KR20140043427A - Purifying point pollutants and nonpoint pollutants that completely removes and reuses or cleans various wastes and contaminants contained in river water and rainwater. - Google Patents

Abstract

The present invention relates to a point pollution sources and non-point pollution sources environmentally friendly method to treat by completely removing trash of every kind contained in river water and rainwater and contaminants, and a point pollution sources and non-point pollution sources water quality purification system to purify water by storing the river water and the rainwater which are applied to the same and, more specifically, to an environmentally friendly method to self-purify water by removing a large amount of the contaminants and non-point pollution sources at the first rain, and to be reused by storing the treated water.

Description

Purification of point pollutants and nonpoint pollutants that completely removes and reuses or cleans various wastes and contaminants contained in river water and rainwater. ?}

The present invention purifies point pollutants and nonpoint pollutants to completely remove and reuse various kinds of garbage and contaminants contained in river water and rainwater, and cleans them. More specifically, the present invention relates to an environmentally friendly method of removing wastes and non-point pollutants contained in large quantities in the initial rainwater, purifying them naturally, and storing and recycling the treated water.

The present invention is also directed to a method and system for recovering polluted water by thoroughly removing waste and contaminants from point sources and nonpoint pollution sources using a large damper configured to easily remove contaminants such as bulky logs, It is about construction method

That is, the conventional small-sized dust collectors have a disadvantage in that they can not effectively remove a bulky foreign object such as a log.

In general, nonpoint source refers to a pollutant that increases the pollution of river water because the outflow path of pollutants mixed and mixed with rainwater in unspecified places is not clear.

In detail, unlike point sources of pollution loads that can be predicted, it refers to pollutants that emit pollutants that increase water pollution unspecified in unspecified places, such as cities, roads, farmland, mountains, and construction sites. It is difficult to collect because it is not clearly distinguished, and unlike the point source, it is difficult to manage systematically because the amount of generation and the emission are largely dependent on weather conditions such as precipitation.

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

In addition, land development is accelerating due to the progress of urbanization and industrialization, and the impermeable layer of rainwater penetrating into the soil due to the installation of land, roads, and parking lots has become a major cause of deterioration of the quality of rivers and lakes caused by nonpoint sources. .

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, in the case of non-point pollutant load calculation, the proportion of water leakage including sewage pipe leaks and deterioration of water due to unauthorized discharge of untreated livestock manure is over 50%, and it is expected to increase to 65 ~ 70% from 2015. do.

Conventional methods for treating the non-point pollutants to solve these problems, such as backwash nonpoint pollutant source treatment facilities, reservoir purification facilities, artificial wet purification facilities, reverse contact infiltration facilities, vegetation type bypass discharge facility as a natural type And filter type facilities, vortex type facilities, screen type facilities, flocculation settling facilities, biological treatment facilities, and the like, but the above methods are used to treat some of the pollutants discharged with rainwater. 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 no defense against the preparation of new pollutants and the treatment of artificially generated pollutants due to the current trend of climate change and economic growth.

In the context of global warming, water resources are being reduced further, and technologies for recycling rainwater have been researched in various aspects. However, the conventional technology has been found to be able to collect contaminants and particulate matters that have a light weight in the process of temporarily storing rainwater. The reality is that there are many problems in storing and reuse of rainwater because it cannot be separated.

Also, the patent 10-1082310 registered by the present applicant has a problem in that the efficiency of the lifting device for lifting the obstacles is complicated.

