KR102028873B1 - Nature friendly water quality clarifier and electricity generation system - Google Patents

Abstract

Eco-friendly power generation system combined with a nature-friendly water purifier according to the present invention,
An operating device housing (100) configured with an operating device (not shown) for operating the water gate 1000 on one side and the other side of the foundation concrete installed by dredging the river bottom; 10 cm ~ 50 cm below the water surface of the low water upstream portion of the low water level is disposed by the water inlet 902, which is disposed on the lower end of the foundation concrete and coupled with the esophagus passage 900 to be described later, the water gate 1000 configured to store the river water An egress passage 900 having an egress outlet 901 coupled to a foreign matter inflow prevention port 932 in a reversed U-shape at the point; A front sluice frame 600 that supports the front sluice plate 101 and couples the front sluice plate 101 to it; A rear sluice frame 500 that supports the rear sluice plate 102 and couples the rear sluice plate 102 to it; A front sluice index cover 602 composed of a semi-circular structure of a U-shape at an upper end of the front sluice plate 101; A rear sluice index cover 503 that is configured to rotate with the front sluice index cover 602 in a semicircular structure in a U-shape on an upper end end of the rear sluice plate 102; A front sluice hinge bracket 502 configured in plural on the top sluice frame 600; A rear sluice hinge bracket (300) configured in plural on the rear sluice frame (500); Front and rear sluice coupling pins 501 for hinge coupling the front sluice frame 600 and the rear sluice frame 500 by hinge coupling the front sluice hinge bracket 502 and the rear sluice hinge bracket 300. ; A power generation aberration housing (601) configured of a semi-circular structure having a U-shape at a lower end of the rear sluice plate (102); A power generation aberration 202 configured to be coupled to the generator 200 inside the power generation aberration housing 601; A generator cover 201 that protects the generator 200 and the power generation aberration 202 configured at one side and the other side of the power generation aberration housing 601, and is coupled with the generator cover hinge 203; At least 15% to 35% wider than the discharge width of the river water outlet 702 is configured at the upper end while the narrow river water outlet 702 is configured on the upper end of the front sluice plate 101 Hydraulic pressure reinforcement guide plate 701 constituting the river water inlet 703; It includes; and the pressure-reinforced guide plate 700 is coupled to the upper end of the pressure-reinforced guide plate support 701.

Description

Nature friendly water quality clarifier and electricity that completely removes particulate contaminants, various wastes and fluid contaminant molecules in river water and cleans it with clean water to produce electricity generation system}

The present invention completely removes various wastes and fluid contaminants contained in rainwater coming from point sources and nonpoint sources without introducing filters and chemicals, and at the same time, cleans water with clean water and generates electricity to generate electricity. It is about the system.

Specifically, by using the Pascal Principle, which removes the light-weight fluid contaminants contained in the river water and cleans it with clean water by using the difference in specific gravity and the action of gravity, the pressure is increased by the action of gravity. The present invention relates to an eco-friendly power generation system that is combined with a nature-friendly water purifier configured to continuously produce electricity at the pressure of water discharged after being weighted.

In general, nonpoint pollutant sources refer to pollutants that increase the pollution of river water because the outflow path of pollutants mixed and mixed with rainwater in unspecified places is not clear.

Specifically, nonpoint pollutant sources are pollutants that emit pollutants that aggravate water pollution in unspecified places such as cities, roads, farmland, mountains, and construction sites, unlike point pollutants that can predict loads of pollution. It is difficult to collect because it is not clearly distinguished and the emission route, and unlike the point pollutant, systematic management is difficult because the generation amount and the emission are highly dependent on weather conditions such as precipitation.

These non-point pollutants are mixed with rainwater during the rainy season, which flows into the river, causing pollution of the river water, causing eutrophication of the appeal, and by accumulating microparticles such as earth and sand, which accumulate in the bottom layer of the bedrock, It is a major pollutant that destroys spawning sites and disrupts ecosystems while increasing the pollution of river water.

In addition, due to the progress of urbanization and industrialization, land development is accelerated, and the main causes of deterioration of water quality of rivers and lakes caused by non-point pollution sources are increased due to the increase in the area of impermeable layers where rainwater seeps into the soil due to the installation of land, roads and parking lots. It is becoming.

The impact of land-based pollution, which accounts for most of the non-point pollution, on the deterioration of river water quality is 28.3% (Han River), 20-30% (Nakdong / Geum), and 20-40% (Yeongsan, Seomjin). In addition to the land series in calculating the non-point pollution load, the proportion of water quality worsening due to leakage of sewage pipes and unauthorized discharge of untreated livestock manure is over 50%, and it has increased from 65% to 70% since 2015.

Conventional methods for treating such non-point pollutants to solve these problems include natural backwash nonpoint pollutant source treatment facility, reservoir purification facility, artificial wetland purification facility, reverse contact penetration facility, vegetation type bypass discharge facility. At the same time, there are device-type purification facilities such as filtration-type facilities, vortex-type facilities, screen-type facilities, flocculation sedimentation facilities, and biological treatment facilities, but the above-mentioned devices are a method of treating some of the pollutants discharged with rainwater. However, there is a limit to the comprehensive treatment and clean treatment of garbage and contaminants generated from nonpoint source containing various pollutants.

In addition, there is a problem that the provision of new pollutants due to the current climate change and economic growth is insufficient, and defense against artificially generated pollutants.

In the context of global warming, water resources are being reduced further, and technologies for reusing rainwater in terms of water resources are being studied in various fields. However, in the conventional technology, contaminants and particulate matters having a light weight in the process of temporarily storing rainwater are used. Since they cannot be separated, there are many problems in storing and reusing rainwater.

In addition, Patent No. 10-1082310 registered by the present applicant has a problem in that the efficiency of the lifting device because of the complicated structure of the lifting device for lifting the contaminants.

(Patent Document 1) KR10-1082310 B

The present invention has been proposed in view of the above points, while naturally purifying the contaminated river water and at the same time producing electricity continuously to remove the contaminated river water by completely removing the debris and foreign matter flowing into the front portion of the triangular sluice It aims to provide an eco-friendly power generation system that uses both a natural and aquatic water purifier to clean and clean point and nonpoint sources.

In order to solve this problem, the eco-friendly power generation system combined with a natural-friendly water purifier according to the present invention enables the conduction and standing of the water gate by using the opening / closing cylinder provided inside the water gate side to store the river water inside the water gate, or close it. Even though the river water is stored in the sluice gate, it is constructed to continuously develop by using the river water discharged through the low water discharge space formed in the upper part of the sluice gate, and at the same time, it discharges heavy river water with high specific gravity. Purify the water.

In addition, the present invention by using a screw feeder installed in the front of the triangular sluice to remove the garbage and contaminants to remove the fluid contaminants mixed with the river water flowing.

The present invention enables the opening and closing of the water gate by the opening and closing cylinder provided on the side of the water gate, and continuously using the river water discharged through the low-level water outlet of the form narrowing toward the upper portion of the triangular water gate continuously It is effective to produce.

In other words, it cleans polluted river water by discharging polluted river water by discharging polluted river water with a high specific gravity in the lower layer of the reservoir by gravity, thereby purifying polluted water quality. In addition, it is possible to finely adjust the discharge amount according to the inflow amount by using a lifting cylinder that is configured separately in the exterior of the water gate according to the water pressure and the inflow amount of the storage space.

In addition, the system according to the present invention can clean the polluted river water easily at a low cost even in the case of large rivers, and can produce a completely clean river water because it uses a natural purification system naturally generated by nature. It has the effect of producing clean water without using chemicals such as chlorine and fluorine.

When the present invention is applied to a large dam, it is possible to reduce the occurrence of sedimentation sludge inside the dam, and there is a significant effect of preventing the algae phenomena at the source.

In addition, there is an effect of blocking the source of red tide caused by the flow of polluted river water generated in the river of the land into the sea.

