KR102124414B1 - Nonpoint pollution treatment apparatus - Google Patents

Abstract

The present invention relates to a non-point pollution reducing apparatus and, more specifically, to a non-point pollution reducing apparatus, which firstly removes pollutants and oil from incoming water in a preprocessing tank and filters the pollutants in the incoming water by using a filter medium in a filter tank. In the non-point pollution reducing apparatus, a detachable support frame is installed in the filter tank and a plurality of filter medium pockets are mounted on the support frame. Therefore, the non-point pollution reducing apparatus can easily construct and maintain the filter tank.

Description

Non-point pollution reduction device {NONPOINT POLLUTION TREATMENT APPARATUS}

The present invention relates to a device for reducing boiling point pollution, and more particularly, to remove contaminants and oil in the influent in a pretreatment tank and filter the contaminants in the influent by using a filter medium in the filtration tank, which is detachable and supported inside the filtration tank. It relates to a non-point pollution reduction device that is easy to construct and maintain by installing a frame and mounting a plurality of filter media pockets on a support frame.

Non-point source (non-point source) refers to unspecified cities, roads, farmland, mountain areas, construction sites, etc., as rainwater that sinks infiltrates underground and partly flows through the water and flows into the stream. Refers to a pollutant that emits water pollutants in an unspecified place. That is, the non-point source of pollution refers to a source of water and soil pollution caused by rainwater effluent with various pollutants such as organic matter, nutrients, heavy metals, particulate matter, and various harmful chemicals accumulated on the land surface during the dry season.

Water pollution caused by these non-point sources of pollution is getting worse as the land development is accelerated due to urbanization and industrialization and the area of impermeable layers such as land, roads, and parking lots increases. Accordingly, various national comprehensive measures have been prepared for the management of non-point sources, but the development of non-point source treatment facilities with excellent treatment efficiency and easy installation and maintenance is urgent to prevent water pollution and protect the water ecosystem.

Conventional filtration-type non-point pollution reduction devices can be divided into two types based on the technology of installing the filter medium, and the most used technology is a laying method of installing a perforated plate supporting the filter medium on the floor and laying it on the upper part. There is often a cartridge method as a technology for connecting a plurality of housings by separately manufacturing the housings.

However, among these conventional technologies, the installation technique is inexpensive to install and construct, but there is a problem in that a lot of cost and time are required for maintenance because it is necessary to enter the underground manhole and remove it all by manpower during maintenance.

In the case of the cartridge method, the installation and construction are the same as in the existing method, but there is a problem in that the cost of production is excessive, and there is an excessive cost in maintaining it.

Korean Registered Patent Publication No. 10-1904890 Korean Registered Patent Publication No. 10-1843063

The present invention has been derived to solve the above-mentioned problems, and an object of the present invention is to provide a detachable support frame and a filter media pocket to provide a non-point pollution reduction device that is easy to maintain and maintain.

In addition, an object of the present invention is to provide a non-point pollution reduction device that can increase the efficiency of the filtration treatment of the contaminated water because the filter material can contact the contaminated water in various directions.

The apparatus for reducing non-point pollution according to the present invention includes a pretreatment tank having an inlet and an outlet through which contaminated water flows in and including an oil adsorption module and a screen network; And a filtration tank for filtering contaminants of the contaminated water pretreated through the pretreatment tank, wherein the filtration tank further includes a plurality of filter media pockets and a support frame, and the filter media pockets and support frames are detachable from the filter tank. It is characterized by.

In addition, the filtration tank is characterized in that the contaminated water is introduced from the lower portion of the filtration tank and the clean water subjected to upstream filtration is discharged to the upper portion of the filtration tank.

In addition, the pre-treatment tank further includes a deceleration plate on the side of the inlet, and the deceleration plate serves to reduce the kinetic energy of the irregularly generated contaminated water and to distribute the contaminated water in a constant direction. Is done.

In addition, the reduction plate is configured in a plate shape in which a plurality of through holes are formed, and is characterized in that it is spaced apart from the upper and lower parts of the pretreatment tank.

In addition, the oil adsorption module is characterized in that it moves along the water level of the contaminated water inside the pretreatment tank, including an oil adsorption cloth and a buoyant material, and continuously removes the oil content of the contaminated water.

In addition, the pretreatment tank is characterized in that the screen network is located on one side of the discharge port to filter the pollutants of the contaminated water passing through the screen network.

In addition, the filter media pocket is characterized in that it is composed of a cartridge in the form of a porous mesh or a housing and can insert a filter medium therein.

In addition, the filter material is characterized in that it is a porous granular aggregate such as sponge and activated carbon or a hollow fiber composed of several branches.

In addition, the filter media pocket is characterized in that in contact with the contaminated water in a plurality of directions.

In addition, the filtration tank further comprises a backwash pipe, the backwash pipe is characterized in that it is possible to backwash the filter tank through the side of the filter medium pocket.

