KR102605067B1 - First rainwater treatment apparatus - Google Patents

Abstract

The present invention relates to an initial rainwater treatment device. In addition to controlling the inflow amount of the initial rainwater that is classified as initial rainwater and flows into the rainwater treatment device, suspended and sediment substances contained in the rainwater are controlled by an inflow control member and an inlet member provided at the inlet of the pretreatment unit. The rainwater classified through the screen is filtered through several fiber ball filter media provided between the fixed plate and the moving plate provided in the filtration tank. When backwashing inside the filtration tank, it is filtered through a pneumatic cylinder. The downward motion of the moving plate scatters the dense fiber ball media and removes contaminants adsorbed on the filter media. This operation is repeated to remove contaminants adsorbed on the filter media, making it more efficient than backwashing of existing fiber ball media, allowing for a replacement cycle according to the life of the filter media. It can provide an effect that can be increased.

Description

First rainwater treatment apparatus}

The present invention relates to an initial rainwater treatment device, and more specifically, to control the inflow of rainwater for efficient treatment of initial rainwater, and when rainwater flows into the pretreatment unit, floating and sediment substances contained in the rainwater are smoothly introduced into the screen on the pretreatment unit side. This relates to an initial rainwater treatment device that enables separation, efficient filtration of the fiber ball filter media in the filtration treatment unit, and efficient cleaning of sludge adsorbed on the filter media by backwashing, thereby significantly extending the service life of the filter media.

In general, water pollution sources can be divided into point pollution sources and non-point pollution sources. Point pollution sources are pollution sources that are discharged in the form of sewers or ditches from points where pollution discharge can be clearly identified, and non-point pollution sources are sources such as fish farms, open storage yards, and agricultural lands, especially This means that pollutants are transported by rainwater from a wide area, such as the road surface of an urban road, and are discharged from scattered pollutants whose exact source is difficult to identify.

These non-point pollution sources are also called non-specific pollution sources, surface pollution sources, mobile pollution sources, or other water pollution sources. Unlike point pollution sources that have a specific discharge route, non-point pollutants are generated through unspecified discharge routes such as urban surface drainage or agricultural land drainage. Refers to a place or area.

Here, non-point pollutants are mainly pollutants that run off with surface runoff during rainfall, such as fertilizers or pesticides sprayed on farmland, soil erosion, livestock runoff, traffic pollutants, dust and waste in urban areas, and residues of natural flora and fauna. This refers to water and air pollutants that fall on the ground surface. From the past to present, management and support at the central government level related to pollutant treatment have been focused on workplaces with clear pollutant discharge sources, sewage treatment facilities, wastewater treatment facilities, livestock wastewater treatment facilities, and excrement treatment facilities.

Specifically, dust floating in the air and heavy metals contained in this dust fall and deposit on the road surface, and furthermore, fine particles contained in exhaust gas from driving of a car, tire wear and asphalt wear due to driving of a car. Environmental pollutants are also piled up. These environmental pollutants contain heavy metals such as cadmium and eutrophic salts such as nitrogen and phosphorus, and can have a harmful effect on the human body.

In this way, various pollutants accumulated on the road surface are discharged into the river through road drains during rainfall. Although the overall pollutant concentration of the runoff water discharged into the river with rainfall is low, the total amount greatly exceeds that of point pollution sources. , the problem of treating surface drainage from impervious areas such as roads and parking lots is emerging to ensure stable water quality.

Therefore, filtration of the initial rainwater that flows in in an extremely polluted state must be prioritized, and equipment for treating such rainwater is installed underground to treat the contaminated water to a cleaner state and discharge it into the river.

In this way, the initial rainwater treatment equipment for non-point pollution sources includes a pretreatment unit that receives and treats rainwater flowing in from the outside, a filtration treatment unit that filters the contaminated water that filters out various floating or sediments in the pretreatment unit, and a filtration treatment unit that filters the water filtered in the filtration treatment unit. It consists of a washing section that receives and purifies the water or reintroduces it into the filtration tank to backwash the filter media provided in the filtration treatment section.

