KR101629308B1 - Non-point pollution reducing apparatus of upward flow and downward flow type - Google Patents

Abstract

TECHNICAL FIELD The present invention relates to a device for reducing upflow and downflow non-point pollution. The upstream and downstream flow type non-point pollution abatement apparatus according to the present invention can selectively use an upflow filtration system and a downflow filtration system by providing a plurality of inlets and outlets in a filtration tank and controlling the opening and closing of the inlets and outlets. Further, the present invention can move the filter material portion of the filtration tank.
According to the present invention, a suitable filtering method can be applied according to the state of the contaminated water flowing into the apparatus. Further, the position of the filter material can be adjusted according to the filtration method, and a space for cleaning the inside of the filtration tank can be secured even if the filtration tank is made small.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a non-point pollution reducing apparatus,

More particularly, the present invention relates to a non-point pollution abatement apparatus capable of selectively using an upward flow filtration system and a downflow filtration system by controlling opening and closing of an inlet and an outlet of a filtration tank .

Generally, the sources of water pollutants can be classified into point pollutants and nonpoint pollutants. Point pollutants are constantly generated at relatively constant points such as domestic sewage and factory wastewater, and thus there is no significant variation in the amount of emissions during rainfall or non-rainfall, while non-point pollutants are released along with surface runoff during rainfall Pollutants such as dust and garbage on the surface of the earth or in the air, fertilizers and pesticides sprayed on agricultural land, and housing runoffs. Point pollution sources come from wastewater discharge facilities such as factories and workplaces, so it is easy to collect because of the clear route of outflow, and the seasonal impact is relatively small. However, nonpoint pollution sources are difficult to collect and difficult to design and maintain because of the amount of generated and discharged amount greatly depends on weather conditions such as precipitation.

The non-point pollution abatement system has many treatment methods, but it can be installed in a narrow site and has a high efficiency. Therefore, a method of filtering contaminated water using a filter medium is widely used. The filtration method is a downflow type in which contaminated water is passed through from the upper portion of the filter medium to the lower portion and an upward flow type in which the contaminated water is filtered through the upper portion of the filter medium. Conventionally, due to a spatial problem and a cost problem, a single non-point pollution abatement device performs filtration only in one of an upflow type and a downflow type. However, there is a problem in that when the filtration is performed by one method, when the surface to be filtered is blocked by the pollutant, the filtration function itself is stopped and the time for replacing the filter medium is shortened.

In Korean Patent Publication No. 2012-0045189, a plurality of filtration tanks are provided and filtration is performed by an upstream type and a downstream type. However, this method does not use the filtration method selectively in one filtration tank, so there is a problem that a plurality of filtration vessels require a lot of installation space, and that the filtration time is long, The filtration function is stopped even if the downstream filtration media is usable. In addition, the downward flow needs to be installed on the upper side, and the upward flow needs to be installed on the lower side for facility inspection and cleaning. There is a problem in that it is difficult to move from the inside to the inside to deepen the facility or to enter the inspection for securing.

An object of the present invention is to provide a non-point pollution abatement apparatus capable of selectively using an upflow filtration system and a downflow filtration system.

Another object of the present invention is to provide a non-point pollution abatement apparatus capable of moving the position of a filter unit for filtration or cleaning of a filtration tank.

The apparatus for reducing non-point pollution of upflow and downflow according to an embodiment of the present invention includes a settling tank and a filtration tank. The filtration tank has a first bank, a second bank, and a filter. The first partition wall forms a boundary with the sedimentation tank, and has a first inlet port on the upper side and a second inlet port on the lower side. The second partition has a first discharge port on the upper side and a second discharge port on the lower side. The filter unit is installed between the first partition and the second partition such that the first inlet and the first outlet are located at the upper portion and the second inlet and the second outlet are located at the lower portion, and the filter material is filled.

