant molecules having a light specific gravity, the lower end of the winding-type sluice gate 8000 is stored 5 mm to 50 cm. The power generation waterwheel 3300 is rotated using the low-floor water flowing through the open and low-floor water discharge passage 883 to generate electricity, and at the same time, clean river water with a heavy specific gravity contaminates the contaminated river water with a light specific gravity, and the winding type sluice gate 8000 It exhibits a natural purifying effect of contaminated river water by using the material cut-off and material push action that floats to the upper layer of the building, and at the same time, it is a clean material with heavy specific gravity due to the material cut-off and material push action that are naturally generated by the action of gravity. The material molecules push contaminated river water (7788) having a light specific gravity to the upper part of the winding-type sluice gate (8000), and the lower water inlet (7777) and the upper discharge port (7778) and the lower water discharge device (7000). An eco-friendly method of producing eco-friendly power while purifying contaminated river water by using the force of gravity acceleration that is naturally generated when discharged through the rear part of the winding water gate (8000), and the electricity production means and river water purification means applied thereto. Present.

Since the structure of the power generating aberration configured according to the first embodiment of the present invention can be changed in a wide variety of configurations, a detailed description of the structure will be omitted.

As shown in Figure 7, the configuration form of the power generation aberration 3000 is such a design that it can be configured by configuring the power generation aberration 3000 coupled with the rotating screw rotating blade 3882 and combining the generator 3003 on the side. Any number of changes can be made. Since the width and width of the low seawater discharge device 7000 can be configured to be large in height, width and width, or lengthwise in the horizontal direction according to the site situation, a detailed structure The illustration of is omitted.

The gravitational acceleration refers to the force of gravity that is weighted when an object 1 falls 1m, and it is generally accepted that it is weighted at a speed of 9.8 times per 1m.

In the present invention, in order to induce the force of gravity to increase power generation efficiency, a low water discharge device is configured at the rear of the sluice gate.

These components are very unique technologies that have never been presented anywhere in the world.

Embodiment 2 constructed in accordance with claim 2 of the present invention is constructed as follows.

Figure 2 is a cross-sectional perspective view of a wound-style sluice gate constructed according to claim 2

3 is a front perspective view of a wound-type sluice gate constructed in accordance with claims 1, 2, and 3 of the present invention, and FIG. 8 is a power generating aberration in the interior of a winding-type sluice gate applied to the embodiments of the first, 2, and 3 of the present invention. It is a cross-sectional perspective view showing a state in which electricity is produced.

자 형태로 오염 물질분자 차단막(8882)을 구성시키고 상기 오염물질분자 차단막(8882)의 사이사이에 비중이 무거운 깨끗한 하천수들이 비중이 가벼운 오염된 하천수들을 밀어내고 상기 취수구(8881) 방향으로 우선적으로 유입되도록 작용하는 유입구(8885)를 구성시켜서 하천수와 결합 되어 흘러 내려오는 비중이 가벼운 오염된 하천수와 비중이 무거운 깨끗한 하천수들이 자연적으로 분리되면서 연속적으로 취수가 가능하도록 유도시키면서 비중이 무거운 깨끗한 하천수들만 선별적으로 채수하도록 구성되는 자연 친화적인 친환경 취수 수단을을 제시한다.After configuring the intake port 881 and the intake pipe 8888 at a position of the lower water discharge device 7000 coupled to the winding type sluice gate 8000 and an upstream part 3m to 20m in the rear of the power generating aberration 3000, a water intake pipe ( 8888 is a structure that connects the water intake port 881 to the water purification plant. Clean river water with heavy specific gravity at the upper end where the intake pipe 8888 is installed flows into the lower part by the action of gravity, and contaminated river water with a light specific gravity is Half gourd to exert the action of flowing to the downstream part

A pollutant molecule blocking film 8888 is formed in a shape of a ruler, and clean river water with a heavy specific gravity pushes out contaminated river water with a light specific gravity between the pollutant molecule blocking films 8882 and preferentially flows in the direction of the intake port 881 Contaminated river water with light specific gravity and clean river water with heavy specific gravity are naturally separated from the contaminated river water that flows down in combination with river water to induce continuous water intake while selectively inducing only clean river water with heavy specific gravity. We propose an eco-friendly and eco-friendly water intake method that is configured to collect water.

It is advantageous to configure the pollutant molecule blocking film 882 in a horizontal direction over the entire width of the front end of the river.

Configuration of the pollutant molecule blocking film 882 in a triangular or rectangular rectangular or semicircular cabin shape, or in a different shape such as an a-shaped shape can be changed very simply, so all of these design changes can be made according to the present invention. It is natural to fall within the scope of the rights. Since the width and width of the low water discharge device 7000 can be configured to have a large height, a large width, or long in a horizontal direction according to a site situation, a detailed structure is omitted.