The pretreatment unit is provided with a pretreatment tank, and a screen is provided in the inner space of the pretreatment tank to filter out contaminants contained in the contaminated water. The filtration treatment unit is equipped with a filtration tank so that the contaminated water flowing from the pretreatment tank to the filtration treatment unit can be filtered. The contaminated water is filtered through the filter media provided in the filtration tank.

The washing unit is a separate space dividing the filtration tank, and is equipped with a washing tank in which water filtered while passing through the filter media of the filtration treatment unit overflows to the upper part of the partition wall and is stored.

This washing tank is equipped with a motor pump that can resupply some of the purified water to the filtration tank side and pump water during backwashing of the filter medium, and an outlet pipe for discharging the purified water is installed on one side.

As a source technology for treating non-point pollutants in which filtration of initial rainwater is performed as described above, Republic of Korea Patent No. 10-1700931 (name: Non-point pollutant reduction device capable of backwashing screen and fiber ball filter media, hereinafter referred to as 'patent document') ) is disclosed.

The patent document states that the initial amount of rainwater received is set, and when rainwater no longer flows in due to blocking, backwashing of the screen and fiber ball filter of the filtration device is possible, and at the same time, the stagnant water remaining inside is discharged to the outside. By allowing discharge, the efficiency of rainwater treatment can be improved to solve problems caused by stagnant water. During backwashing, the backwashing effect of the screen and fiberball filter media can be improved by widening the spacing between the fiberball filter media. It is a non-point source pollution reduction device.

However, the above-mentioned patent document states that rainwater inflowing through the rainwater inflow pipe and inflow space on the pre-treatment unit side, where floating or sediment (fine or coarse impurities) contained in the initial rainwater are separated, is distributed through the distribution hole of the rectification wall that crosses the inside of the settling tank. Since it flows into the sedimentation space through a screen and filters out relatively large suspended solids, it has the disadvantage of not being able to be classified smoothly through a screen made of sponges.

In addition, backwashing of the filter media on the filtration treatment unit side is performed by using a buoyancy body that widens the gap between the perforated plates to backwash several fiber ball-type filter media sandwiched between the fixed perforated plate and the movable perforated plate. It is designed to activate the movement of the media by repeatedly expanding or narrowing the pores.

This is a structure that raises or lowers the buoyancy body in the rainwater filled in the filtration processing unit by the amount of fluid (air) separately flowing into the buoyancy body. However, in order to implement this operation, an air compressor is used to increase the buoyancy of the buoyancy body. Because the adjustment is made, various sludge adsorbed on the fiber ball filter media is shaken off or the cleaning speed is very slow.

This causes a problem in that the efficiency in removing the sludge adsorbed on the filter medium is reduced and the lifespan of the filter medium is greatly reduced, and the replacement period of the filter medium is also shortened, so the efficiency in actual backwashing is significantly reduced.

Korean Patent No. 10-1700931 (registered on January 23, 2017)

The present invention was invented to solve the conventional problems as described above. It controls the inflow of rainwater for efficient treatment of initial rainwater, and when rainwater flows into the pretreatment unit, floating and sediment substances contained in the rainwater are transferred to the screen on the pretreatment unit side. It ensures smooth input and separation, and provides efficient filtration of the fiber ball filter media in the filtration treatment unit, as well as efficient cleaning of sludge adsorbed on the filter media by backwashing. This is an initial rainwater treatment device that can significantly extend the service life of the filter media. The purpose is to provide.

According to the present invention to achieve the above object, only the initial rainwater classified from the well where the initial rainwater flows in, separates the rainwater and impurities through a screen provided inside the pretreatment tank, and discharges the stagnant water through a discharge pump. A rainwater pretreatment unit, a filtration treatment unit for filtering rainwater filtered through the screen in a filtration tank partitioned on one side of the rainwater pretreatment unit, and a filtering unit for filtering rainwater filtered in a washing tank located on one side of the filtration treatment unit. In the initial rainwater treatment device consisting of a washing unit that backwashes the fiber ball filter media by discharging it into sewage through an outflow pipe or supplying rainwater to the filtration treatment unit through a motor pump installed inside,