The apparatus for down-streaming non-point pollution reduction according to an embodiment of the present invention may further include a control unit. The control unit controls the opening and closing of the first inlet, the second inlet, the first outlet, and the second outlet.

In the apparatus for reducing non-point pollution in the upper stream and the lower stream according to the embodiment of the present invention, the filter unit of the filtration tank can be installed so as to be movable up and down.

In the upper and lower flow type non-point pollution reduction apparatus according to the embodiment of the present invention, the filter unit of the filtration tank may include a case and a filter material. The case may have a plurality of inner walls to prevent movement of the filter media. The filter material is charged inside the case.

The apparatus for down-streaming non-point pollution reduction according to an embodiment of the present invention may further include a vibrating part. The vibrating part applies vibration to the filter material part.

The apparatus for down-streaming non-point pollution reduction according to an embodiment of the present invention may further include a backwashing unit. The backwashing section includes an upflow backwashing section located at an upper portion of the filtration tank and a downwashing backwashing section located at a lower portion of the filtration tank.

The apparatus for reducing non-point pollution according to the present invention can selectively use an upflow filtration system and a downflow filtration system by controlling the opening and closing of the first inlet, the second inlet, the first outlet, and the second outlet. Therefore, a suitable filtration method can be applied according to the state of the inflowing contaminated water. In this case, by changing the filtration system, the filter material can be back-washed, and the service life of the filter material can be increased accordingly.

Also, according to the apparatus for reducing non-point pollution according to the present invention, the position of the filter unit can be adjusted according to the filtering method by moving the filter unit, and a space for cleaning the inside of the filter unit can be secured even if the filter unit is small.

In addition, the non-point pollution abatement device according to the present invention can correct vibration of the filter material due to movement of the filter material by applying vibration to the filter material part, and clean the pollutants in the filter material part easily.

1 is a conceptual diagram showing an apparatus for reducing up-stream flow type non-point pollution according to an embodiment of the present invention.
FIG. 2 is a diagram conceptually showing a top view and a downward flow type non-point pollution reduction apparatus according to an embodiment of the present invention. FIG.
FIG. 3 is a view showing the movement of the filter media in the upper and lower flow type non-point pollution reduction device according to the embodiment of the present invention.
4 is a view showing a filter unit of an apparatus for reducing up-stream flow type non-point pollution according to an embodiment of the present invention.
FIG. 5 is a conceptual diagram illustrating an apparatus for reducing non-point pollution in an upper and a lower flow direction including a vibrating part according to an embodiment of the present invention.
FIG. 6 is a conceptual diagram illustrating an apparatus for down-streaming non-point pollution reduction including a backwashing unit according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Note that, in the drawings, the same components are denoted by the same reference symbols as possible. Further, the detailed description of known functions and configurations that may obscure the gist of the present invention will be omitted. For the same reason, some of the components in the drawings are exaggerated, omitted, or schematically illustrated.

FIG. 1 is a conceptual diagram showing a device for reducing upflow and downflow pollution according to an embodiment of the present invention, and FIG. 2 is a conceptual diagram illustrating a top view and a downflow direction of a device for reducing nonpoint pollution in accordance with an embodiment of the present invention .

As shown in FIG. 1, the apparatus for downpouring non-point pollution 1000 includes a settling tank 1100, a filtration tank 1200, and a water collecting tank 1300. In other embodiments, the installation of the water collecting tank 1300 may be omitted.

In the sedimentation tank 1100, an inlet 1110 is formed, through which the rainwater containing the non-point pollutant is introduced. The inlet 1110 may be provided with a screen (not shown) to filter out foreign matter of a certain size or more contained in the rain.

The sedimentation tank 1100 physically separates heavy sediment such as soil, sludge, dirt, and the like among non-point pollutants and suspended matter such as oil. The floating material including oil can be periodically removed using a nonwoven fabric or the like, and the precipitate can be treated by placing a separate sediment collecting box (not shown) detachably attachable to the lower part of the sedimentation tank 1100. At this time, a separate drainage facility (not shown) for discharging the sediment may be provided.