In addition, the method of installing the pollutant molecule blocking film 8882 is configured in the upstream part of a water storage device configured to store water using a rubber dam method or a concrete method that has become a rotating sluice gate that has become a winding-type sluice gate. Since only these heavy river waters can be selected for water intake, it is natural that all of these design changes belong to the scope of the present invention.

Embodiment 3 constructed in accordance with claim 3 of the present invention is constructed as follows.

FIG. 3 is a front perspective view of a wound-type sluice gate constructed in accordance with claims 1 and 2 and 3 of the present invention, FIG. 4 is a cross-sectional perspective view of a wound-type sluice gate constructed in accordance with claim 3 of the present invention, and FIG. 8 is And 3 is a cross-sectional perspective view showing a state in which electricity is generated by constructing a power generation aberration inside the wound-style sluice gate applied to the embodiment of the present invention.

A plurality of low-floor water discharge control devices outside the low-floor water discharge device 7000 so that the width of the low-floor water discharge device 7000 coupled with the low-floor water inlet 7777 and the upper outlet 7778 can be freely widened and narrowed ( 500) to increase the efficiency of electricity production by repeatedly expanding and narrowing the width of the low-water discharge device 7000 according to the inflow amount of river water flowing from the upstream of the river. . The amount of inflow of river water flowing into the river differs significantly depending on the rainy season and the rainy season, so a low-water discharge control device is proposed to overcome this phenomenon. Since the width and width of the low water discharge device 7000 can be configured to have a large height, a large width, or long in a horizontal direction according to a site situation, a detailed structure is omitted.

If you are a person concerned, the configuration of the low-floor water discharge control device 500 that adjusts the width of the low-floor water discharge device 7000 is a screw screw adjustment method, a screw adjustment method combined with a reducer, or a low-floor water discharge control device using a hydraulic cylinder. The detailed structure is omitted because it can be configured to change.

Embodiment 4 constructed in accordance with claim 4 of the present invention is constructed as follows.

5 is a cross-sectional perspective view of a conductive sluice gate configured according to claim 4 of the present invention, and FIG. 5 is a front perspective view of a conductive sluice gate configured according to claim 4 of the present invention.

The structure consisting of the river water storage device combined with the foundation concrete formed after the river is maintained and both sides of the river bank are maintained using river facilities is a conductive sluice gate (8000). ), and a rear plate 808 is formed on the rotation shaft 807, and a vertical coupling plate 809 between the rear plates 808 is 20cm to 60cm longer than the length of the rear plate 808. A plurality of higher sizes are configured to form an upper water outlet 802, and a horizontal support rod 810 is elongated in the horizontal direction at the upper end of the vertical coupling plate 809, and the horizontal support rod 810 and the coupling plate At 809, the front plate 812 is coupled to a position higher than the position at which the rotation shaft 807 is installed from the horizontal support rod 810 by about 20 cm to 60 cm, and a low water inlet at the lower end of the front plate 812 A structure in which 801 is configured; to be.
However, it can be configured to be smaller than the size of 20cm to 60cm, or it can be changed to a larger size.
At the rear of the conductive sluice gate 8000, an upper inlet 803 having a wide upper end and a low water discharge device 811 having a narrow lower outlet 805 are combined, and the lower water discharge The device 811 has a structure in which a horizontal discharge plate 362 provided with a bubble discharge port 361 for discharging bubbles generated while contacting the falling river water and the river water is configured in a horizontal direction;

After the river water is stored in the conductive sluice gate 8000, which is configured with a power generating water turbine 806 that generates electricity, at the lower end of the low water discharge device 811, the amount of water flowing from the upstream of the river is When discharging through the discharging device 811, using the gravitational acceleration action that is naturally augmented, electricity is continuously produced by using the power generating aberration 806 configured at the lower end of the low water discharging device 811, and at the same time, the When generating electricity by rotating the power generation aberration 806, it purifies contaminated river water by using the material pushing action, material cutting action, material explosion action, and material friction action that naturally occur when water molecules and pollutant molecules come into contact with each other. An eco-friendly method of producing eco-friendly electricity, electricity generation means and river water purification means applied to it are presented. The rotating means 820, which is configured to erect or invert the conduction-type sluice gate by rotating the rotating shaft 807, can be changed as much as possible by using a known technique, and thus the detailed structure has been omitted. The configuration of the horizontal support rod can be changed to a c-shape or a circular shape, or to a ㅁ-shape.

Embodiment 5 constructed in accordance with claim 5 of the present invention is constructed as follows.

9 is a cross-sectional perspective view of a wound-type sluice gate applied to a fifth embodiment of the present invention.