The rainwater pretreatment unit is an air tube that receives initial rainwater and expands or contracts by controlling the air pressure to control the inflow of rainwater into the inlet where contaminated rainwater and impurities contained in the rainwater flow, and is installed on the ceiling or side of the inlet. An inflow control member configured to open and close the inlet is installed,
On one side of the inlet, there is a round pipe that gradually narrows toward the screen to guide the initial rainwater, including contaminants, to the screen provided in the pretreatment tank. Inside, there are corresponding wings for the smooth inflow of rainwater and contaminants. An internet member is provided,
The filtration treatment unit includes a fixed plate with several holes perforated to filter rainwater separated through the rainwater pretreatment unit between the partition wall dividing the filtration tank and the washing tank, and a moving plate with several holes perforated in a shape corresponding to the fixed plate. At the bottom of the moving plate, a plurality of guide shafts are guided by a guide pipe attached to the partition wall that divides the filtration tank and the washing tank and are installed to move up and down. At the bottom of the moving plate, a fiber ball filter is inserted between the fixed plate and the moving plate. Pneumatic cylinders for repeatedly moving the moving plate up and down for backwashing are installed at multiple points from the bottom of the filtration tank, and the pneumatic cylinders are connected by a pneumatic hose to be synchronized with the air compressor.

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Air is sprayed on the filtration tank side partition wall between the fixed plate and the moving plate where the fiber ball filter media according to the present invention is accommodated in both transverse directions in a form facing each other to remove the loose fiber ball filter media between the fixed plate and the moving plate from the washing tank. The ends of the nozzles are installed on the same line as the bulkheads on both sides to aerate with the water introduced by backwashing, and by adjusting the air pressure sprayed up and down through each air nozzle, the fiber ball media are placed in a eddy shape. It is characterized by a plurality of air nozzles arranged to be aerated through the piping.

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The present invention regulates the inflow of the initial rainwater that is classified as early rainwater and flows into the rainwater treatment device, and the floating and sediment substances contained in the rainwater are smoothly introduced into the screen through the inflow control member and inlet member provided at the inlet of the pretreatment unit. Rainwater classified through the screen is filtered through several fiber ball filter media provided between the fixed plate and the moving plate provided in the filtration tank. When backwashing inside the filtration tank, the rainwater is concentrated by the downward motion of the moving plate by the pneumatic cylinder. By repeatedly performing the operation of scattering the fiber ball filter media to remove contaminants adsorbed on the filter media, it is possible to provide the effect of extending the replacement cycle according to the life of the filter media through more efficient cleaning than the backwashing of the existing fiber ball filter media. there is.

1 is an internal configuration diagram of the initial rainwater treatment device of the present invention;
Figure 2 is a side cross-sectional view showing a rainwater treatment device according to the present invention;
Figure 3 is a cross-sectional view showing a rainwater treatment device according to the present invention;
Figure 4 is an enlarged front view showing the installation state of the fixed plate, moving plate, and pneumatic cylinder for backwashing inside the filtration tank in Figure 2;
Figure 5 is a cross-sectional view showing the operating state of the inflow control member according to the present invention;
Figure 6 is a perspective view showing an excerpt of a net member that introduces rainwater into the screen side according to the present invention;
Figure 7 is an enlarged view showing the filtration state of rainwater through a filter medium in the filtration treatment unit according to the present invention;
Figure 8 is an enlarged view showing the backwashing state of the filter medium in the filtration treatment unit according to the present invention;
Figure 9 is an enlarged view showing a state in which an air nozzle for backwashing the filter medium is installed in the filtration treatment unit according to an embodiment of the present invention.

Hereinafter, the present invention will be described in more detail with reference to the attached drawings.

Prior to this, the terms or words used in this specification and claims should not be construed as limited to their usual or dictionary meanings, and the inventor should appropriately define the concept of terms in order to explain his or her invention in the best way. It must be interpreted as meaning and concept consistent with the technical idea of the present invention based on the principle of definability.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are only one of the most preferred embodiments of the present invention and do not represent the entire technical idea of the present invention, so at the time of filing this application, they can be replaced. It should be understood that various equivalents and variations may exist.

The initial rainwater treatment device according to the present invention will be described with reference to the attached FIGS. 1 to 9 as follows.