In addition, since the stored water does not decay regardless of the capacity of the stored water, not only can a large amount of water be trapped, but also a high water content in the mountains and fields near the stream due to capillary phenomenon caused by the trapped water. Will maintain the soil quality. As a result, it has the effect of promoting the growth of trees growing in the mountains and preventing forest fires in advance, and by this action, there is a significant effect of changing the desert into the soil by preventing desertification of land caused by drought. .

In addition, through the discharge port formed on the side of the hydrology, various living organisms and fish in the river can be moved upstream to restore or maintain the ecosystem.

In addition, the present invention can continuously discharge the amount of water flowing from the upstream of the stream through the lower end of the water gate, not only does not increase the pollution of water but also contaminants contained in the water in the reservoir space in the water gate There is a significant effect that acts to be naturally purified by various actions to be naturally exerted to clean water.

1 is a perspective view showing a state standing up the water gate applied to the eco-friendly power generation system combined water purifier according to the present invention,
Figure 2 is a perspective view showing a state of producing electricity by opening the power generation aberration cover configured in the lower end of the water gate applied to the water purifier combined eco-friendly power generation system according to the present invention,
Figure 3 is a perspective view of the open state showing the state of the discharged river water stored in the interior of the water gate applied to the water purifier combined eco-friendly power generation system according to the present invention,
Figure 4 is a perspective view showing the configuration of the opening and closing operation device is configured on the side of the water gate applied to the eco-friendly power generation system combined water purifier according to the present invention,
Figure 5 is a side cross-sectional perspective view of the water gate consisting of a double combined state of the front and back sluice plate applied to the eco-friendly power generation system combined with a water purifier according to the present invention,
Figure 6 is a perspective view showing a state in which the upper surface of the front plate of the water gate composed of double in the water purifier combined eco-friendly power generation system according to the present invention,
Figure 7 is a perspective view of the hydrological frame combined state in a state of removing all the upper portion of the water gate composed of double in the water purifier combined environmentally friendly power generation system according to the present invention,
8 is an exploded perspective view illustrating a state in which a hydrological frame and a power generation aberration which are dually constituted in an eco-friendly power generation system combined with a water purifier according to the present invention are disassembled;
9 is a perspective view showing a state in which the rear gate plate is removed in the state standing up the double sluice gate according to an embodiment of the present invention,
10 is a perspective view from the front showing a state standing up the water gate applied to the eco-friendly power generation system combined water purifier according to the present invention,
Figure 11 is a perspective view from the rear showing a state standing up the water gate applied to the eco-friendly power generation system combined water purifier according to the present invention,
12 is a perspective view showing a state in which the water pressure-reinforced induction plate configured to the upper portion of the front of the water gate applied to the water purifier combined eco-friendly power generation system according to the present invention,
Figure 13 is a front perspective view showing the configuration of the foundation concrete and the airway and the operation housing and the water gate dredging the river in accordance with the present invention and configured on the river floor
Figure 14 is a rear perspective view showing the configuration of the foundation concrete, airway, operating housing and sluice dredging the river according to the present invention is configured on the river floor,
15 is a front perspective view showing a state in which a working housing is removed from a water gate applied to an eco-friendly power generation system combined with a water purifier of the present invention;
FIG. 16 is a rear perspective view illustrating a state in which a working housing is removed from a water gate applied to an eco-friendly power generation system combined with a water purifier of the present invention;
17 is a perspective view illustrating a state in which electricity is generated by opening a generator aberration protection cover at a water gate applied to an eco-friendly power generation system combined with a water purifier of the present invention;
18 is a perspective view showing a state in which the water gate applied to the water purifier combined eco-friendly power generation system of the present invention is opened and inverted,
19 is a perspective view showing a state in which the water pressure-reinforced induction plate configured to the upper end of the front sluice plate in a state in which the water gate applied to the eco-friendly power generation system combined with the water purifier of the present invention is opened and inverted,
20 is configured to the upper side of the lower support pipe by removing the side cover after removing the pressure-reinforced induction plate configured to the upper end of the front sluice plate in the state in which the water gate applied to the eco-friendly power generation system combined with the water purifier of the present invention in an open state. Perspective view showing an adjustment cylinder for adjusting the front and bottom water inlet control block and the front and bottom water inlet control block,
21 is a side and the other side of the lower support pipe by removing the side cover after removing the pressure-reinforced induction plate configured to the upper end of the front sluice plate in the state in which the water gate applied to the eco-friendly power generation system combined with the water purifier of the present invention in the open state A perspective view showing a state in which the upper and lower control cylinders configured to be moved to move the lower stream inlet control block in a downward direction,
Figure 22 is a front view of the hydrological frame front view showing the front river water inlet control rod in the state of removing the water pressure strengthening guide plate after standing the water gate applied to the eco-friendly power generation system combined water purifier of the present invention,
Figure 23 is removed from the front hydroplate and the hydraulic intensification guide plate to indicate the configuration of the front stream water inlet control rods that are configured between the front hydroplate and the pressure-enhanced guide plate applied to the eco-friendly power generation system combined with the water purifier of the present invention Perspective view showing the configuration relationship between the hinge of the rear hydroplate and the hydraulic pressure-guided guide plate in the state and the configuration of the front stream inlet control rod and the stream inflow control cylinder,
24 is a comprehensive perspective view of the water purifier combined eco-friendly power generation system configured according to the present invention,
25 is a multi-crusher, a third contaminant screw feeder, floating, which is formed inside the river water processing box by removing a portion of the channel side wall combined with the river water processing box is constituted in the eco-friendly power generation system combined with a water purifier according to the present invention An exploded perspective view showing the coupling relationship between the material collection rotating bucket, the fourth contaminant screw feeder and the fifth suspended material molecular collector;
26 is a perspective view showing a state of the water purifier combined eco-friendly power generation system constructed in accordance with the present invention as viewed from the downstream right side of the stream to the upstream side,
27 is a perspective view showing a state in which the water purifier combined eco-friendly power generation system constructed in accordance with the present invention is viewed from the upstream right direction to the downstream side of the stream;
28 is a perspective view showing a state in which the water purifier combined eco-friendly power generation system constructed in accordance with the present invention is viewed in a downstream direction from an upstream left direction of a river;
29 is a perspective view of a secondary suspended solids remover applied to an eco-friendly power generation system combined with a water purifier according to the present invention;
30 is a rear perspective view of a floating material collection rotating bucket applied to an eco-friendly power generation system combined with a water purifier according to the present invention;
31 is a side perspective view of a floating material collection rotating bucket applied to an eco-friendly power generation system combined with a water purifier according to the present invention;
32 is a perspective view of the fifth suspended solids molecular collectors applied to the eco-friendly power generation system combined water purifier according to the present invention,
33 is a perspective view of a multi-crusher applied to an eco-friendly power generation system combined with a water purifier according to the present invention,
34 is a perspective view of a third contaminant screw feeder and a fourth contaminant screw feeder applied to an eco-friendly power generation system combined with a water purifier according to the present invention;
35 is a perspective view of a primary contaminant screw feeder applied to an eco-friendly power generation system combined with a water purifier according to the present invention;
36 is a perspective view showing a standing state of a sluice gate coupled with a scavenger feeder which is installed on the front of the sluice gate constructed in accordance with the present invention and collects garbage and contaminants introduced from an upstream of the stream to remove them out of the stream;
37 is a state in which the trash conveyor is installed on the front of the water gate configured in accordance with the present invention to collect the garbage and contaminants introduced from the upstream of the stream to remove the out of the stream and the trash contaminated with Perspective view showing the conduction state of the combined hydrology,
38 is a perspective view illustrating a state in which a crusher is installed on the front of a sluice formed in accordance with the present invention and crushes rubbish and contaminants introduced from an upstream of a river with a sluice;
FIG. 39 is a view illustrating a state in which a crusher which is installed on the front of a sluice formed in accordance with the present invention and crushes rubbish and contaminants introduced from an upstream of the stream is transferred to one side of the river during a flood and a state where the sluice is conducted. One Perspective,
40 is an inlet for processing the pollutant substance molecules discharged from the contaminated stream water final discharge pipe constituted at the top of the end of the stream water processing box constructed in accordance with the present invention and separating and processing them into clean water molecules and pollutant molecules. 2 is a perspective view constructed in accordance with the first embodiment of the discharge processing apparatus,
41 is a perspective view of the internal configuration of the inlet two-outlet processing apparatus according to Figure 40,
FIG. 42 is an exploded perspective view configured according to the one inflow two discharge processing device according to FIG. 40;
43 is a perspective view of a second embodiment of the inlet two-outlet processing apparatus constructed in accordance with the present invention;
44 is a perspective view of the internal configuration of the inlet two-outlet processing apparatus according to FIG. 42;
FIG. 45 is an exploded perspective view configured according to the one inflow two discharge processing device according to FIG. 42;
46 is an exploded detailed perspective view configured in accordance with the first inlet two-out processing device according to FIG. 42;
47 is a front perspective view showing a state in which a water gate configured using a 3D printer in a river according to the present invention;
48 is a rear perspective view showing a state in which a water gate installed using a 3D printer in a river according to the present invention;
49 is an exploded interior perspective view of the front surface of a water gate constructed using a 3D printer according to the present invention;
50 is an internal perspective view illustrating a state in which a stream water discharge passage supporter configured to be protruded in a water gate configured using a 3D printer according to the present invention is protruded;
51 is an internal perspective view showing a state before constructing a discharge passage supporter in a water gate constructed using a 3D printer according to the present invention;
52 is an internal perspective view showing a state before constructing the discharge passage supporter and the horizontal supporter in the water gate constructed using the 3D printer according to the present invention;
FIG. 53 is an exploded perspective view illustrating a state in which a lower support pipe separately coupled to a discharge passage supporter and a horizontal supporter is separately separated from a water gate configured using a 3D printer according to the present invention;
54 is a perspective view showing a state in which a hydrostatically enhanced guide plate configured in the upper portion of the front of the water gate in a state in which the water gate constructed using the 3D printer according to the present invention is shown in the upstream direction from the downstream side of the river;
FIG. 55 is a water stiffening guide plate formed on the front top of the water gate in a state in which the water gate constructed using the 3D printer according to the present invention is shown in the upstream direction from the downstream side of the river, and is configured in the rear hydroplate. Perspective view showing a state in which power generation aberrations have been removed;
Figure 56 is combined with the rear hydroplate frame after removing the water pressure strengthening guide plate formed in the upper portion of the front of the water gate in the state shown in the direction of the upstream from the downstream side of the river is constructed using a 3D printer in accordance with the present invention An exploded perspective view showing a state in which the rear sluice plate is removed,
57 is a perspective view illustrating a state in which a water gate configured as a 3D printer is inverted according to the present invention;