According to the present invention, a support frame and a filter media pocket are installed inside the filter tank in a structure that can be separated from the filter tank, thereby generating an effect that maintenance of the filter tank can be easily maintained.

In addition, since the filter pocket has a structure that can be contacted in various ways with the contaminated water inside the filter tank, an effect capable of effectively filtering contaminants of the contaminated water occurs.

1 is a cross-sectional view showing the configuration of a non-point pollution reduction device according to the present invention.
2 is a cross-sectional view showing the configuration of a pretreatment tank according to the present invention.
3 is a cross-sectional view showing the configuration of a filtration tank according to the present invention.

The detailed description of the present invention is intended to completely describe the present invention to those skilled in the art. Throughout the specification, when a part is said to "include" a component or a structure and a shape to be a "feature", it excludes other components or excludes other structures and shapes unless specifically stated otherwise. It does not mean that it can include other components, structures and shapes.

The present invention can be applied to various conversions and can have various embodiments, and therefore, specific embodiments will be presented and described in detail in the detailed description. However, this is not intended to limit the content of the invention by examples, it should be understood to include all conversions, equivalents, or substitutes included in the spirit and scope of the present invention.

1 is a cross-sectional view showing a configuration of a non-point pollution reduction device 1000 according to the present invention. Referring to FIG. 1, it is possible to confirm a process in which contaminated water is introduced into the boiling point pollution reduction device 1000 and filtered clean water is discharged. In order to proceed with this process, the boiling point pollution reduction apparatus 1000 may include a pre-treatment tank 100 and a filtration tank 200.

2 is a cross-sectional view showing the configuration of the pre-treatment tank 100 according to the present invention. Referring to Figure 2, it can be seen the structure and shape of the oil adsorption module 110, the screen network 120 and the deceleration plate 130 located inside the pre-treatment tank 100.

The pre-treatment tank 100 is a place where contaminated water can be first introduced into the non-point pollution reduction apparatus 1000 according to the present invention, and has an inlet and an outlet through which contaminated water is introduced to filter the pre-treated contaminated water to be described later (200) )

The pretreatment tank 100 serves to primarily filter out oil and contaminants of the polluted water flowing into the boiling point pollution reduction device 1000, and in order to accomplish this, the pretreatment tank 100 is equipped with an oil adsorption module 110, the screen network 120 and the reduction plate 130 may be included.

The oil adsorption module 110 serves to continuously remove the oil content of the polluted water flowing into the pretreatment tank 100 according to the fluctuating water level. In order to perform this role, the oil adsorption module 110 may further include an oil adsorption cloth 111 and a buoyancy material 112.

Since the oil content of the contaminated water may be present on the surface of the contaminated water, the oil adsorption module 110 may be located on the surface of the contaminated water by using the buoyant material 112 to remove the oil. The oil adsorption module 110 is attached to the oil adsorption cloth 111 on the outside of the buoyancy material 112 to continuously remove the oil in the contaminated water.

The buoyancy material 112 may be composed of a foam material such as EVA (foaming resin), urethane foam, and straw foam, and the oil adsorption cloth 111 may use a woven fabric densely woven or an integral adsorption cloth of pulp material, and may be hydrophobic. And polypropylene materials having lipophilic properties. In addition, the oil adsorption cloth 111 lacking an oil adsorption function through continuous use may be replaced.

The screen network 120 serves to filter contaminants of the contaminated water before sending the contaminated water from the pre-treatment tank 100 to the outlet. In order to perform this role, the screen net 120 may be located on one side of the outlet and a net-type filter may be included in a portion where contaminated water is introduced.

In addition, the oil adsorption module 110 may be connected to the screen network 120 and a string-shaped connecting member to be positioned at a predetermined position according to the fluctuation level of the contaminated water inside the pretreatment tank 100. By allowing the oil adsorption module 110 to be constantly positioned, the oil adsorption cloth 111 of the oil adsorption module 110 can be more easily replaced.

The reduction plate 130 serves to control the irregular flow rate and kinetic energy of the contaminated water flowing into the pre-treatment tank 100 so that the contaminated water is distributed and introduced in a certain direction. To perform this role, the deceleration plate 130 is configured in the form of a plate having a plurality of through holes, and may be installed at a distance of 30 to 50 cm from the inlet.

In addition, the deceleration plate 130 may be made of a hydrogen material such as polytetrafluoroethylene (PTFE) and polyimide, spaced apart from the upper and lower portions of the pretreatment tank 100 by a predetermined distance, and the pretreatment tank 100 It can be installed in a structure fixed to both sides of the.

As described above, installing the reduction plate 130 so as to be spaced apart from the upper and lower portions of the pre-treatment tank 100 by a predetermined distance so that the perforated portion of the reduction plate 130 does not affect the flow of water even if it is blocked by contaminants. It is to do.