1. Korean Patent Registration No. 10-0794491 2. Korean Patent Registration No. 10-1177477 3. Patent Publication No. 10-2012-0021541 4. Application No.: 10-2012-0103003 5. Application number: 10-2012-0047328 6. Application number: 10-2012-0139317 7. Application number: 10-2012-0124185 8. Application number: 10-2012-0037229 9. Application number: 10-2012-0088409 10. Application number: 10-2012-0135374 11. Application number: 10-2012-0134719 12. Application number: 10-2012-0137268 13. Application number: 10-2012-0126471 14. Application number: 10-2012-0013891 15. Application number: 10-2010-0076003 16. Application number: 10-2012-0117506 17. Application number: 10-2010-0128274 18. Application number: 10-2012-0150628 19. Application No. 10-2013-0038190 20. Application No. 10-2011-0059824 21. Application No. 10-2013-0006915 22. Application No. 10-2011-0013275 23. Application No. 10-2013-0015133 24. Application No. 10-2011-0034117 25. Application number: 10-2011-0058337 26. Application number: 10-2012-0091563 27. Application No. 10-2013-0007369 28. Application No. 10-2011-0100788 29. Application No. 10-2013-0009874 30. Application No. 10-2012-0123763 31. Application No. 10-2013-0050694 32. Application No. 10-2011-0072298 33. Patent Publication No. 10-2011-0046428 34. Patent Registration No.: 10- 1082310

The present invention has been proposed in view of this point, and it is possible to smoothly remove the bulky and heavy foreign substances such as logs, as well as the contaminants sandwiched between the screens and discharge them to the upper part, and between the individual bars constituting the screen. Even though the contaminants are tightly trapped in the building, the large condensate dedusting machine is configured to remove them smoothly without heavy loads.They flow down from point sources and non-point sources to completely remove the debris and contaminants contained in the river water. It is to provide an eco-friendly method of purification.

In order to accomplish the object of the present invention, there is provided a dust collecting apparatus comprising: a main body of a dust collector installed at a slightly inclined position with respect to inflow water flowing from a river and filtering contaminants such as inflow water, A rolling chain moving along a plurality of sprocket wheels on both sides of the main body of the vibration damper; A plurality of supports fixed transversely to corresponding portions of the two side rolling chains; It is fixed to the front of each support rotatably at equal intervals, using a large number of large lifting rakes formed in the upward direction to completely remove the large garbage and contaminants flowing down mixed with the river water to remove contaminated rainwater or river water It is intended to solve the problems of the present invention by using a method of clean purification.

The environmentally friendly method of reusing or reusing various waste materials and contaminants contained in rainwater flowing from point sources and non-point sources by using a vibration damper exhibiting a large-capacity garbage removal function according to the present invention, or reclaiming cleaned rainwater It has the effect of simple elimination of large trash and impurities coming down by mixing with rainwater in point pollution source and nonpoint pollution source.

In addition, there is an effect of drastically reducing the pollutant load by simply removing light non-point pollutants, which are contained in a large amount in the initial rainfall, without a physical method or a biological treatment process.

In addition, it has the effect of preserving the water resources and expanding the ecological preservation function by storing and reusing the treated water completely removing pollutants contained in rainwater, thereby improving the surrounding environment.

In the present invention, large-sized trash is simply removed to prevent contamination of the river water by zooming. In addition, when a bulky foreign body such as a log is large and heavy weight is caught on the screen, And it is effective to prevent the clogging of the river channel due to zooming.

In addition, when the small size particulate pollutants are caught by a porous screen made of triple, the triple plaster plate which is formed by close contact is completely removed over the third order, and the pollution of the river water is blocked by the removal.