The present invention cleans the polluted rainwater from the point source and the nonpoint source without chemicals and filters, and at the same time, completely cleans various wastes and fluid contaminants contained in the rainwater to produce electricity. The invention relates to a combined eco-friendly power generation system and is configured as follows.

With reference to Figures 24 to 35, the eco-friendly power generation system combined with a natural water purifier is configured as follows.

Water gate (1000) according to the present invention is dredging the river and install the foundation concrete on the bottom of the river and interlock with the generator 200 and the power generation aberration (202) to produce electricity by storing the river water by blocking one side and the other side of the river do.

One side of the sluice gate 1000 is formed with a water supply wall, and the other side is combined with the water supply wall is a river water processing box 117 is composed of a river water inflow channel 1003.

On the upper side of the river water inflow channel 1003, a primary inflow rate regulating gate 103 is configured.

Push the floating material wastes and particulate matters to the upper portion of the river water by the action of gravity and the action of specific gravity on the front portion of the primary inflow control gate 103 to the outside of the river water processing box 117 The primary contaminant screw feeder 1001 for feeding out is configured to be combined with the rotor 302 and the rotor support 301.

Eco-friendly power generation system combined with a nature-friendly water purifier, the primary suspended solids collecting conveyor 1002 disposed at the end of the screw feeder 1001; In the rear portion of the primary inflow control door 103 is combined with the reverse debris blow eliminator 218, the rotary rake collector 219, the debris hanger 220 and the garbage collection conveyor 221 and the like to collect the suspended matter and garbage Secondary suspended solids remover 105 for removal by; An air jet plate 107 coupled to an air generating device (not shown) while simultaneously injecting air to the bottom of the river water processing box 117 to float particulate matters and ultra-fine particles having a low specific gravity to an upper layer;


The vibration damper 105 is installed in a triple combination with the rotor 204 and the rotor support 303 on the river water inlet 1003 in the following process, and the ultra-fine particles having a light specific gravity are external to the river water processing box 117. A third contaminant screw feeder 108, which is pushed out and conveyed to the feed; A tertiary suspended solids collecting conveyor (118) for collecting the wastes and contaminants collected by the tertiary contaminant screw feeder (108) on the end of the tertiary contaminant screw feeder (108); Forward rotary bodies 205 and 207 and reverse rotary bodies 206 and 208 are cross-installed on the lower end of the third suspended solids collecting conveyor 118 so that the particulate matter and the ultrafine particulate matter are reversed and rotated forward. A multi-cross mill crusher 130 for processing the particulate contaminant molecules contained in the contaminated river water into fine ultrafine magnetic material molecules by crushing them and then striking them; The rotary bucket 212, the contaminant injection remover 215, the submersible pump 216, the connecting pipe 214, the support 213 is formed on the rear surface of the tertiary contaminant screw feeder 108, particulate matter A floating material collection rotating bucket 109 for collecting and transporting floating material molecules floating on the water while collecting the ultra-fine particles having a low specific gravity; A fourth suspended solids collecting conveyor 110 which conveys particulate matters and ultra-low specific gravity particles collected on the rear portion of the suspended solids collecting rotation bucket 109; It is composed by combining the rotary body 204 and the rotary support 303 on the rear portion of the conveyor 112 for collecting the suspended solids, and collects particulate contaminants and ultra-fine magnetic impurities that rise to the upper layer. A fourth contaminant screw feeder (111) acting to push and transport it to the outside of the river water processing box (117); A conveyor for collecting 5th suspended solids, which collects and collects the particulate matters and the ultrafine particles having a low specific gravity; Floating material removal collection plate 209 and the rotating belt (not shown) that is sequentially coupled to the rotating belt (not shown) coupled to the rotating body (not shown) on the rear portion of the fourth contaminant screw feeder (111) Particulate collection guide plate 210 is sequentially coupled; A fifth floating material molecule collector 113 to which the floating particulate material floating guide plate 211 is provided to prevent the collected particulate floating material molecules from being separated from the outside of the rotating belt (not shown); Particles configured on one side and the other side of the fifth suspended solids molecular collector 113 when the fifth suspended solids molecular collector 113 is installed in the river water processing box 117 to act to collect particulate suspended solids. And floating floating material molecule floating guide plate 211.

The multi-cross crusher 130 is used to grind the contaminants and particulate suspended solids contained in the river water into smaller and ultra-small micromolecular material molecules. It is intended to induce it to be deformed. The shape of the multi-cross grinder 130 is shown only the approximate shape as the configuration can be changed as much as possible using a variety of known grinders.

The configuration of the particulate floating material molecule floating guide plate 211 is configured in the upstream direction of the river water processing box 117 is configured to be located on the surface of the river water with a small height, the river water processing box 117 Particle floating material molecule floating guide plate 211 configured in the downstream direction of the size is configured to submerged about 1cm to 15cm below the water surface of the river water by the action of gravity Complete collection and removal work.

That is, since the upper portion of the stream water continuously introduced from the upstream flows with contaminated stream waters having light gravity, the floating particle guide plate 211 positioned in the upstream side is installed in a shape floating on the water. And the particulate floating material molecule floating guide plate 211 installed in the downstream direction is positioned at a depth of about 1 cm to 15 cm below the surface of the river water to block the particulate floating material molecules having a light specific gravity.