The filtration tank 1200 includes a first partition 1210, a second partition 1220, and a filter unit 1230. The first bank 1210 forms a boundary with the settling tank 1100. The first partition 1210 has a first inlet 1211 on the upper side and a second inlet 1212 on the lower side. The second bank 1220 forms a boundary with the water collecting tank 1300. The second partition wall has a first discharge port 1221 on the upper side and a second discharge port 1222 on the lower side.

The filter unit 1230 is installed between the first bank 1210 and the second bank 1220. At this time, the first inlet 1211 and the first outlet 1221 are positioned above the filter media 1230 and the second inlet 1212 and the second outlet 1222 are positioned below the filter media 1230 do. That is, one side of the filter unit 1230 is positioned between the first inlet 1211 and the second inlet 1212, and the other side is installed between the first outlet 1212 and the second outlet 1222.

The filter material is filled in the filter material portion 1230. The filter media can be zeolite, activated carbon, charcoal, anthracite, bentonite, wood chips, sand, and the like. In addition, various media suitable for reducing non-point pollutants can be used.

The water collected in the filtration tank 1200 is collected in the water collection tank 1300. In another embodiment, the water filtered in the filtration tank 1200 may be discharged to a stream or the like without installing the water collecting tank 1300. The water collected in the water collecting tank 1300 can be used as backwash water for washing the filter material by using a pump or the like.

In this embodiment, the opening and closing of the first inlet 1211, the second inlet 1212, the first outlet 1221, and the second outlet 1222 are controlled so that the filtration method of the upper / Can be selectively used in the upward flow type and the down flow type. The first inlet 1211 and the second outlet 1222 are opened and the second inlet 1212 and the first outlet 1221 are closed in order to perform filtration in the filtration tank 1200 in a downflow manner. The water introduced from the settling tank 1100 flows through the first inlet 1211 and is filtered while passing through the filter unit 1230 from the upper portion of the filter unit 1230 to the lower portion of the filter unit 1230, And flows into the water collecting tank 1300 through the water supply pipe 1300. The second inlet 1212 and the first outlet 1221 are opened and the first inlet 1211 and the second outlet 1222 are closed in order to filter the filtrate in the filtration tank 1200 in an upward flow manner. The water introduced from the settling tank 1100 flows through the second inlet 1212 and is filtered while passing through the filter unit 1230 from the lower portion of the filter unit 1230 to the upper portion of the first outlet 1221, And flows into the water collecting tank 1300 through the water supply pipe 1300. When the filtration is performed by the upward flow type or the down flow type by using the one filter portion 1230, the filter portion 1230 is back-washed as the system is changed. That is, when the filtration is performed by the upflow method, the filtrate is filtered by the downflow filtration method, and when the filtration is performed by the downflow filtration method, the filtrate is filtered by the upward flow filtration method.

Opening and closing of the first inlet 1211, the second inlet 1212, the first outlet 1221, and the second outlet 1222 is manually enabled. In another embodiment, the opening and closing of the first inlet 1211, the second inlet 1212, the first outlet 1221, and the second outlet 1222 may be automatically performed using electricity. The downflow type non-point pollution abatement apparatus 1000 may further include a control unit 1400.

In the present embodiment, the upper and lower flow type non-point pollution reduction apparatus 1000 can be installed so that the settling tank 1100, the filtration tank 1200, and the water collecting tank 1300 are arranged in a straight line. However, for spatial efficiency, as shown in FIG. 2, the settling tank 1100, the filtration tank 1200, the water collecting tank 1300, and the control unit 1400 may be formed to have a rectangular shape instead of a straight line. In another embodiment, the settling tank 1100, the filtration tank 1200, the water collecting tank 1300, and the control unit 1400 may be formed in various shapes according to the environment in which the apparatus for downpipe pollution reduction 1000 is installed.