1 is a perspective view of a conventional spherical damper.
2 is a perspective view of a water quality purification system constructed according to the present invention,
3 is a perspective view showing the water quality purification system constructed according to the present invention in the upstream direction from the downstream side of the river.
FIG. 4 is a perspective view illustrating a water purification system constructed in accordance with the present invention in an upstream direction on the downstream side of a river,
FIG. 5 is a view showing a state where the water quality control system constructed according to the present invention is lowered from the downstream side of the river to the upstream side of the inflow control gate and the double discharge control gate constructed in the purge box, A perspective view showing a state in which the upper end portion of the kick rake protector is removed
FIG. 6 is a perspective view showing a water purification system constructed according to the present invention in a state of being upstream in a downstream direction of a river,
FIG. 7 is a perspective view showing a water purification system constructed according to the present invention in a state of being upstream in a downstream direction of a river, and showing a state in which an inflow control gate and a first screen are removed,
FIG. 8 is a perspective view illustrating a water purification system constructed in accordance with the present invention, in the upstream direction from the downstream side of a river, and showing a state in which a first screen and a second screen are removed,
FIG. 9 is a partial perspective view of a purifier box and a conveyor belt in which a water quality purification system constructed according to the present invention is shown in the downstream direction from an upstream side of a river,
FIG. 10 is a partial perspective view of a water purifier constructed on the rear side of a conveyor belt and a purifier box in which a water quality control system constructed according to the present invention is shown from the upstream side to the downstream side of a river,
FIG. 11 is a partial perspective view showing a combined state of a rolling chain and a large lifting rake from which an inflow control gate and a vibration damper are removed, which is combined with a water quality purification system constructed in accordance with the present invention,
12 is a side view showing the first and second upper and lower guide rails, the second upper and lower guide rails, the third upper and lower guide rails, and the fourth and fifth guide rails formed on one side and the other side of the rolling chain, The upper and lower guide rails are combined with a large lifting rake, and a disassembled perspective view of the lifting rake portion showing a coupled state in which the large lifting rake is rigidly supported
Fig. 13 is a perspective view of a lifting rake portion shown in Fig. 13, explaining the coupling relationship between a large lifting rake and a rolling chain, which is constituted by a vibration damper combined with a water quality purification system constructed in accordance with the present invention.
Figure 14 is an exploded perspective view of a lifting jacket coupled with a conveyor belt engaged with a water quality purification system constructed in accordance with the present invention.
FIG. 15 is a perspective view showing a state of the water quality purification system coupled with the reservoir storing the river water or the rainwater discharged from the water quality purification system constructed in accordance with the present invention. FIG.

[Example 1]

The following describes the first aspect of the present invention constructed in accordance with the first embodiment of the present invention

FIG. 2 is a perspective view showing a water quality purification system constructed in accordance with the present invention in a downstream direction from an upstream side of a river, and FIG. 3 is a side view of a water quality purification system constructed in accordance with the present invention, FIG. 4 is a perspective view showing a water purification system constructed in accordance with the present invention in an upstream direction on the downstream side of a river, And FIG. 5 is a view showing a state where the water quality control system constructed in accordance with the present invention is lowered in the inflow control gate and the double discharge control gate constructed in the purge box in the upstream direction from the downstream side of the river, FIG. 6 is a perspective view showing a water purification system constructed according to the present invention on the downstream side of a river FIG. 7 is a perspective view showing the water purification system constructed in accordance with the present invention in the upstream direction from the downstream side of the river, and FIG. FIG. 8 is a perspective view showing the water purification system constructed according to the present invention in the upstream direction on the downstream side of the river, and FIG. FIG. 9 is a perspective view showing a water purification system constructed according to the present invention in a downstream direction from an upstream side of a river, and FIG. Fig. 10 is a partial perspective view of a purifier box and a conveyor belt from which an anti-vibration damper is removed. Fig. 10 is a perspective view showing a water purification system constructed in accordance with the present invention, FIG. 11 is a partial perspective view of a water purifier installed on a rear part of a conveyor belt and a purifier box in which an inflow control gate and an anti-vibration damper are removed, and FIG. 11 is a partial perspective view of a water ring cleaner combined with a water purification system constructed in accordance with the present invention, FIG. 12 is a partial perspective view showing the coupling state of the rake, FIG. 12 is a partial perspective view showing the coupling state of the rake, and FIG. 12 is a partial perspective view showing the coupling state of the rake, The guide rails, the third and fourth lower and upper guide rails, and the fourth and lower guide rails are engaged with the large lifting rake and the large lifting rake are firmly supported by the lifting rake, 13 is an explanatory view of the relationship between the large lifting rake and the rolling chain constituting the vibration damper combined with the water quality purification system constructed in accordance with the present invention FIG. 14 is an exploded perspective view of a lifting jacket coupled with a conveyor belt coupled with a water quality purification system constructed in accordance with the present invention, and FIG. 15 is a perspective view of a river water discharged from a water quality purification system constructed in accordance with the present invention Or a combination of a reservoir for storing rainwater and a water quality purification system.