Eco-friendly power generation system combined with a natural water purifier, the water reservoir and rainwater reservoir 120 for storing the river water processed in the next step of the river water processing box 117; A river water discharge pipe 119 having a specific gravity that connects the lower portion of the river water processing box 117 by using a discharge control valve (not shown); It is disposed on the upper downstream side of the river water processing box 117 to connect to the sewage treatment plant that is configured separately to the outside or to connect to the inlet (2011) of the particulate contaminant molecule processing processing device 2000, the specific gravity is light It further includes a final discharge pipe 118 for discharging the particulate contaminant molecules to the outside.

 95wt% to 99.99wt% of the inflow from the upstream of the river by installing an emission control gate 116 to control the discharge of the river water flowing from the upstream of the stream at the end of the river water processing box 117 By adjusting to discharge the discharged to the downstream of the river is a heavy specific gravity clean river or discharge to the water reservoir and rainwater reservoir 120.

Through this, the remaining particulate contaminant molecules 0.001wt% to 5wt% that floats to the upper end of the river water processing box 117 when the river water is stored are collected by discharged into the final discharge pipe 118 and then processed into pollutant molecules. The device 2000 may be reprocessed or sent to a sewage treatment plant for treatment.

The eco-friendly power generation system combined with a natural water purifier according to the present invention completely cleans various pollutants and contaminants contained in rainwater generated from point sources and nonpoint sources without chemicals and filters, and cleans and cleans contaminated water. At the same time, it functions to produce electricity.

Hereinafter will be described the hydrology consisting of various forms according to the present invention applied to the eco-friendly power generation system combined with a natural water purifier.

[First of sluices Example ]

Referring to Figures 1 to 12 will be described the water gate constituting the eco-friendly power generation system combined with a nature-friendly water purifier.

Sluice according to the present invention,

An operating device housing (100) configured with an operating device (not shown) for operating the water gate 1000 on one side and the other side of the foundation concrete installed by dredging the river bottom; 10 cm ~ 50 cm below the water surface of the low water upstream portion of the low water level is disposed by the water inlet 902, which is disposed on the lower end of the foundation concrete and coupled with the esophagus passage 900 to be described later, the water gate 1000 configured to store the river water An egress passage 900 having an egress outlet 901 coupled to a foreign matter inflow prevention port 932 in a reversed U-shape at the point; A front sluice frame 600 that supports the front sluice plate 101 and couples the front sluice plate 101 to it; A rear sluice frame 500 that supports the rear sluice plate 102 and couples the rear sluice plate 102 to it; A front sluice index cover 602 composed of a semi-circular structure of a U-shape at an upper end of the front sluice plate 101; A rear sluice index cover 503 that is configured to rotate with the front sluice index cover 602 in a semicircular structure in a U-shape on an upper end end of the rear sluice plate 102; A front sluice hinge bracket 502 configured in plural on the top sluice frame 600; A rear sluice hinge bracket (300) configured in plural on the rear sluice frame (500); Front and rear sluice coupling pins 501 for hinge coupling the front sluice frame 600 and the rear sluice frame 500 by hinge coupling the front sluice hinge bracket 502 and the rear sluice hinge bracket 300. ; A power generation aberration housing (601) configured of a semi-circular structure having a U-shape at a lower end of the rear sluice plate (102); A power generation aberration 202 configured to be coupled to the generator 200 inside the power generation aberration housing 601; A generator cover 201 that protects the generator 200 and the power generation aberration 202 configured at one side and the other side of the power generation aberration housing 601, and is coupled with the generator cover hinge 203; At least 15% to 35% wider than the discharge width of the river water outlet 702 is configured at the upper end while the narrow river water outlet 702 is configured on the upper end of the front sluice plate 101 Hydraulic pressure reinforcement guide plate 701 constituting the river water inlet 703; It includes; and the pressure-reinforced guide plate 700 is coupled to the upper end of the pressure-reinforced guide plate support 701.

The water pressure is increased by making the width and width of the river water inlet 703 formed at the lower end of the water gate 1000 wider and larger, and the size and width of the river water outlet 702 from which the river water is discharged smaller than the river water inlet 703. By causing the action of gravity to be generated more at the river water outlet 702 side configured to the upper end to rotate the power generation aberration 202 configured in the rear sluice plate 102 to produce a greater amount of electricity. In other words, Pascal's principle is to produce electricity at a higher pressure.

As described above, the river water inlet (703) is formed through the river water inlet 703 is formed at the lower end of the pressure-reinforced guide plate 700 pushes the polluted river water with a light weight specific gravity, the river water outlet configured in the upper layer of the water gate ( 702 is first discharged while maintaining strong water pressure according to Pascal's principle.

Rotating the power generation aberration 202, which is combined with the generator 200 configured at the lower end of the rear sluice plate 102, with a strong water pressure to produce a greater amount of electricity and at the same time storage inside the sluice 1000 The contaminated river waters, which have a light weight in the upper layer of the sluice stream 1000, overflow from the river water inlet plate 700, and are discharged through the river water outlet 702. Automatic dilution leads to improved quality of contaminated river water.

At the same time, the electricity generated by rotating the power generation aberration 202 coupled to the generator 200 to produce electricity, and the material friction action and material collision action generated while the contaminated river water collides with the power generation aberration 202. It provides an eco-friendly power generation system that combines water-friendly water purifiers with natural water purification.

The eco-friendly power generation system performs a function of completely treating various wastes and contaminants contained in rainwater generated from point sources and nonpoint sources without chemicals and filters, and then purifying contaminated water to clean and produce electricity at the same time. .

[Second Water Gate 2 Example ]

Referring to Figures 13 to 23 will be described the water gate constituting the eco-friendly power generation system combined with a natural water purifier.

Sluice according to the present invention,

Actuator housing 100 for operating the water gate 1000 on one side and the other side of the foundation concrete installed by dredging the river bottom; An operating device (not shown) of the water gate 1000 configured inside the operating device housing 1000; An operating hinge 805 installed by connecting one side and the other side of the operating device; A lower support pipe 833 configured in the middle of the operating hinge 805; A front sluice plate 800 disposed at an upper end of the support pipe 833; The action of gravity concentrated downward on the upper end of the front sluice plate 800 to the upper layer to generate a stronger hydraulic pressure toward the upper layer, the lower portion is 10% to 35% or more wider than the upper portion of the trapezoidal form of water pressure strengthening Guide plate support 821; A front stream water inlet control block 822 installed between the pressure-reinforced guide plate support 821; In the state of being disposed on the inner side and the other side of the lower support pipe 833 is configured at the lower end of the front stream water inlet control block 822, the front stream water inlet control block 822 is adjusted up and down A stream water inflow control cylinder 823 for opening and closing the bottom stream water inlet 802 formed at the bottom front portion of the plate 800; It includes; and a hydrostatic reinforced guide plate 820 disposed between the front sluice plate 800 and the hydrostatically reinforced guide plate support 821.

 The water pressure strengthening guide plate 820 has a shape of a lower portion of the front lower portion of the river water inlet 802 between the front sluice plate 800 and the water pressure strengthening guide plate support 821 than the width and size of the upper stream water outlet 803. 15% to 35% is made larger and wider, and at the upper end of the front sluice plate 800 and the hydraulically reinforced guide plate support 821, the effluent is discharged preferentially to clean heavy water of heavy gravity. The upper stream water outlet 803 that generates a strong water pressure toward the upper portion of the 1000 is composed of □ -shaped.

Sluice according to the present invention,

A rear sluice plate 801 that is hinged by a front, rear sluice coupling hinge 831 on a rear portion of the front sluice plate 800; A power generation aberration 808 constituting a power generation aberration housing (not shown) having a U-shape at a lower end of the rear sluice plate 801 and coupled to a generator 809 inside the power generation aberration housing; An upper portion of the power generation aberration 808 protects the power generation aberration 808 when the water gate 1000 is opened during a flood, and the power generation aberration protection cover coupled by the power generation aberration protection cover hinge 811 ( 810).