Only the initial rainwater classified from the well (1) where the initial rainwater flows in flows in, separates the rainwater and contaminants through the screen (12) provided inside the pretreatment tank (11), and discharges the stagnant water through the discharge pump (P1). A rainwater pretreatment unit (10) that filters rainwater filtered through the screen (12) in a filtration tank (21) partitioned on one side of the rainwater pretreatment unit (10) by passing it through a dense fiber ball filter medium (22). The rainwater filtered in the treatment unit 20 and the washing tank 31 drained on one side of the filtration treatment unit 20 is discharged into the sewage through the outflow pipe 31a, or the rainwater is discharged to the filtration treatment unit using a motor pump (P2) installed therein. In the initial rainwater treatment device (100) consisting of a washing unit (30) that supplies the fiber ball filter media (22) to (20) and backwashes the fiber ball filter medium (22),

The rainwater pretreatment unit 10 receives initial rainwater and is provided with an inlet in the partition wall through which contaminated rainwater and contaminants contained in the rainwater can flow in, and this inlet is located on the upper side of the overall rainwater treatment device.

In addition, an inflow control member 13 is installed at the inlet 11a to control the inflow of rainwater.

The inflow control member 13 is an air tube that expands or contracts by controlling the air pressure, and is installed on the ceiling or side of the inlet 11a to open and close the inlet.

That is, the inflow control member 13 made of an air tube is expanded and contracted by controlling the amount of air injected, and is used to control the amount of initial rainwater that can be introduced and filled to a predetermined position in the pretreatment tank 11. It is designed to be suitable for .

The water level of rainwater filled in the pretreatment tank 11 is controlled so that only the appropriate water level is sensed and filled by a water level sensor provided in the pretreatment tank. This allows the signal transmitted from the water level sensor to control the air pressure regulator (for example, a compressor) connected to the inflow control member 13 according to the commands of the control unit to adjust the degree of opening and closing of the inlet 11a.

This is to ensure that initial rainwater, which is an extremely polluted non-point source, is received and treated efficiently.

In addition, at one side of the inlet 11a, an inlet member 14 is provided to guide initial rainwater containing contaminants toward the screen 12 provided in the pretreatment tank 11.

The net member 14 is a round-shaped flow pipe that gradually becomes narrower toward the screen 12, and corresponding wings 14a are formed inside it to allow smooth inflow of rainwater and impurities. Here, it is desirable that the wing portion 14a protrudes to a length that facilitates the inflow of rainwater and at the same time does not trap debris as much as possible.

Meanwhile, the filtration treatment unit 20 is a fixed plate with several through holes 23a perforated between the partition wall dividing the filtration tank 21 and the washing tank 31 to filter the rainwater separated through the rainwater pretreatment unit 10. (23) and a moving plate 24 having several through holes 24a in a shape corresponding to the fixed plate 23 are provided.

The through hole 23A of the fixed plate 23 and the through hole 24a of the moving plate 24 are perforated to a size that prevents the fiber ball media 22 from escaping, and the fiber ball media has a diameter of 25 mm to 50 mm. Any one of them or a mixture of sizes with different diameters can be installed.

The edge of the fixed plate 23 is fixed in close contact with the surrounding partition wall W, and the moving plate 24 has a gap between the upper and lower sides at a distance sufficient to prevent the fiber ball media 22, which will be described later, from escaping. It is installed movably.

A plurality of guide shafts 24b are provided at the lower part of the moving plate 24.

The guide shaft 24b is guided by a guide pipe body 25 attached to the partition wall dividing the filtration tank 21 and the washing tank 31 and is installed to be movable up and down.

The guide shaft (24b) and the guide pipe body (25) are both installed at four points, and the moving plate (24) is installed to be horizontal and adjusted in height up and down with respect to the horizontal fixed plate (23). The height of (24) is adjusted so that it is raised and lowered by the pneumatic cylinder (26) provided at 4 points at the bottom of the moving plate.

The pneumatic cylinders 26 are connected and installed by a pneumatic hose (H) to be synchronized with the air compressor (C) installed at the bottom of the filtration tank (21), and their operation is controlled by opening and closing the solenoid valve as shown in FIG. 2.