After the maintenance of the river and the foundation concrete is poured on the bottom of the river water wall 100 is installed on one side of the river and the purification box 7000 in the form of the enclosure on the other side after the water purification wall 100 and the purification box ( 7000 with a multi-function water gate for storing the river water;

The installation height of the purge box 7000 may be higher than the levee formed at both sides of the river to prevent flooding at the time of flood.

The multifunctional gate 710 can be operated by a flotation type, a rotary type, a winding type, a conductive type, and an irrigation type.

Constituting an inflow control gate (707) coupled with the door frame (709) and the hydraulic cylinder (708) at an upstream portion of the purge box (7000) constituted upstream of the multifunctional gate (710);

Constituting a double discharge regulating water gate (713) coupled with the door frame (717) and the hydraulic cylinder (770) in the downstream part of the purge box (7000);

A structure in which a double balloon 600 is formed at the lower end of the double discharge regulating water gate 713 to be connected to the regulating water gate 771;

The regulating water gate 771 formed at the lower end of the double discharge regulating water gate 713 may be raised so as to form the water shower 600 and may be lowered at the watering season, A screw or a cylinder can be used for the adjusting and lowering device.

A dust collector 8000 is configured to raise a large contaminant at an upstream portion of the purge box 7000;

The structure of the vibration damper includes a first screen 736 formed obliquely with respect to inflow water and a first screen 736 formed on the front surface thereof, and a damper main body 8000 for filtering contaminants such as inflow water flowing through the second screen 703;

The first driving pulleys 706 and the second driving pulleys 706 are continuously rotated by a driving force of a first driving pulley 706 which is belt-engaged with a driving motor 751 along a plurality of sprocket wheels 727 formed opposite to both sides of the main body 8000, (723);

The structure of the sprocket wheel 727 is not shown in detail because it can be variously configured by using a chain gear or in another form.

 A first driven pulley 756 configured on the other side of the rotational axis associated with the first driven pulley 706;

A large lifting rake 701 coupled with the rolling chain 723 by a pin 725 so as to lift a large obstacle between one side and the other side of the rolling chain 723;

A structure in which a fixing ring (not shown) is formed on the outer surface of the pin 725 so as to prevent the pin 725 from being separated from the pin 725;

A transverse coupling plate 720 formed between the rolling chain 723 and one side of the large lifting rake 701 coupled with the pin 725;

A plurality of large lifting rakes 701 formed between the transverse coupling plates 720;

A third screen 730 in which a plurality of water discharging holes 731 for filtering small sized contaminants are formed between the one side and the other side of the rolling chain 723 only in the lower end portion and the upper portion is in the form of a plate material 705;

The upper end of the third screen 730 is coupled to the plate member 705 to have a curved shape up to the upper end of the upper sprocket wheel 727.

The pin 725 coupled to the rolling chain 723 while being coupled with the large lifting rake 701 is prevented from being squeezed by the weight of the contaminant so as to assist the rectilinear motion of the rolling chain 723 Lower guide rails 729 and third and lower guide rails 732 and fourth and lower guide rails 733 are formed on the pins 725. The upper and lower guide rails 728, A structure in which the upper portion and the lower portion of the pin 725 are joined by the upper and lower guides 732, 733, 728, and 729 in a whitish manner between one side and the other side of the pin 725;

A hitting rake (700) for hitting and removing a dirt trapped in the large lifting rake (701);

The driving rake 700 is coupled to one side of the driving rake case 721 and the other side of the driving rake case 721 by a white paper 880.