After dredging the river and maintaining both banks of the river using the river facilities, a support base that supports the foundation concrete 1000 and the sluice gate 8000, which is a water storage device, is formed in the river, and river water is provided between them. A nature-friendly eco-friendly construction method that produces large amounts of electricity while naturally purifying contaminated river water by installing a plurality of power generating aberrations (3300, 3000) combined with the winding-type water gate (8000) provided to store, and the river water storage applied thereto The structure of the means and the power generation means is a structure of a winding type sluice gate 8000 configured in a rectangular or rectangular shape; a connecting rod used when hoisting or lowering the winding type sluice gate 8000 at the upper end of the winding type sluice gate 8000 200 is provided and constitutes the hoisting device 300 on the upper portion of the connecting rod 200; A storage space 889 is provided at the lower end of the winding-type sluice gate 8000 in which a power generation aberration 3300 that acts to generate electricity using clean river water having a heavy specific gravity discharged to the lower floor is provided, and the power generation aberration In the storage space 889, the winding type sluice gate 8000 is configured with a power generation aberration 3300 coupled with an elevating device 8800 configured to elevate or descend the power generation aberration 3300 when drought or when necessary. Structure of

A structure in which a low-repellent water discharge means 790 in which a low-floor water inlet 770 and a low-floor water outlet 780 are combined is configured on the outside of the front part of the winding-type sluice gate 8000; the winding-type sluice gate 8000 ), the structure of the upper inlet port (9000) that acts to collect and discharge the lower layer water to the lower part, and the lower part consists of the structure of the lower layer water discharge device (7000) which is combined with the lower outlet (3001) configured to be narrow. After installing aquaculture sluice gate in the river, store the flowing river water mixed with clean river water with heavy specific gravity and various impurities and contaminant molecules with light specific gravity, and then open the lower end of the winding type sluice gate (8000) about 5 mm to 50 cm. The power generation water wheel 3300 is rotated using the low-floor water flowing through the low-floor water discharge passage 8883 to generate electricity, and at the same time, clean river water with a heavy specific gravity transfers the contaminated river water with a light specific gravity to the upper part of the winding type sluice gate 8000. Clean material molecules with heavy specific gravity due to the material cut-out and material push action that are naturally generated by the action of gravity while exhibiting the natural purification of contaminated river water by using the material cut-off and material push-up action. Contaminated river water (7788) having a low specific gravity is pushed up to the upper part of the winding type sluice gate (8000) and moved through the low filling water discharge means (790) coupled with the low water inlet 770 and the low water outlet 780 The contaminated river water is purified using the force of gravitational acceleration that is naturally generated when the river water is passed through the bottom water discharge device 7000 and then discharged in the downstream direction of the river through the rear part of the winding type sluice gate 8000. It presents an eco-friendly method of producing eco-friendly power while giving, as well as electricity production means and river water purification means applied thereto.

In the fifth embodiment of the present invention, the coupling relationship between the low-floor water inlet 770 and the low-fill water discharge means 790 configured to be combined with the low-floor water outlet 780 configured on the front portion of the sluice gate of the winder is a plurality of vertical configurations. It is obvious to the relevant manufacturer that it is possible to completely combine with the winding machine body by using two bonding plates, and that the low-floor water discharge means can be configured without disturbing the discharge of the low-floor water. In addition, the low-floor water used in each of the Examples The structure in which the discharge device 7000 is combined with the rear side of the winder sluice gate and the conduction sluice gate can be combined as long as any number of combinations are possible by using a vertically configured combination plate body, and thus the low-floor water discharge device 7000 is changed using this structure. It is natural that they belong to the scope of the present invention.

In addition, the body of the sluice gate of the winder configured according to the fifth embodiment is not limited to the constituent materials as it can be configured to improve durability by using steel plate or concrete.

Embodiment 5 constructed in accordance with claim 5 of the present invention is constructed as follows.

8 is a cross-sectional perspective view showing a state in which electricity is generated by configuring a power generating aberration in the inside of the wound-type sluice gate applied to the first, second, and third embodiments of the present invention.

A water storage device configured to generate electricity by configuring a plurality of power generating aberrations 3000 inside the winding type sluice gate or the conduction sluice gate is presented.

The location where the power generation aberration is installed can be freely changed, and the configuration of the power generation aberration and the form of generating electricity can be changed in a wide variety, so it is not specifically limited.

When configuring the power generation aberration, the shape of the rotating blade 3882 configured in the power generation aberration is configured in a form of twisting and a hydraulic pressure weight plate 589 is attached to the end of the rotating blade 3882 in a shape of a letter. It is possible to configure and use a power generation aberration comprising a plurality of hydraulic pressure-enhancing partitions 3883 between the rotating blade 3882 and the hydraulic pressure weighting plate 589.

The number of installations is not limited as the number of installations of the hydraulic pressure-enhancing partitions 3883 can be increased or decreased.