Between the fixed plate 23 and the moving plate 24, several fiber ball filter media 22, which are made of PE yarn for filtration of rainwater and are manufactured to have pores and elasticity to allow fluid to flow, are interposed, This means that rain water is filtered in a dense state with the fiber ball media, and when the moving plate 24 corresponding to the fixed plate 23 is lowered for backwashing, the adsorbed sludge is scattered between the fixed plate and the moving plate. A filtering material is applied to allow it to be produced.

Meanwhile, as an embodiment according to the present invention, as shown in the attached FIG. 9, there is a partition wall on the side of the filtration tank 21 between the fixed plate 23 and the moving plate 24 where the fiber ball filter media 22 is accommodated. An air nozzle for aerating the loose fiber ball media (22) between the fixed plate and the moving plate by spraying air from both lateral directions in a form facing each other along with the water introduced by backwashing from the washing tank (30). (N) is installed in multiple arrays through this pipe.

Air is supplied from the air nozzle (N) to aerate the fiber ball media (22) between the fixed plate (23) and the moving plate (24) using the air pressure provided from the air compressor (C). A blower is further connected from the air compressor (C) so that air can be sprayed from the lower side of the moving plate (24).

The air nozzle (N) is arranged so that the air pressure sprayed on both sides is offset from each other so that each side can be sprayed differently.

The air nozzles (N) are installed in the same line as the partition walls on both sides so that the ends of the nozzles are in the same line, and are arranged to aerate the fiber ball media in an eddy shape by adjusting the air pressure sprayed up and down through each air nozzle.

For reference, the pneumatic cylinder 26 is rotatably connected to the upper end of the operating rod and the lower part of the cylinder body by support brackets, respectively. This is to cope with the instantaneous tilt of the moving plate from both sides of the partition wall when compressing or decompressing the fiber ball media in a dense manner due to the nature of the pneumatic cylinder that moves the moving plate up and down.

The operating rod side of the pneumatic cylinder is connected to a support bracket, which is fixed to the bottom of the moving plate, and the lower support rack is fixed to a frame provided on the bottom of the filtration tank to maintain the upright position.

In the washing unit 30, a supply line L1 is installed on the side of the motor pump P2 provided in the washing tank 31 to supply filtered rainwater to the filtration treatment unit 20.

A partition wall (W) is provided between the filtration tank 21 and the pretreatment tank 11 according to the present invention to allow initial rainwater to overflow from the pretreatment tank, and between the partition wall on the filtration tank side where the fixed plate and the moving plate are installed. An auxiliary discharge pump (P3) is further installed to treat stagnant water remaining in the filtration tank from the filtration tank to the pretreatment tank after backwashing.

The operation of the initial rainwater treatment device of the present invention configured as described above is described as follows.

Typically, the initial rainwater that passes through the inflow pipe through the well (1) on the road flows into the pretreatment tank of the pretreatment unit that constitutes the rainwater treatment device of the present invention when it flows below the overflow wall of approximately 300 mm in height, and flows in during rainfall. Management is carried out in such a way that it is discharged directly into the river beyond the overflow wall inside the observation area.

As described above, when the initial rainwater flows into the pretreatment tank 11 of the pretreatment unit 10, the initial rainwater flowing into the pretreatment tank 11 of the pretreatment unit 10 is connected to the inlet 11a on the partition wall side and the screen 12 provided in the pretreatment tank from the inlet. It is sent to the screen through (14), and the rainwater separated from contaminants through the screen overflows into the filtration tank, including the pretreatment tank, to fill up to the set water level.

As described above, when the initial inflow of rainwater fills the pretreatment tank 11 up to the set height, the water level detection sensor detects this, and at this time, the detected signal is sent to the inflow control member 13 installed at the inlet 11a through the control unit. Manipulate to completely block the inlet or adjust the degree of opening of the inlet using the inflow control member to control the inflow of rainwater during the initial filtration time considering the inflow of rainwater.

The inflow control member 13 is fixed to the inner wall or ceiling of the inlet 11a in the form of an air tube, and blocks or opens the inlet under the condition of expanding the inlet 11a, thereby allowing the inflow and blocking of rainwater. It has the advantage of being relatively cheaper and less prone to malfunction than conventional blocking devices.