A structure coupled to the second driven pulley 753 at one side of the white paper 880;

The second driven pulley 753, which rotates the pulley 700 in the reverse direction,

A first driven pulley 756 axially coupled to the driving motor 751 and a rotating belt 755 are coupled to the driving pulley 700 so that the pulleys 700 rotate in the reverse direction, Structure to strike and remove;

A discharge conveyor 716 installed on the rear side of the damper main body 8000 to receive the dirt falling and discharge it to the outside;

An air pump 719 functioning to float light contaminants having a specific gravity introduced into the purge box 7000;

The air discharge pipe 737 coupled with the air pump 719 is installed inside the purifier box 7000 and is installed in the purifier box 7000 so that the rainwater contained in the purifier box 7000 or the organic material A structure for moving the substance molecules to the upper end of the purifying box 7000;

A conveyor belt 712 to which the lifting barrel 711 and the engaging plate 740 are coupled to lift and remove lightweight contaminants introduced into the purge box 7000;

The coupling plate 740 and the lifting barb 711 are coupled with the white paper 739;

A structure in which a plurality of holes are formed in the lower end of the lifting barb 711;

After the nonwoven fabric 881 is installed on the bottom of the lifting barb 711, the nonwoven fabric 881 is lifted up from the lifting barb 881 by using a coupling member 738 having a plurality of water discharging holes at the upper end of the nonwoven fabric 881. [ So as not to be detached;

Instead of nonwovens, cloth or other materials can be used

The conveyor belt 712 is coupled to a plurality of roller motors (not shown) to rotate the conveyor belt 711;

(The detailed structure of the conveyor belt 712 and the roller motor is omitted since it is a known technique)

A structure that is coupled to a conveyance belt 718 for conveying the contaminants to the outside on the rear side of the lifting barb 711;

(712) coupled with the conveyor belt (711) is adapted to remove particulate contaminants remaining in the interior of the lifting grate (712) when lifting particulate contaminants that float up to the upper end of the booster box An underwater pump 990 is formed at the lower end of the box 7000;

A pipeline 991 coupled with the submersible pump 990; An underwater pump 990 for completely removing fine contaminants introduced into the purge box 7000 by using a water injection nozzle 992 formed at an end of a pipe connected to the pipe line 991;

And a double discharge pipe 715 coupled to a discharge control valve for controlling the amount of discharge of light organic matter molecules floating at the upper end of the purge box 7000 at a downstream portion of the purge box 7000 The process of cleansing polluted river water or polluted rainwater by using stream water or rain water purification system which is configured to separate pollutant water and polluted rainwater by separating and discharging pollutant substances with a small specific gravity, The multifunctional water gate 710 and the inflow control gates 707 are adjusted to store the river water or the rainwater and the inflow control gates 707 constituting the purification box 7000 are opened to open the purification box 7000, Stream or rainwater into the interior of the

Air is continuously blown into the purge box 7000 through the air discharge pipe 737 coupled with the air pump 719 so that the specific gravity contained in the river water or rainwater flowing into the purifier box 7000 The light pollutant molecules float up to the upper part of the purifier box 7000 and at the same time the purifier 8000 is rotated to continuously rotate the large lifting rake 701 constructed in the purifier 8000 to remove the pollutants contained in the river water or rainwater The large scum and small scum are removed while the lifting scion 711 coupled with the conveyor belt 712 is continuously rotated to remove the organic material scum that is light in specific gravity and accumulated in the upper part of the contaminated river water or rainwater, The underwater pump 990 and the jetting nozzle 992 are continuously operated while removing the water from the purge box 7000, The process of eliminating the remaining particulate organic matter completely removes the various wastes and contaminants contained in river water and rainwater and completely eliminates them, reuse or clean them. Point pollution sources and nonpoint pollution cleanups eco-friendly methods and river water and rainwater Point source and non-point source water purification system

The structure of the reservoir for storing the rainwater by installing the hydrological gates in the river or collecting the rainwater falling on the land can be changed by any known structure molding method, so the detailed description of the structure of the reservoir will be omitted.