FIG. 3 is a view showing how the filter medium moves in the apparatus for reducing non-point pollution in an upper and a lower flow direction according to an embodiment of the present invention. FIG. Fig.

As shown in FIG. 3, the upper and lower flow-type non-point pollution reduction apparatus 2000 according to an embodiment of the present invention can be installed so that the filter unit 2230 can move up and down. For this purpose, a motor 2510 and a moving part 2520 may be installed in the filtration tank 2200. In this embodiment, the moving part 2520 is installed to be movable up and down along the first partition wall 2210 and the second partition wall 2220. Both ends of the filter unit 2230 are coupled to the moving unit 2520. The moving part 2520 can be moved by the motor 2510, and in other embodiments it is also possible to move it manually. The position of the filter unit 2230 can be adjusted since the filter unit 2230 moves along with the movement of the moving unit 2520. [ In another embodiment, it is possible to directly adjust the position of the filter unit 2230 without installing the moving unit 2520.

The position of the filter material portion 2230 can be changed according to the filtering method by moving the filter material portion 2230. Therefore, the filtration effect can be further increased by changing the filtration system. When cleaning the inside of the filtration tank 2200, it is necessary for a person to directly enter the inside of the filtration tank 2200. In this case, when the upper portion of the filtration tank 2200 is cleaned, the filtration media 2230 is moved downward, 2200, it is possible to secure space for cleaning by moving the filter material portion 2230 upward. Accordingly, it is possible to make the filtration tank 2200 small.

4, the filter material portion 2230 may include a case 2231 and a filter material 2232. As shown in FIG. The case 2231 may be made of a material such as SUS which does not easily spread. The filter material 2232 is filled in the case 2231. Since the filter member 2230 performs filtration in the upward flow direction and the down flow flow direction in the present embodiment, the filter member 2232 is filled in the upper portion and the lower portion of the case 2231 when the filter member 2232 is filled, And a large size of the filter medium 2232 can be filled in the middle portion. The case 2231 may be shaped like a net so that water does not pass through the filter media 2232 filled therein.

When the filter media 2230 moves, the filter media 2232 filled in the case 2231 moves so that contaminants between the filter media 2232 can be discharged to the outside of the filter media 2230, There is an effect of cleaning. However, the filter media 2232 filled in the case 2231 can move as the filter media 2230 moves. In this embodiment, a plurality of inner walls 2231a may be provided inside the case 2231 to prevent this. By providing the inner wall 2231a, it is possible to maintain the position of the filter medium 2232 having a different size.

FIG. 5 is a conceptual diagram illustrating an apparatus for reducing non-point pollution in an upper and a lower flow direction including a vibrating part according to an embodiment of the present invention.

As shown in FIG. 5, the upper and lower flow type non-point pollution reduction apparatus 3000 according to an embodiment of the present invention may include a vibration unit 3240. The vibrating portion 3240 applies vibration to the filter portion 3230. For this, the vibrating unit 3240 is attached to the filter unit 3230. However, the vibrating unit 3240 is not limited to the filter unit 3230 and may be installed to be spaced apart from the filter unit 3230 if vibration can be applied to the filter unit 3230 .

When the vibrating portion 3240 vibrates the filter portion 3230, the filter material charged inside the filter portion 3230 is also vibrated, so that the filter material moves. Accordingly, it is possible to correct that the filter material is scattered or scattered along with the movement of the filter material portion 3230.

Further, by causing the filter element 3230 to vibrate, contaminants in the filter element of the filter element 3230 can be discharged to the outside. Therefore, the filter member 3230 can be easily cleaned.

FIG. 6 is a conceptual diagram illustrating an apparatus for down-streaming non-point pollution reduction including a backwashing unit according to an embodiment of the present invention.