As described above, the rainwater flowing in through the inlet 11a contains contaminants, which are transferred to the screen 12 through the net member 14 connecting the screen 12 and the inlet 11a. should be invested.

The net member 14 is a gradually narrowing pipe that facilitates the inflow of rainwater, and the wing portion 14a provided therein also allows smooth inflow.

Since the innut member 14 becomes narrower toward the screen 12 and is rounded on one side, it allows rainwater and impurities to easily flow into the screen 12, and the rainwater and impurities flowing in here are separated inside the screen.

Typically, the screen 12 is manufactured to separately collect contaminants inside and discharge them, and initial rainwater is first filtered through the mesh net and filled into the pretreatment tank 11. The various contaminants separately collected inside the screen will be treated separately in the future. This is a cone-shaped type that allows rainwater to drain from the inside to the outside and dispose of contaminants. This is a common technical content, so detailed description will be omitted. do.

As described above, the rainwater separated through the screen 12 overflows the partition wall W of the pretreatment tank 11, fills the filtration tank 21, and is filtered while passing through the fiber ball filter media 22 densely packed in the filtration tank, and the sludge is It is filtered as it is absorbed into the fiber ball media.

As shown in FIG. 7, the fiber ball filter medium 22 is in a state in which the moving plate 24 is raised by the operation of the pneumatic cylinder 26 installed from the bottom of the filtration tank 21. ) are densely compressed, where rainwater is filtered through the pores of the filter media, and the filtered rainwater overflows through the partition wall (W) and is filled with the washing tank 31 of the washing unit 30.

This process is carried out for a set time, and in case of moderate rainfall, the inlet (11a) is completely blocked through the inflow control member (13), thereby enabling non-point pollution sources of initial rainwater to be treated.

In the state where the initial rain water has been filtered as described above, backwashing of the filtration tank 21 is performed. This is done by lowering the moving plate 24 using the pneumatic cylinder 26, and the compressed fiber ball filter media 22 ) are each scattered within the space created between the fixed plate 23 and the moving plate 24.

The four-point guide shaft 24a provided at the lower part of the moving plate 24 is guided by the guide pipe body 25 provided on the partition wall (W) side of the filtration tank 21 and operates vertically.

By repeatedly deconcentrating the fiber ball filter medium 22 using the pneumatic cylinder 26 as described above and then raising and compressing the moving plate 24 again, various foreign substances adsorbed on the fiber ball filter medium 22. and sludge are eliminated.

After sufficient backwashing has been performed in the manner described above, the sludge containing rainwater that has fallen out of the fiber ball filter media (22) is treated and sent back to the pretreatment tank (11) and discharged to a separate treatment facility through the discharge pump (P1). Let me do it.

In carrying out the above operation, the washing tank 31, on the contrary, injects the filtered rainwater into the washing tank, so that the stagnant water remaining in the filtration tank 21 and the pretreatment tank 11 can be discharged and treated as sewage.

As described above, the stagnant water inside the filtration tank can be discharged through the discharge pump (P1) of the pretreatment tank and the auxiliary discharge pump (P3) provided between the pretreatment tank and the filtration tank.

Meanwhile, the fiber ball media 22 by backwashing as described above is aerated during the repeated lifting and lowering operation of the moving plate 24 by the pneumatic cylinder 26 as described above, thereby shaking off various adsorbed contaminants. This allows the lifespan of the fiber ball media to be significantly extended.

Furthermore, in an embodiment shown in the attached FIG. 9, a plurality of air nozzles (N) are provided on both sides of the partition wall (W) inside the filtration tank (21) where the fixed plate (23) and the moving plate (24) are located. ) is sprayed with air.

The air nozzle (N) is designed to adjust the diameter of the nozzle part, and adjusts the air injection pressure sprayed through it. When the moving plate 24 is lowered by the pneumatic cylinder 26 as described above, the fiber ball By aerating the filter media 22 in a mixed form due to the eddy phenomenon, contaminants adsorbed on the fiber ball filter media can be eliminated as efficiently as possible.

This backwashing of the filter media can significantly improve the filtration service life of the fiber ball filter media, and this operation can increase the efficiency of rainwater treatment by increasing the replacement period of the fiber ball filter media.