All of the substances that enter the sea through the river and all the contaminated materials are turned into water molecules by various actions such as material explosion, material friction and material catalysis. It is the fact that water has been studied for over a year.

Through these researches, we have found that the incompletely degraded material molecules are light in weight and the completely decomposed material is heavy in weight.

For this reason, the World Standards Organization has set water as a reference material with a weight of 1.

Among 100% of the earth's water, 97% of the sea water is used, and the water, which is less than 3% of the ice water and the ground water stored in the glacier, is used by humans, animals and plants.

According to predictions from the World Meteorological Organization and water-related academic organizations, the amount of water vapor evaporated from the earth to the atmosphere in a day is about 1 trillion tons.

Then, if the molecules of toxic substances contained in seawater evaporate, there is a question about whether all human beings, plants and animals on Earth can survive.

But you can rest assured.

It is by no means that toxic matter molecules can not evaporate into the stratosphere of the Earth's atmosphere.

Even if it reaches to a certain height, even if evaporation occurs, material that comes into being by joining or colliding with other substance molecules just by the place. Friction action, material explosion, and material collision, It is judged that there is not.

Evidence suggests that residents of high-rise apartment buildings that live in a stratum have to die all the time because they live by inhaling toxic substances that are evaporated and evaporate because the various pollutants generated in the lower layers are evaporated and moved to the upper layers. .

Thus, there is a logical evidence that all of the various functions in nature ultimately break down into water molecules.

If all things eventually do not turn into all water molecules, then the fishes living in the sea, the various animals in the mountains, the various microorganisms, the various trees, and the various leaves must be kept in a static state forever. .

In addition, all the metals must not be decomposed forever, they should not produce the green matter that is generated by decomposition, and the contradictory logic is that the iron content should not be mixed with tap water.

Even if the weight of any substance is heavy, it eventually breaks down into a particulate state while decomposing, and the weight of the substance becomes lighter than that of water.

In this way, all the objects are eventually changed into water molecules. Since the applicant has filed numerous patents related to water and has proved the logical evidence, it has been proved by presenting these arguments when filing various patents related to water The patent was registered as an eco-friendly method that cleans contaminated river water.

If all kinds of matter molecules produced by decomposition of all objects have no mass or specific gravity, then all of the materials exist in a static state and exist forever.

There is also the logic that rain and snow should not come and that the snow on the top of the Himalayas, where the sun and the highest roads lie, should not melt forever.

Therefore, there should be no pollutants generated through the natural cycle, contaminated water should not exist, and clean water must exist in a clean state forever.

The present invention reverses this phenomenon, that is, it reverses the action of specific gravity and gravity to purify polluted river water, so that even if it is polluted rainwater or river water, it can be cleaned cleanly.

For example, when 100% of the river water flows down from the upstream of the river, 98% of the river water is discharged through the double discharge water gate 713, and the remaining 2% of the river water is discharged through the double discharge pipe 715 And at the same time, the organic substance material molecules having a specific gravity are moved smoothly while the clean stream water having a specific gravity floats naturally to the upper layer portion of the purifying box 7000 by a material pushing action of pushing light substance molecules of a specific gravity, And is pushed out of the purge box 7000 while being naturally contained in the lifting gang 711 coupled to the purge box 712.

The present invention does not describe the detailed structure of the method of detaching the minute organic organic materials from the lifting barrel in the lifting jacket, but it is possible to solve these problems by constructing the vibrator on one side of the conveyor belt.

In addition, a vibrating motor may be installed on the rear surface of the third screen 730 to automatically remove contaminants that are caught in the water discharging hole 731 formed in the third screen.

 [Example 2]

The following describes the second aspect of the present invention constructed in accordance with the second embodiment of the present invention.