In the present invention, the lower stream water inlet 802 into which the river water flows is configured to be wider and larger than the size and width of the upper stream water outlet 803 formed at the upper end side. This is to produce electricity with a stronger hydraulic pressure using the principle of Pascal, so that clean river water having a heavy specific gravity introduced through the lower stream water inlet 802 configured at the lower end of the hydraulic pressure inducing plate 820 is lightly contaminated. Through the river water upper outlet 803 is formed in the upper layer of the water gate 1000 while pushing the river water is discharged preferentially while maintaining a strong water pressure in accordance with the principle of Pascal.

The present invention is to rotate the power generation aberration 808, which is combined with the generator 809 configured at the lower end of the rear sluice plate 801 at a high water pressure to produce a greater amount of electricity and at the same time the sluice 1000 Of the river water stored in the interior of the water polluted river water having a light weight in the upper layer of the floodgate 1000 flows through the pressure-reinforced guide plate 820 and the heavy discharged through the lower stream water inlet 802 is heavy Automatic dilution with clean streams improves the quality of contaminated streams.

At the same time, electricity is generated by continuously rotating the power generation aberration 808, which is combined with the generator 809, by the material friction action and the material collision action generated while the contaminated river water collides with the power generation aberration 808. It provides an eco-friendly power generation system that combines with a water-friendly water purifier that operates polluted river water naturally.

The eco-friendly power generation system performs a function of completely treating various wastes and contaminants contained in rainwater generated from point sources and nonpoint sources without chemicals and filters, and then purifying contaminated water to clean and produce electricity at the same time. .

As described above in detail with respect to the operating device for operating the water gate configured in accordance with various embodiments as described above, this operation method may be a known technique bar description thereof.

In addition, the manner of operating the water gate configured in accordance with the present invention can be configured to change the operating system by applying a pneumatic actuating device or configured by the rear-actuated or rope-operated.

The following describes the sluice coupled to the contaminant feeder using FIGS. 36 to 37.

The sluice gate combined with the junk conveyor,

An operating device housing 100 installed at one side and the other side of the foundation concrete dredging the river bottom to operate the water gate 1000; A screw screw feeder 310 configured to transfer various wastes and particulate matters introduced from an upstream of the stream to one side of the actuator housing 100; While supporting the complex feeder support 315 that acts to prevent torsion or malfunction when the complex feeder 310 is operated, during the flood, the complex feeder 310 is raised to rotate out of the river. And a contaminant operating table 312 coupled with the cylinder and the cylinder rod, which serve to raise the rotating device and the contaminant feeder 310.

The rotary device coupled with the contaminant screw feeder 310 refers to a planar rotary device that is rotated in the left and right directions, and these devices may have a wide variety of known technologies. On the other hand, the device for rotating the bucket to the left and right of the fork-lane is a representative configuration omits the detailed structure of the rotating device.

The screw screw feeder 310 coupled to one side and the other side of the contaminant operating table 312 is more than 에서 at a depth of about 10 cm to 50 cm from the upper depth of the river stored by the sluice 1000, the upper end of the sluice 1000 It is installed in an injured state to act to collect the wastes and particulate matters that float to the upper part of the river due to the difference in gravity and gravity.

On the other end of the contaminant operating table 312, the stream water using the structure of the contaminant conveying conveyor 311 acts to collect the garbage and the particulate contaminants pushed out of the stream by the contaminant screw feeder 310 Various wastes and particulate matter contained in the stream flowing down from the upper stream are collected and transported out of the stream. To this end, various wastes and particulate contaminant molecules contained in the river water are perfectly used by using the screw screw transporter 310, which is configured to be in close contact with the water gate 1000 installed at one side of the river water processing box 117. It provides an eco-friendly power generation system for water purifiers combined with a screw screw transporter 310 to clean the polluted river water by collecting. The eco-friendly power generation system produces electricity by completely treating various wastes and fluid contaminants coming from point sources and nonpoint sources without filters and chemicals and purifying them with clean water.

The following describes the sluice coupled to the contaminant feeder using FIGS. 38-39.

The sluice gate combined with the junk conveyor,

An operating device housing 100 installed at one side and the other side of the foundation concrete dredging the river bottom to operate the water gate 1000; On the one side of the operating device housing 100 to prevent the twisting or malfunction when the fine particle crusher 320 pulverizes the various particles and particulate contaminants introduced from the upstream of the stream and pulverizes into the material molecules of the ultra-fine particles Cylinders and cylinders that act to lift the crusher 320 and the rotary device configured to rotate the crusher crusher 320 and then rotate out of the river at the time of flooding, while supporting the crusher support 316 that serves to act. A miscellaneous manipulator 312 coupled with the rod; It includes a grind mill 320 is coupled to one side and the other side of the clutter operation table (312).

The contaminant crusher 320 is installed at a depth of about 10 cm to 50 cm from the upper depth of the river, which is stored by the sluice 1000, in a state in which the crushed material is lifted to the upper portion of the sluice 1000 to determine the effect of gravity and specific gravity. Due to the difference, the microparticles and the particulate matters that float to the upper part of the stream are pulverized into ultra-fine particles, and the contaminant molecules of the ultra-fine particle component pulverized into the inside of the river water processing box 117 constituted on the side of the water gate 1000. After flowing along the flow of water naturally, it collects the pulverized ultrafine particles in sequence by using the collection system composed of each stage to act to purify the contaminated river water into clean river water.

This water purifier combined with an eco-friendly power generation system produces electricity by completely treating various wastes and fluid contaminants coming from point sources and nonpoint sources without filters and chemicals and purifying them with clean water.

The type of the grinder to be applied to the present invention shows a roughly the shape of the grind material grinder because it can be changed in various ways.

Next, an embodiment of the river water striking device using the one inflow two discharge method will be described with reference to FIGS. 40 to 42.

The 1 inlet 2 discharge processing device according to the present invention is a clean water molecule by hitting the contaminated river water with a high content of pollutant material molecules discharged to the contaminated river water final discharge pipe constituted at the upper end of the river water processing box Processing.

The processing device 2000 for pulverizing the contaminated river water by grinding the ultra-fine particles, is configured at the end of the river water processing box 117 coupled to the water gate 1000, the inlet control valve for controlling the inflow of pollutants (2012) and the contaminated stream water final discharge pipe 118 that is piped with the inlet pipe (2011).

The processing device 2000 has a rectangular rectangular shape, and includes a driven shaft 2010 and a drive shaft 2009 connecting one side and the other side of the processing device 2000; A driven gear 2008 disposed on one side of the driven shaft 2010; A drive gear 2007 disposed on one side of the drive shaft 2009; A rotating body 2006 such as a motor configured to cross-rotate the drive shaft 2009 and the driven shaft 2010 in the forward and reverse directions on the other side of the drive shaft 2009; A separation prevention coupling 2016 configured at one side and the other side of the driven shaft 2010 configured inside the processing apparatus 2000; A rotating rod support ring 2017 disposed between the anti-separation coupling 2016; A plurality of rotating rods (2015) for hitting fluid contaminant molecules and solid contaminant molecules on the rotating rod support ring (2017); A circular rotary striking body 2013 that is coupled to the rotation bar 2015 on the drive shaft 2009 that is configured inside the processing apparatus 2000 and is coupled to the release preventing ring 2018; A plurality of grooves in a U-shape configured to strike the fluid contaminant molecules and the solid contaminant molecules on the outer circumferential surface of the circular rotating striking body 2013; A plurality of grooves configured to strike the fluid contaminant molecules and the solid contaminant molecules inside the disk of the circular rotating striking body 2013; An upper discharge pipe 2001 coupled to the upper discharge control valve 2002 to discharge the fluid contaminant molecules having a low specific gravity at an upper side of the processing apparatus 2000; And a lower end discharge pipe 2003 configured to be coupled to the bottom discharge control valve 2005 and discharge fluid materials having heavy gravity in the lower side of the processing apparatus 2000.