When cleaning is completed, the moving plate is raised using a pneumatic cylinder to keep the fiber ball filter media pressed between the fixed plate and the moving plate, and the initial rainwater filtration is repeated.

As described above, the present invention has been described with specific details such as specific components and limited embodiments and drawings, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , those skilled in the art can make various modifications and variations from this description.

Therefore, the spirit of the present invention should not be limited to the described embodiments, and the scope of the patent claims described below as well as all things that are equivalent or equivalent to the scope of the claims will be said to fall within the scope of the spirit of the present invention. .

1: Well 10: Stormwater pretreatment section
11: pretreatment tank 11a: inlet
12: Screen 13: Inflow control member
14: Net member 14a: Wing portion
20: filtration processing unit 21: filtration tank
22: fiber ball media 23: fixing plate
24: moving plate 24a: guide axis
25: Guide pipe body 26: Pneumatic cylinder
30: washing unit 31: washing tank
C: Air compressor N: Air nozzle
P1: Discharge pump P2: Motor pump
P3: Auxiliary discharge pump W: Bulkhead

Claims (5)

Only the initial rainwater classified from the well (1) where the initial rainwater flows in flows in, separates the rainwater and contaminants through the screen (12) provided inside the pretreatment tank (11), and discharges the stagnant water through the discharge pump (P1). A rainwater pretreatment unit (10) that filters rainwater filtered through the screen (12) in a filtration tank (21) partitioned on one side of the rainwater pretreatment unit (10) by passing it through a dense fiber ball filter medium (22). The rainwater filtered in the treatment unit 20 and the washing tank 31 drained on one side of the filtration treatment unit 20 is discharged into the sewage through the outflow pipe 31a, or the rainwater is discharged to the filtration treatment unit using a motor pump (P2) installed therein. In the initial rainwater treatment device (100) consisting of a washing unit (30) that supplies the fiber ball filter media (22) to (20) and backwashes the fiber ball filter medium (22),
The rainwater pretreatment unit 10 is an air tube that receives initial rainwater and expands or contracts by controlling the air pressure to control the inflow of rainwater into the inlet 11a through which contaminated rainwater and contaminants contained in the rainwater flow. (11a) An inflow control member 13 is installed on the interior ceiling or side to open and close the inlet 11a,
On one side of the inlet 11a, there is a round pipe that gradually narrows toward the screen to guide the initial rainwater, including impurities, toward the screen 12 provided in the pretreatment tank 11, and inside it is a pipe in which rainwater and impurities are stored. A net member 14 is provided with wings 14a corresponding to each other for smooth inflow,
The filtration treatment unit 20 has several through holes 23a perforated between the partition wall W dividing the filtration tank 21 and the washing tank 31 to filter rainwater separated through the rainwater pretreatment unit 10. A fixed plate 23 and a moving plate 24 having several through holes 24a in a shape corresponding to the fixed plate 23 are provided,
At the lower part of the moving plate 24, a plurality of guide shafts 24b are installed to be able to move up and down while being guided by a guide pipe body 25 attached to the partition wall dividing the filtration tank 21 and the washing tank 31. At the bottom of the plate 24, a pneumatic cylinder 26 is provided to repeatedly move the moving plate 24 up and down to backwash the fiber ball filter medium 22 interposed between the fixed plate 23 and the moving plate 24. An initial rainwater treatment device, characterized in that it is installed at multiple points from the bottom of (21), and the pneumatic cylinder is connected to the pneumatic hose (H) to be synchronized from the air compressor (C).
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On the partition wall on the side of the filter tank (21) between the fixed plate (23) and the moving plate (24) where the fiber ball filter media (22) is accommodated, air is sprayed from both lateral directions in the form of facing each other to remove any looseness between the fixed plate and the moving plate. In order to aerate the fiber ball media 22 along with the water introduced by backwashing from the washing tank 30, the nozzle ends are installed in the same line as the partition walls on both sides, and the nozzle ends are aligned with the water through each air nozzle. An initial rainwater treatment device characterized by a plurality of air nozzles (N) arranged through a pipe to aerate the fiber ball filter media in an eddy shape by adjusting the air pressure sprayed up and down. delete

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