After configuring the reservoir 900 for storing the rain water or river water on one side of the purification box 7000, the rain water or rain water discharged through the purification box 7000 in the reservoir 900 and then rain water as needed Alternatively, the waste water or rain water configured to reuse the river water or the river water reservoir 900 is used to completely remove various wastes and contaminants contained in the river water and rain water, which is characterized by a water purification system for storing and purifying the water. Point Pollution and Nonpoint Pollution Purification We propose an eco-friendly construction method and a point pollutant and nonpoint pollutant water purification system that stores and cleans river water and rainwater.

The present invention has come to be filed due to the excellent ability to purify the river water as an invention having the highest value among the 2,000 inventions that the applicant invented over the past thirty years.

By using a large damper capable of eliminating large-capacity garbage constructed according to the present invention, it is possible to completely remove various kinds of garbage and contaminants contained in rainwater and to reuse them, or to purify point pollutants and nonpoint pollutants to store and recycle clean purified rainwater And the river water purification system applied to it is a new technology that has never existed until now as a natural and friendly method of cleansing the environment of the river which is being devastated.

When a river water purification system constructed according to the present invention is installed in various places on the earth, it functions to completely purify even the polluted river water with clean river water, so that the environment of the degraded earth is completely restored.

Therefore, the possibility of industrialization will be very large.

All matter molecules have a mass and the mass is divided into upper and lower layers depending on the specific gravity acting by gravity.

That is, the marketability of the present invention, which is configured to purify polluted river water using a river water purification system that automatically separates the lower layer water having a specific gravity and the upper layer water having a specific gravity, will be infinite.

7000: purge box 8000: demolisher

Claims (2)