The reduction plate 130 is a component that aims to reduce the energy of the incoming contaminated water and decelerate the flow of the contaminated water from irregular turbulence to a stable flow to increase the sedimentation efficiency of the pollutant.

3 is a cross-sectional view showing the configuration of the filtration tank 200 according to the present invention. Referring to FIG. 3, the structure and shape of the support frame 210, the filter media pocket 220, and the back pipe 230 located inside the filtration tank 200 can be confirmed.

The filtration tank 200 serves to filter contaminated water flowing into one side of the filtration tank 200 using a filter medium, and in order to perform this, the filter tank 200 includes a support frame 210 and a filter media pocket 220 ) And back-customs 230.

The filtration tank 200 may enter the lower portion of the filtration tank 200 through the pre-treatment tank 100, and the contaminated water may be contacted from the lower portion of the filter media pocket 220 to perform an upstream filtration process.

The support frame 210 is installed in the filtration tank 200 and serves as a support that can mount a plurality of filter media pockets 220. To accomplish this, the support frame 210 may be configured in a frame-like frame structure. Since the filter media pocket 220 may be mounted on the grid structure formed by the support frame 210, the grid size may vary depending on the size of the filter media pocket 220. In addition, the supporting frame 210 can be washed separately from the mounted filter pocket 220 and the filter tank 200, and is made of a metal material such as stainless steel or zinc so as not to be corroded by contaminated water. It can be composed of metal materials that are surface treated, such as plating.

Filter media pocket 220 serves to filter the contaminants inside the contaminated water in contact with the contaminated water introduced into the filtration tank 200, and to perform this, may be composed of a porous mesh or a cartridge in the form of a housing and therein Filter media may be inserted.

The filter media pocket 220 may be composed of a porous network made of a polymer polymer such as polyethylene, and may be composed of a cartridge in the form of a housing made of a hydrophobic polymer such as polytetrafluoroethylene (PTFE) and polyimide. . Since the filter media pocket 220 has an open structure in various directions, it is possible to contact the contaminated water introduced into the filter tank 200 in various directions.

The plurality of filter media pockets 220 may be mounted on the support frame 210 and operated, separated from the support frame 210 and washed, and the filter material therein may be replaced.

The filter medium (not shown) serves as a member for directly filtering contaminants inside the contaminated water, and to accomplish this, may be composed of porous granular aggregates such as sponges and activated carbon or hollow fibers made of several branches. After using the filter material for a certain period of time, it can be replaced to increase the efficiency of filtration.

The backwash pipe 230 serves to remove the remaining contaminated water from the filter tank 200 so that the filter tank 200 can be backwashed, and in order to perform this, the filter media pocket from the outside to the bottom of the filter tank 200 ( 220). The back pipe 230 may be formed in a pipe shape having a constant thickness, and may be made of a metal material such as stainless steel or a surface treated metal material such as zinc plating to prevent corrosion by contaminated water. Can be configured.

Although described above with reference to preferred embodiments of the present invention, those skilled in the art variously modify and change the present invention without departing from the spirit and scope of the present invention as set forth in the claims below. You can understand that you can.

1000: boiling point pollution reduction device
100: pretreatment tank
110: oil adsorption module
111: oil adsorption cloth
112: buoyancy material
120: screen network
130: reduction plate
200: filtration tank
210: support frame
220: media pocket
230: Station Customs

Claims (10)

It is provided with an inlet and an outlet through which contaminated water flows in and out, and is located adjacent to one side of the outlet, and a screen screen and oil adsorption cloth and buoyant material having a constant width and width to filter contaminants of the contaminated water through a net-shaped filter. A pretreatment tank including an oil adsorption module which is connected to the screen net and connected to a string-shaped connecting member and continuously increases according to the buoyancy of the polluted water to continuously remove the oil of the polluted water; And
It consists of a porous mesh made of polyethylene or a housing-type cartridge made of polytetrafluoroethylene (PTFE) and is detachable. Filter media is inserted inside, and the filter media pocket and grid structure or frame are contacted with contaminated water from all directions from the bottom. Consists of a shape and is made of zinc-plated surface-treated stainless steel, includes a support frame that can be attached and detached through the filter media pocket, and the contaminated water pre-treated through the pre-treatment tank from the lower side enters the upper side and clean water with an upstream filtration treatment. It includes a filtration tank discharged to the part,
The pretreatment tank,
It reduces the kinetic energy of the irregularly generated contaminated water and allows the contaminated water to be distributed and distributed in a certain direction, and is formed in a plate shape in which a plurality of through holes are formed. And a reduction plate positioned spaced apart from the lower portion.
The filtration tank,
Made of stainless steel, located on the side of the filter medium pocket, characterized in that it further comprises a;
Boiling point pollution reduction device.
delete delete delete delete delete delete According to claim 1,
The filter medium,
Characterized in that it is a porous granular aggregate such as sponge and activated carbon or a hollow fiber composed of several branches,
Boiling point pollution reduction device.
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