As described above, the processing apparatus 2000 configured as described above through the contaminated river water final discharge pipe 118 and the inlet pipe 2011 constituted at the end of the river water processing box 117 coupled with the water gate 1000. The fluid contaminant molecules and solid contaminant molecules that flow into the interior are continuously blown, and are processed by pulverizing and discharging them into ultra-fine particles of very small size.

The first inflow and two outflow water treatment systems are composed of 90WT% to 99.99WT% of the heavy molecules with heavy weights compared to the total inflow of 100WT% of the fluid pollutant molecules and the solid pollutant molecules introduced through the inflow pipe (2011). The discharge pipe 2003 is discharged, and the pollutant substance molecules 0.01WT% to 10WT% having a light specific gravity are discharged by adjusting the lower discharge control valve 2005 so as to be discharged to the upper discharge pipe 2001.

The eco-friendly power generation system combined with a natural water purifier that cleans contaminated river water by using the blow treatment system completely processes various wastes and fluid contaminants introduced from point sources and nonpoint sources without filters and chemicals to clean water. Produce electricity while purifying.

The contaminant molecules, which are formed on the upper side of the processing apparatus 2000 and discharge the fluid contaminant molecules having a low specific gravity, are sent to the stream treatment plant to be reprocessed or the coal or It can be mixed with oil and used as energy.

On the other hand, those skilled in the art can adjust the number of installation of the rotating rod (2015) and the circular rotary striking body (2013) coupled with the driven shaft and the drive shaft configured in accordance with the above-described embodiment, the number of the driven shaft connected to the drive shaft It will be natural to be able.

Next, another embodiment of the river water striking device using the one inflow two discharge method will be described with reference to FIGS. 43 to 45.

The 1 inlet 2 discharge processing device according to the present invention is a clean water molecule by hitting the contaminated river water with a high content of pollutant material molecules discharged to the contaminated river water final discharge pipe constituted at the upper end of the river water processing box Processing.

The processing device 2000 for pulverizing the contaminated river water by grinding the ultra-fine particles, the inlet control valve is configured at the end of the river water processing box 117 is coupled to the water gate 1000 to control the influx of pollutants ( Contaminated stream water final discharge pipe 118 that is piped with 2012 and an inlet pipe 2011; A driven shaft 2010 and a drive shaft 2009 connecting one side and the other side of the processing apparatus 2000; Driven gear 2008 and drive gear 2007 coupled to the other side of driven shaft 2010 and the other side of drive shaft 2009, respectively; A rotating body 2006 such as a motor disposed to cross-rotate the driving shaft 2009 and the driven shaft 2010 in the forward and reverse directions on one side of the driving shaft 2009; A groove is formed in an irregular shape between the spaced ring 2019 that maintains a constant gap on the driven shaft 2010 configured inside the processing apparatus 2000, and a disk coupled to the separation preventing coupling 2017, respectively. Driven circular rotating striker 2040 in the form; The drive shaft 2009 is formed in the processing device 2000, the groove is formed in the form of a date between the spacer ring 2019 that maintains a constant interval, and is separated while being cross-coupled with the driven circular rotary striking body 2040 A drive circular rotating striking body 2050 in the form of a disk, each coupled with the prevention coupling 2017; An upper discharge pipe 2001 configured to be coupled to the upper discharge control valve 2002 while discharging fluid contaminant molecules having a light specific gravity at an upper side of the processing apparatus 2000; And a lower end discharge pipe 2003 coupled to the bottom discharge control valve 2005 while simultaneously discharging the heavy specific fluid material molecules.

The processing apparatus 2000 may have a rectangular rectangular structure.

Through the contaminated river water final discharge pipe 118 and the inlet pipe (2011) configured at the end of the river water processing box 117 coupled with the water gate (1000) into the interior of the processing device (2000) Fluid contaminant molecules and solid contaminant molecules are introduced.

The processing device 2000 continuously hits the contaminants introduced and pulverizes them into ultra-fine particles of very small size and discharges them through the inlet pipe 2011, and solid contaminants. Among the molecules, 95WT% ~ 99.99WT% of heavy molecules, which are heavier than 100WT% of influent molecules, are discharged to the lower discharge pipe (2003), and 0.01WT% ~ 5WT% of pollutant molecules with light gravity are upper discharge pipes ( 2001) to clean the polluted river water by double discharge.

The inventors of the present invention, the first inflow two discharge stream water treatment system completely treats various wastes and fluid contaminants introduced from point sources and nonpoint sources without filters and chemicals to produce electricity while purifying clean water.

Specifically, contaminated stream water flowing into the processing apparatus 2000 continuously flows contaminant material molecules into the grooves formed in the driving circular rotary striker 2050 and the driven circular rotary striker 2040. At the same time, when the driving circular rotary striking body 2050 and the driven circular rotary striking body 2040 that strike at high speeds intersect and strike and process contaminant molecules at the same time, they are lightly polluted by gravity. The lower portion of the processing box 2000 to separate the molecules and clean water molecules having a heavy specific gravity in two, so that the pollutant molecules having a light specific gravity are discharged to the upper discharge pipe 2001 configured on the other side of the upper end of the processing box 2000. Adjust the lower discharge control valve 2005 is configured to be coupled to the lower discharge pipe 2003 is configured in.

Through this, 90WT% ~ 99.99WT% of the clean material molecules heavy heavy relative to the total amount of inlet material molecules 100WT% flowing into the first inlet 2 discharge processing box (2000) of the present invention is discharged to the lower discharge pipe (2003), the specific gravity is light Contaminant molecule molecules 0.01WT% ~ 10WT% are discharged to the upper discharge pipe (2001) to finally blow out the clean water molecules and contaminant molecules contained in the pollutant molecules.

On the other hand, the shape of the drive circular rotary strike member 2050 and the driven circular rotary strike member 2040 configured in the interior of the processing apparatus 2000 can be changed in various ways. As an example, a V-shaped pleat or a mill-like pleat may be formed to increase frictional strength on the inner surfaces of the driving circular rotating striking member 2050 and the driven circular rotating striking member 2040.

Next, a water gate constructed using a 3D printer will be described with reference to FIGS. 47 to 57.

The front sluice plate 800 using a 3d printer produced in a rectangular shape,

An operating hinge holder 850 for supporting the operating hinge bar 860 at one side and the other side of the lower end of the front hydrologic plate 800; An operation device 910 configured to be coupled to an operation cylinder to an operation hinge rod 860 configured at one side and the other side of the front hydrograph 800; An actuator housing 100 disposed outside the actuator 910; A lower support pipe 830 having a rectangular fitting hole 930 formed at one side and the other side; Horizontal support 861 disposed on the upper end of the lower support pipe 830; A river water discharge passage support 883 coupled to the front sluice plate 800 and the horizontal support 861 and configured with a N-shaped front stream water inflow control block guide jaw 872; A plurality of operating hinges 920 which hinge-couple the rear door sluice plate 801 and the front sluice plate 800 to the upper end of the front sluice plate 800; It includes a river water inflow control block 870 is installed on the upper end of the river water inflow control block guide jaw 872 configured in the river water discharge passage support (883).

One side and the other side of the stream inflow control block 870 is coupled with the river water inflow control block operation cylinder 871 and the other side of the rear surface of the river water inflow control block operation cylinder 871 is combined with the river water discharge passage support 883. The shape of the stream water discharge passage support 883 is preferably configured in the form of a lower light cross-border so as to exert an effect that the water pressure is generated strongly toward the upper side according to the Pascal principle.

A water pressure strengthening guide plate 890 having the front lower portion of the river water inlet 883 is configured at the upper end of the lower support pipe 830, the horizontal support 861, and the river water discharge passage support 883 to constitute the upper stream water outlet 803. And, the upper stream water outlet 803 is configured to communicate with the front lower portion of the river water inlet 833 is formed in the lower portion of the hydraulic pressure inducing plate 890.

The rear sluice frame 880 on the grid is hinged to the operating hinge 920 configured at the upper end of the front sluice plate 800. Since the structure of the operating hinge may be applied in a manner that is commonly used, the detailed structure is omitted and only shown schematically.