It cleans streams and cleans them with clean water by removing contaminants and contaminants in the water by using water gates, inflow control gates, double discharge gates, dust collectors, conveyor belts and conveying belts combined with basic concrete and water walls. In the point pollutant and nonpoint pollutant water purification system that cleans and cleans river water and rainwater,
After installing the basic concrete in the river bottom, the water wall is installed on one side of the river and the purification box is installed on the other side of the river, and a multifunctional water gate is installed to store the water between the water wall and the purification box. Together with;
And an inflow control gate connected to the door frame and the hydraulic cylinder at an upstream portion of the purifier box constructed upstream of the multifunctional watercourse;
Constituting a double discharge regulating gate connected to the door frame and the hydraulic cylinder at a downstream portion of the purge box;
A structure in which a double air duct coupled to the regulating water gate is formed at the lower end of the double discharge adjusting water gate;
A dust collector is configured to lift up a large contaminant at an upstream portion of the purifier box;
The structure of the vibration damper includes a first screen installed at an inclined position with respect to inflow water and a damper main body for filtering contaminants such as inflow water through a first screen and a second screen;
The rolling chains being configured to be continuously rotated by a driving force of a first driving poly that is belt-coupled with a driving motor along a plurality of sprocket wheels formed opposite to both sides of the main body of the vibration damper;
A first driven poly configured on the other side of a rotational axis associated with said first driven poly;
A large lifting rake pin coupled with the rolling chain so as to lift large contaminants between one side and the other side of the rolling chain;
(Not shown) so as to prevent the pins from being separated from one side and the other of the outer surface of the pin;
A transverse coupling plate formed between the rolling chain and one side of the large lifting rake coupled with the pin;
A plurality of large lifting rakes formed between the transverse coupling plates;
A third screen having a plurality of water discharging holes for filtering small sized contaminants between one side and the other side of the rolling chain,
Wherein the upper end of the third screen is coupled to the plate member to form a curved surface up to the upper end of the upper sprocket wheel;
The first upper and lower guide rails and the second phase, which are coupled to the large lifting rake and simultaneously assist the rolling chain of the rolling chain while preventing the pin from falling down due to the weight of the contaminant, which is coupled with the rolling chain. The upper guide rail and the third upper and lower guide rails and the fourth upper and lower guide rails are coupled between the upper and lower parts of the pin by the four upper and lower guides between one side and the other side of the pin. rescue;
A hitting rake for hitting and removing the impurities contained in the large lifting rake;
Wherein the driving rake is joined to one side and the other side of the driving rake case by a white bond;
A structure coupled to a second driven poly on one side of the white paper;
The second driven pulley which rotates the pulley in the reverse direction
A first driven pulley axially coupled to the driving motor, and a rotary belt coupled to the driving pulley, wherein the pulley is rotated counterclockwise to remove contaminants trapped between the large lifting rakes;
A discharge conveyor installed at a rear side of the main body of the damper to receive the dirt falling and discharge it to the outside;
An air pump operative to float light contaminants having a specific gravity introduced into the inside of the purifier box;
The air discharge pipe coupled to the air pump is installed in the inside of the purifier box to float the organic matter material molecules of light specific gravity contained in the rainwater or river water flowing into the purifier box to the upper end of the purifier box ;
A conveyor belt to which a binding plate and a lifting barrel for pouring and removing lightweight contaminants introduced into the inside of the purifier box are coupled;
A structure in which the coupling plate and the lifting bristle are combined with a white paper;
A structure in which a plurality of holes are formed in the lower end of the lifting bar;
A structure in which a nonwoven fabric is installed on the bottom of the lifting jacket, and then the nonwoven fabric is fixed to the lifting jacket using an engaging member having a plurality of water discharging holes formed at an upper end of the non-woven fabric;
The conveyor belt is coupled with a plurality of roller motors (not shown) to rotate the conveyor belt.
A structure that is coupled to a conveyance belt for conveying contaminants to the outside on the rear side of the lifting bar;
The underwater pump connected to the conveyor belt constitutes a submerged pump at the lower end of the purifier box to remove the particulate contaminants remaining in the inside of the lifting jacket when lifting the particulate contaminants floating on the upper end of the booster box ;
A pipeline coupled with the submersible pump; An underwater pump for completely removing fine contaminants introduced into the purifier box by using a water injection nozzle formed at an end of a pipe connected to the pipeline;
And a discharge control valve coupled to a discharge control valve for controlling discharge of light organic matter molecules floating at the upper end of the purifier box at a downstream portion of the purifier box, The process of cleansing polluted river water or contaminated rainwater using a river water or rain water purification system configured to purify polluted river water and contaminated rainwater by separate discharge is characterized in that the multifunctional water gate configured to store the river water, To store river water or rainwater and to open the inflow adjusting gate constructed in the purifying box to inflow river water or rainwater into the inside of the purifying box
And the air discharge pipe connected to the air pump continuously blows air into the purifying box to flood the contaminant molecules having a low specific gravity contained in the river water or rainwater flowing into the purifying box into the upper part of the purifying box, And the large-size lifting rake constructed in the damper is continuously rotated to remove large-sized obstacles and small-sized contaminants contained in the river water or rainwater, and at the same time, the lifting barrel coupled with the conveyor belt is continuously rotated Thereby removing organic material contaminants which are light in weight on the upper part of the polluted river water or rainwater, from the outside of the purifier box, and at the same time continuously operating the submerged pump and the injection nozzle to completely remove the remaining particulate organic matter To remove Purifying point pollutants and nonpoint pollutants to completely remove and reuse various kinds of garbage and contaminants in river water and rainwater through the environment-friendly method and to clean and store the stream water and rainwater applied to it. system
The method of claim 1, wherein
After configuring the reservoir 900 for storing the rain water or river water on one side of the purification box 7000, the rain water or rain water discharged through the purification box 7000 in the reservoir 900 and then rain water as needed Alternatively, the waste water or rain water configured to reuse the river water or the river water reservoir 900 is used to completely remove various wastes and contaminants contained in the river water and rain water, which is characterized by a water purification system for storing and purifying the water. Point Pollution and Nonpoint Pollutant Purification Eco-friendly construction method and point pollutant and nonpoint pollutant water purification system that stores and cleans river water and rainwater.

Images