200: connecting rod 3000: generating water wheel 7000: low water discharge device 8000: winding type water gate

Claims (7)

After dredging the river and maintaining both banks of the river using river facilities, a support base that supports the base concrete and the water gate, which is a water storage device, is formed in the river, and the connecting rod and the winding are combined with the sluice gate provided to store the river water in between. In the nature-friendly eco-friendly method of producing a large amount of electricity while purifying contaminated river water by using a device and a power generation device, and the river water storage means and water intake means applied thereto.
After dredging the river and maintaining both banks of the river using the river facilities, a sluice gate provided to store the river water between the stream and the foundation concrete and the support for supporting the sluice gate, which is a water storage device. The nature-friendly eco-friendly method of producing a large amount of electricity while purifying contaminated river water by installing a plurality of power generating aberrations combined with the water and the structure of the river water storage means and water intake means applied here are rectangular or rectangular. The structure of a winding-type sluice gate composed of an empty space; A connecting rod used when winding or lowering the winding-type sluice gate is provided at an upper end of the winding-type sluice gate, and the winding device is configured on the upper portion of the connecting rod; At the lower end of the winding-type sluice gate, a low-floor water inlet for preferentially inflowing low-floor water with a heavy specific gravity is configured to be long in the horizontal direction; and the upper outlet for preferentially discharging the low-floor water with heavy specific gravity in the horizontal direction Long configuration; The structure of the upper inlet having a wide upper end and a lower outlet having a narrow upper end so as to collect river water that is combined with the upper outlet and flowing through the upper outlet and discharge it to the lower end of the winding-type sluice gate at the rear portion of the winding-type sluice gate. The structure of the combined low-floor water discharge device, the low-floor water discharge device has a structure in which a plurality of protruding discharge plates are provided in the horizontal direction and provided with a bubble discharge port for discharging the bubbles generated by contacting the falling river water and the river water, and the low-floor water discharge The structure of the winding type water gate in which the power generating aberration is configured at the lower end of the device;
A structure in which an intermediate support plate is formed in the vertical direction so as to serve as a main frame in the interior of the winding-type sluice gate;

In the form of a ruler, the power generation aberration storage space is configured to be elongated in the horizontal direction, and the power generation aberration storage space is combined with a power generation aberration device that is configured to raise or lower the power generation aberration when drought or when necessary. After installing the winding type sluice gate in the river to store clean river water with heavy specific gravity and river water that flows mixed with various impurities and contaminant molecules with light specific gravity, open the lower end of the winding type sluice gate by opening 5 mm to 50 cm to discharge bottom water. A material cut-off and material push action in which electricity is generated by rotating the power generating waterwheel using the low-level water flowing through the passage, and at the same time, clean river water with heavy specific gravity raises contaminated river water with light specific gravity to the upper part of the winding-type sluice gate. The polluted river water with a high specific gravity is generated by the material shearing action and material pushing action that are naturally generated by the action of gravity while exerting the action of natural purification of contaminated river water using the use of gravitational force. The contaminated river water is purified by using the force of gravity acceleration that is naturally generated when it is pushed to the upper part of the aquaculture sluice and discharged through the lower water inlet, the upper discharge and the lower water discharge device through the rear part of the winding-type sluice gate. While producing eco-friendly power,
A structure in which a water intake port and a water intake pipe are formed at a position of the lower water discharge device coupled to the winding-type water gate and an upstream part of the rear of the power generation water tank 3m to 20m, and then the water intake pipe is connected from the water intake port to a water purification plant; Clean river water with heavy specific gravity at the upper end where the intake port and the intake pipe are installed are introduced to the lower end by the action of gravity, and contaminated river water with a light specific gravity flows to the downstream portion.

The pollutant molecule barrier is formed in a ruler shape, and between the pollutant molecular barriers, clean river water with heavy specific gravity pushes the contaminated river water with light specific gravity to the upper layer, and material pushing and material cutting that flows first to the lower layer. Contaminated river water with a light specific gravity and clean river water with a heavy specific gravity are naturally separated from each other by forming a plurality of inlets that act to exert a function, so that only clean river water with a heavy specific gravity is selectively collected. An eco-friendly method of producing eco-friendly electricity while purifying contaminated river water, characterized by a water intake pipe line combined with a nature-friendly eco-friendly water intake system configured to delete The method of claim 1
A plurality of width adjustment devices are configured outside the low-floor water discharge device so that the width of the low-floor water discharge device coupled with the low-floor water inlet and the upper outlet can be freely widened or narrowed, and configured to discharge as much as the amount of river water flowing from the upstream of the river. An eco-friendly method that produces eco-friendly electricity while purifying contaminated river water, characterized by a low-rise water discharge device.



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