The front sluice plate 800 using the printer includes a rear sluice plate 801 having a power generation aberration housing 600 formed in a U-shape at the lower end of the rear sluice frame 880; And a power generation aberration 808 coupled to the generator 809 in the power generation aberration housing 601. Generator and power generation aberrations can be configured in a variety of ways.

On the top of the power generation aberration 808, a power generation aberration protection cover 810 for protecting the power generation aberration 808 and the generator 809 during a flood is installed using a hinge. The operating hinge rods 860 are manufactured and prepared separately using a 3d printer, and the operating hinge rods 860 prepared in advance by the 3d printer are inserted into the operating hinge holders 850 and then operate the operating hinge holders 850. The hinge rod 860 is welded and fixed. The lower support pipe 830 may be coupled to the outside of the operating hinge holder 850 and the operating hinge rod 860 by welding or by using an adhesive without using a welding method.

The power generation aberration 808, which is combined with the generator 809 configured at the lower end of the rear sluice plate 801, is quickly rotated with strong water pressure to produce a larger amount of electricity and at the same time inside the sluice 1000. Clean river water having a heavy gravity discharged through the upper outlet 803 of the river water after the polluted river water having a light weight in the upper layer of the hydrologic gate 1000 overflows through the hydraulic-intensity guide plate 890 among the stored river water. And dilution automatically to improve the quality of contaminated river water.

At the same time, by rotating the power generation aberration 808, which is combined with the generator 809, to generate electricity while polluted by the material friction action and material collision action generated while the contaminated river water collides with the power generation aberration 808. It provides an eco-friendly power generation system that combines water-friendly water purifier with natural streams.

The eco-friendly power generation system generates electricity by completely removing various wastes and fluid contaminants contained in rainwater coming from point sources and nonpoint sources without filters and chemicals while purifying them with clean water.

The eco-friendly power generation system combined with the nature-friendly water purifier of the present invention utilizes a triangular water gate provided to purify the contaminated river water with clean water, thereby helping the breeding activities of living creatures and fish in the river to save the river ecosystem. At the same time, clean contaminated river water is cleaned.

In the case of installing the product constituted according to the present invention in the whole river, it is possible to quickly supply a large amount of industrial water and agricultural water by using the river water secured in a large capacity while saving the river ecosystem and farming a large amount of fish. In addition, there is an advantage that can be quickly evolved by using a helicopter by using a large amount of river water is always stored in the fires.

Actuator Housing 101.Front Sluice Plate
102.Rear hydrograph 200.Generator
117. Stream water processing box 118. Polluted river water final discharge pipe
201.Generator cover 202. Power generation aberration
203. Generator cover hinge 300. Rear hydro hinge hinge bracket
500. Rear sluice frame 501. Front, rear sluice mating pin
502. Front Sluice Hinge Bracket 503. Rear Sluice Index Cover
600. Front sluice frame 601. Power generation aberration housing
602.Front hydrologic index cover 700.Hydraulic reinforced guide plate
701.Hydraulic reinforced plate support
703.West stream inlet 800.Front sluice plate
801. Rear sluice plate 802. Lower stream water inlet
803. Rear river water outlet 805. Operating hinge
808. Power Generation Aberration 809. Generator
810.Generation aberration protective cover 811.Generation aberration protective cover hinge
820. Hydraulic Reinforced Guide Plate 821.Hydraulic Reinforced Guide Plate Support
822.Front river water inlet control block 823.Front river water inlet control cylinder
830. River water inlet adjustment block control 831. Front, rear sluice combination hinge
832.Reverse upper upper 833.bottom support pipe
850. Operation hinge holder 860. Operation hinge rod
872.Front stream water inflow control block guide jaw
870. River Water Inflow Control Block 883.
900. Airway Passage 901. Airway Exit
902.The entrance to the river 1000.
2000.Processing box 2001.Top discharge pipe

Claims (18)