As shown in FIG. 6, the upper and lower flow type non-point pollution reduction apparatus 4000 according to an embodiment of the present invention includes a backwashing section 4250. The backwashing section 4250 is for washing the filter media 4230 in order to automatically recover the effect of the filter media when it is difficult to clean the filter media 4250. In this embodiment, Sprinkle. The backwashing section 4250 can use the water stored in the water collecting tank 4300 as backwash water, and the contaminated backwash water after the backwashing is stored in the settling tank 4100 for separate processing. The first discharge port 4221 and the second discharge port 4222 connected to the water collecting tank 4300 are closed to prevent contaminated backwash water from being backwashed into the water collecting tank 4300 and discharged to the outside do.

In this embodiment, the backwashing section 4250 may include an upflow backwashing section 4251 and a downflow backwashing section 4252. An upflow backwashing section 4251 is installed on the top of the filtration tank 4200 and sprays water and air from top to bottom. Therefore, contaminants located in the lower portion of the filter material portion 4230 are flowed downward through the filter material portion 4230 by the upward flow filtration. The downward backwashing section 4252 is installed at the bottom of the filtration tank 4200 and sprays water and air from below to below. Therefore, the pollutant located on the upper portion of the filter material portion 4230 is washed up to the filter material portion 4230 by the downflow filtration.

Since the backwashing is possible in both directions as described above, the present invention can clean the filter material portion 4230 more cleanly than washing in only one direction. Also, since the filter material portion 4230 can be moved up and down during backwashing of the present invention, the backwashing effect can be enhanced by being positioned closer to the backwashing portion 4250 using the filter material portion 4230.

It should be noted that the embodiments of the present invention disclosed in the present specification and drawings are only illustrative of the present invention in order to facilitate the understanding of the present invention and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

1000, 2000, 3000, 4000: Upstream and downflow type non-point pollution abatement device
1100, 2100, 3100, 4100:
1200, 2200, 3200, 4200: Filtration tank
1210, 2210: first partition 1211, 4211: first inlet
1212, 4212: second inlet port 1220: second partition wall
1221, 4221: first outlet 1222, 4222: second outlet
1230, 2230, 3230, 4230:
1300, 2300, 3300, 4300:
1400: control unit 2231: case
2231a: inner wall 2231:
2510: motor 2520: moving part
3240: vibration part 4250: backwash part
4251: Upflow backwashing section 4252: Backwashing backwashing section

Claims (4)

Sedimentation tank;
A first partition wall having a first inlet located on the upper side and a second inlet located on the lower side and a second partition having a first outlet located on the upper side and a second outlet located on the lower side, A filtration tank having a first inlet and a first outlet located at an upper portion between the partition and the second partition, and a filter member installed at a lower portion thereof such that a second inlet and a second outlet are located and filled with a filter;
A water collecting tank for collecting the filtered water in the filtration tank;
A backwashing unit having an upflow backwashing unit located at an upper portion of the filtration tank and a downflow backwashing unit located at a lower portion of the filtration tank; And
And a control unit for controlling opening and closing of the first inlet, the second inlet, the first outlet, and the second outlet,
The backwashing unit can use the water stored in the water collecting tank as backwash water. The contaminated backwash water after the backwashing is stored and processed in the settling tank, the contaminated backwash water after the backwashing flows back into the water collecting tank, So that the first outlet and the second outlet connected to the water collecting tank are closed,
The filter unit is coupled to a moving unit that is vertically movable along the first bank and the second bank, and the moving unit moves up and down according to driving of the motor,
Wherein the settling tank, the filtration tank, the water collecting tank, and the control unit are installed in a rectangular shape rather than a straight line. The method according to claim 1,
The filter unit includes a case and a filter material filled in the case,
Wherein the filter material is filled in an intermediate portion of the case rather than in an upper portion and a lower portion of the case. delete 3. The method of claim 2,
Wherein the case has a plurality of inner walls in order to prevent movement of the filter material.

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