In the eco-friendly power generation system that combines the nature-friendly water purifier, which naturally cleans the non-point source and the stream water flowing from the point source,
The eco-friendly power generation system comprises a water gate coupled with a generator and a power generation aberration that generates electricity by storing river water by blocking one side and the other side of the river;
A river water processing box having one side of the floodgate configured with an index wall, and the other side of the hydrologic gate coupled with the index wall;
A primary inflow rate control gate configured at an upper side of the river water inflow channel;
The floating material wastes and particulate matters floating in the upper part of the river water by the action of gravity and the action of specific gravity on the front surface of the primary inflow control gate pushes and transports them to the outside of the river water processing box, the rotating body And a first contaminant screw feeder coupled to the rotating body support; a primary floating material collection conveyor disposed at an end of the first contaminant screw feeder; a reverse foreign material blow eliminator at the rear of the first inflow control door, and rotating A secondary suspended solids remover coupled with components including a rake collector, a debris hanger, and a garbage collection conveyor to collect and remove suspended solids and garbage; Air jet plate to float the miscellaneous goods and ultra-fine particles to the upper layer;
The vibration suppressor is triple-coupled with the rotating body and the rotating body support on the stream inflow path; A third contaminant screw feeder installed on the rear side of the vibration damper and configured to push the ultra-fine particles to the outside of the river water processing box and transport them, and to be installed in triplicates in combination with the rotating body and the rotating body support;
A tertiary suspended solids collection conveyor configured to collect garbage and contaminants collected by the tertiary contaminant screw feeder at an end portion of the tertiary contaminant screw feeder;
At the lower end of the third floating material collection conveyor, a forward rotation body and a reverse rotation body are cross-installed so that the particulate impurities and the ultra-fine magnetic waste are crushed and blown into the contaminated river water by the action of reverse rotation and forward rotation. A multi-cross crusher for processing the contained particulate pollutant molecules into fine ultra-fine particulate matter molecules; The rotating bucket, the contaminant injection eliminator, the submersible pump, the connecting pipe and the support are configured on the rear surface of the tertiary contaminant screw feeder to collect particulate matters and ultra-fine particles to collect floating material molecules floating on the water surface. A floating bucket for collecting suspended solids; A fourth floating material collection conveyor for transporting the collected particulate matter and the ultra-fine particles in the rear portion of the floating material collection rotating bucket; fine particles rising from the rear portion of the fourth floating material collection conveyor to the upper portion of the river water A fourth contaminant screw feeder configured to collect and collect sex contaminants and ultra-fine magnetic contaminants to push and transport the contaminants to the outside of the river water processing box, and combine the rotor and the rotor support;
A fifth floating material collection conveyor for transporting and collecting the collected particulate matter and the ultrafine particles; On the rear part of the fourth contaminant screw feeder, the suspended solids removing plate and the particulate collecting guide plate sequentially coupled with the rotating belt coupled to the rotating body; A fifth suspended solids material collector in which the suspended particulate floating material plate, which serves to prevent the collected suspended solids molecules from being separated from the outside of the rotating belt, is combined; And a water reservoir and a rainwater reservoir for connecting the lower end of the river water processing box and the river water discharge pipe by using a discharge control valve and storing the processed river water; and at the end of the river water processing box from an upstream of the river. Install an emission control gate that regulates the amount of incoming river water to discharge 95wt% ~ 99.99wt% of inflow from 100wt% of the inflow from the upstream of the stream to control the discharge control gate to discharge the river water to the downstream of the stream or the above Eco-friendly power generation system that combines water-friendly water purifiers with water reservoirs and rainwater reservoirs.
The method of claim 1,
An operating device housing including an operating device for operating a water gate on one side and the other side of the foundation concrete installed by dredging the river bottom;
An air inlet coupled to the esophagus passage is formed on the lower end of the foundation concrete, and the fish outlet is combined with a foreign material inlet prevention device in a reverse U-shape under the surface of the low water upstream portion of the river water stored by the hydrology configured to store the river water. Esophagus passage; A rear sluice frame that combines a front sluice frame with a front sluice plate; A rear sluice index cover configured to rotate with the front sluice index cover in a semi-circular structure in a U-shape on an upper end portion; A rear sluice hinge bracket configured in plurality; a sluice coupling the front sluice frame to the rear sluice frame;
A power generation aberration housing configured in a semicircular structure having a U-shape at a lower end of the rear sluice plate; a power generation aberration coupled to a generator in the power generation aberration housing; Generator cover for protecting the generator and the power generation aberrations configured on one side and the other side of the power generation aberration housing; River water discharge port is configured at the upper end of the front hydrology plate and at the same time the river water inlet is arranged at the upper end of the front hydroplate Plate support; Water pressure-enhanced guide plate coupled to the upper end of the pressure-induced induction plate support; including, eco-friendly power generation system for a natural-friendly water purifier.
The method of claim 1,
An actuator housing for operating a water gate to one side and the other side of the foundation concrete;
A hydrologic actuator disposed inside the actuator housing;
An operating hinge connecting one side and the other side of the operating device;
A lower support pipe configured in the middle of the actuating hinge;
A front sluice plate disposed at an upper end of the lower support pipe;
A hydrostatically reinforced guide plate support disposed in a trapezoidal shape at an upper end of the front sluice plate; a front stream water inlet control block installed between the hydrostatically reinforced guide plate support; a lower support pipe configured at a lower end of the front river water inlet control block On the one side and the other side, while adjusting the front stream water inlet control block up and down, the river water inlet control cylinder for opening and closing the lower portion of the river water inlet is configured in the lower front portion of the front sluice plate; A rear hydroplate hingedly coupled by a rear hydrologic hinge; a hydroelectric aberration configured to form a U-shaped hydroelectric aberration housing at a lower end of the rear hydrological plate and coupled to a generator in a hydroelectric aberration housing;
And a power generation aberration protection cover that protects the power generation aberration when the water gate is opened at the time of flooding on the top of the power generation aberration, wherein the front hydrology plate and the hydraulic pressure-reinforced guide plate at the lower end of the front lower portion of the river water inlet The upper part of the river water outlet is formed in the form of a larger than the top of the water discharge at the same time at the upper end of the front hydrostatic plate and the pressure-reinforced guide plate support to discharge the river water while generating a strong water pressure toward the upper layer of the water gate □ Eco-friendly power generation system combined with nature-friendly water purifier in the form of a child.
The method of claim 1,
An actuator housing for operating a water gate to one side and the other side of the foundation concrete;
A dust conveyer support for supporting a screw screw conveyer configured to convey various wastes and particulate contaminants introduced from an upstream of the stream to one side of the actuator housing;
A messenger manipulator coupled to a cylinder and a cylinder rod configured to lift the contaminant screw feeder and to rotate the contaminant screw feeder during the flooding while supporting the contaminant feeder support; And the contaminant screw feeder coupled to one side and the other side of the contaminant control stand; and the contaminant screw feeder coupled to the concave manipulator, which floats from the upper depth of the river stored by the water gate to the upper part of the stream. Eco-friendly power generation system with a natural water purifier to collect and collect particulate matter.
The method of claim 1,
An actuator housing for operating a water gate to one side and the other side of the foundation concrete;
Particulates for crushing various wastes and particulate matters introduced from the upstream of the stream on one side of the operating device housing to grind into the material molecules of the ultra-fine particles, and to prevent twisting or malfunction when the grinder is operated Grinder support;
A messenger operating table coupled with a cylinder and a cylinder rod which support the crusher support and serve to raise a crusher and a rotator configured to raise the crusher crusher during a flood and rotate out of the stream during a flood;
Containing; the grind matter grinder coupled to one side and the other side of the operation object;
Eco-friendly power generation system that combines nature-friendly water purifier.
The method of claim 1,
Further comprising a processing device for pulverizing and processing the contaminated river water into ultra-fine particles,
The processing device,
A contaminated stream water final discharge pipe configured at an end of the river water processing box coupled with the water gate;
A driven shaft and a drive shaft by connecting one side and the other side of the processing apparatus;
A driven gear and a driving gear disposed on one side of the driven shaft and one side of the driving shaft, respectively;
A separation prevention coupling configured at one side and the other side of the driven shaft in the processing apparatus;
A rotating rod support ring disposed between the release preventing couplings;
A plurality of rotating rods disposed on the rotating rod support ring to strike fluid pollutant molecules and solid pollutant molecules;
A circular rotating striking body configured to be coupled to the anti-separation ring in the processing apparatus so that the drive shaft cross-couples with the rotating rod;
A plurality of grooves having a U-shape arranged to strike fluid contaminant molecules and solid contaminant molecules on the outer circumferential surface of the circular rotating striking body;
A plurality of grooves striking fluid contaminant molecules and solid contaminant molecules in the disk of the circular rotating striking body;
An upper discharge pipe discharging fluid contaminant molecules on the upper side of the processing apparatus;
Included in the lower side of the processing apparatus, the lower end discharge pipe for discharging the fluid material molecules with a relatively heavy weight relative to the fluid contaminant molecules discharged through the top discharge pipe;
Eco-friendly power generation system that combines nature-friendly water purifier.
The method of claim 1,
Further comprising a processing device for pulverizing and processing the contaminated river water into ultra-fine particles,
The processing device,
A contaminated stream water final discharge pipe configured at an end of the river water processing box coupled with the water gate;
A driven shaft and a drive shaft by connecting one side and the other side of the processing apparatus;
A driven gear and a driving gear disposed on one side of the driven shaft and one side of the driving shaft, respectively;
A driven circular rotary striker having a disk shape in which a groove is formed in an irregular shape between the separation rings for maintaining a constant distance to a driven shaft configured in the processing apparatus;
A disk-shaped driving circular rotary striking body in which a groove is formed in a straight shape between spaced rings to maintain a constant distance to a drive shaft configured in the processing apparatus;
An upper discharge pipe discharging fluid contaminant molecules on the upper side of the processing apparatus;
Included in the lower side of the processing apparatus, the lower end discharge pipe for discharging the fluid material molecules with a relatively heavy weight relative to the fluid contaminant molecules discharged through the top discharge pipe;
Eco-friendly power generation system that combines nature-friendly water purifier.
The method of claim 1,
Composing a rainwater reservoir at the end of the river water processing box installed in conjunction with the water gate to store the rain water processed in the river water processing box,
Eco-friendly power generation system that combines nature-friendly water purifier.
The method of claim 1,
An operating hinge holder for supporting the operating hinge rods on one side and the other side of the lower part of the front sluice plate;
An actuating device configured to be coupled to an actuating cylinder on an actuating hinge rod 860 configured at one side and the other side of the front sluice plate;
An actuator housing disposed outside the actuator; Lower support pipe consisting of a rectangular fitting hole on one side and the other side;
A horizontal support disposed at an upper end of the lower support pipe;
A stream water discharge passage supporter coupled to the front sluice plate and the horizontal support, the guide jaw having a N-shaped front stream water inflow control block;
A plurality of operating hinges for hinge-bonding the rear door sluice plate and the front sluice plate to the upper end of the front sluice plate;
It includes a river water inlet control block installed on the upper end of the river water inlet control block guide jaw configured in the river water discharge passage support,
Combine one side and the other side of the stream inflow control block operation cylinder with the river water inflow control block operation cylinder, and then combine the other side of the rear side of the river water inflow control block operation cylinder with the support for the river water discharge passage, and the water pressure discharge passage support is directed toward the upper side. It is configured in the form of Hagwang Sanghyup to exert strongly generated action,
The water pressure strengthening guide plate composed of the lower stream water inlet of the front part is composed of the upper part of the lower support pipe, the horizontal supporter and the river water discharge passage supporter to constitute the upper part of the river water outlet, and the upper part of the river water discharge port is formed of the lower part of the front lower part river water part of the lower part of the hydraulic pressure induction plate. Eco-friendly power generation system with a natural water purifier that is configured to communicate with the inlet. delete delete delete delete delete delete delete delete delete

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