KR101315343B1 - Filter and treatment system for stormwater - Google Patents

Abstract

PURPOSE: A rainwater treatment system is provided to easily separate a solid material attached to a filter and to facilitate replacement of the filter. CONSTITUTION: A rainwater treatment system comprises a filter tub (130); a reverse washing tub (150); a filter installation board (131); at least one filter (140); a sludge tub (160); and an opening/closing valve (161). The reverse washing tub is installed onLED lamppper part of the filter tub. The filter installation board divides the filter tub and the reverse washing tub. A filter is connected to the filter tub. The opening/closing valve opens/closes flow of contaminated water between the filter tub and the sludge tub. As rain water of the filter tub reversely passes the filter as the opening/closing valve opens, and the rain water is discharged through the sludge tub, a solid material attached to the filter is removed by water pressure. [Reference numerals] (AA) Process water tank; (BB) Discharging

Description

FILTER AND TREATMENT SYSTEM FOR STORMWATER}

The present invention relates to a contaminated water purification system and a filter for purifying contaminated water generated from a contaminated source. In particular, it is a pretreatment facility for an initial rainwater treatment facility or a combined sewage treatment plant in a nonpoint source, which filters out total suspended solids included in the initial 5mm precipitation to prevent the inflow of the initial rainwater, which is highly polluted. A stormwater treatment system and a filter for said treatment.

In general, water pollution sources are divided into point pollution sources and non-point pollution sources for the convenience of prevention and management. Polluted water by point source is generated within a certain point or relatively narrow area, such as domestic sewage, industrial waste, livestock waste, etc., and it is possible to clarify the point where the pollutant is relatively specified and where the polluted water is generated. The treatment is relatively easy.

On the other hand, polluted water due to non-point sources occurs on a wide range of discharge paths, such as urban development, industrial complexes, agricultural land drainage, urban road drainage, etc., and pollutants are difficult to identify and usually occur with rain. It is difficult to treat because it has a large difference in emissions, difficult to predict and quantify, and has a lot of influences on weather conditions, geology, and terrain, which are difficult to artificially control.

On the other hand, pollutants include a variety of particulate matter having a specific gravity greater than that of water, a particulate matter having a specific gravity less than the specific gravity of water, a substance moving in a dissolved state of water, a substance moving together in a colloidal state, and an organic substance. There are many types of contaminated water from nonpoint sources, unlike contaminated water from point sources. Here, the particulate matter having a specific gravity larger or smaller than the specific gravity of water can be separated using physical precipitation or buoyancy, and in the case of soluble materials and colloidal materials, they are separated by precipitation or flotation by chemical treatment. You can make it.

For reference, a method of separating contaminants by filtration or adsorption is also disclosed. Since the contaminated water generated from the nonpoint source is difficult to identify the contaminants and may contain all kinds of contaminants, the purification device having only a specific purification method may not have an excellent purification rate. Therefore, there is a need for a purification device having various purification methods.

Especially in the case of rain from nonpoint sources, the initial precipitation of 5 mm may contain many pollutants. This is because various harmful substances generated from non-point source are washed away by the early rain. Therefore, there is a need to purify the initial excellent water that may be contaminated with phosphorus, nitrogen, heavy metal components and total suspended solids.

Applicant has applied for and registered the invention of Registration No. 10-0895623 (inventive name: Stormwater Purification System). However, the above invention does not disclose a technique using backwashing water. In addition, as a problem to be pointed out, the filtering filter has a solid attachment to the filter over time, the replacement cycle of the filter is faster, there is a risk that the storm water of the purification system backflow due to the clogging of the filter.

The present invention has been made in order to solve the above problems, in the separation of sediment, in the management of the filter to filter the suspended solids attached to the filter, the rainwater treatment system that can easily remove the filter, or can easily replace the filter Its purpose is to provide a description.

A filter according to the present invention for achieving the above object, the filter body for filtering contaminants; And a filter frame for supporting the filter body. It includes, The filter body, Filter network for filtering contaminants; And a main body flange for securing a passage hole through which the contaminated water filtered by the filter network can pass. It includes, The filter frame, Retaining skeleton for maintaining the shape of the filter network; And a frame flange in contact with the main flange. And a control unit.

The filter module according to the present invention for achieving the above object, the filter of claim 1 is provided with a plurality; And a filter installation plate on which the plurality of filters are installed. And a control unit.

In addition, the filter net is characterized in that the surface of the filter net is corrugated.

Water treatment system according to the present invention for achieving the above object, the filter tank into which the contaminated water flows; A backwash bath disposed above the filtration tank; A filter mounting plate dividing the filtration tank and a backwash tank; At least one filter mounted to the filter mounting plate; A sludge tank connected to the filtration tank; And an on / off valve for opening and closing the movement of the contaminated water between the filtration tank and the sludge tank. And a control unit.

In addition, the filter mounting plate is installed a plurality of the filter; Further comprising, the filter installation plate is characterized in that detachable to the filter mounting plate.

In addition, the filter is characterized in that the filter of claim 1.

In addition, the filter net is characterized in that the surface of the filter net is corrugated.

In addition, the settling tank in front of the filtration tank; A sludge pump connected to the settling tank; An induction tank allowing rainwater of the settling tank to flow into the lower portion of the filtration tank; An air blower for removing solids attached to the filter; And overflow water pipe for the discharge when the flow rate is more than the flow rate design; Further comprising:

In addition, the settling tank, in order to prevent the introduction of the settling tank floating tank, the inlet is connected to the stop of the settling tank; It characterized in that it is connected to the induction tank.

In addition, the opening and closing valve between the filtration tank and the sludge tank; And a sludge pump in the sludge tank; Further comprising, as the rainwater of the filtration tank by the opening of the on-off valve is passed through the filter back out through the sludge tank, characterized in that for removing the solids attached to the filter by water pressure.

In addition, the treatment tank for filtering rainwater filtered by the filter and discharged to the backwash bath; Further comprising, but the plane, one surface of the sludge tank and the treatment tank is in contact with each other, the surface formed by the sludge tank and the treatment tank is a structure which is in contact with one surface of the back washing tank and the filtration tank consisting of the upper and lower It is characterized by.

According to the present invention as described above, the following effects can be obtained.

First, the present invention is the pre-treatment facility of the combined sewage treatment plant in which the initial rainwater is not separated from the sewage, it is effective to filter out suspended substances and sediment.

Second, as an excellent initial treatment facility in a nonpoint source, it has the effect of purifying contaminated initial excellent water.

Third, in the filtering, the replacement of the filter is easy due to the adoption of the cartridge replacement filter of the modular type, the maintenance cost is low, and there is an economic effect.

Fourth, the filter can be self-cleaned using a backwash bath, resulting in a long replacement cycle of the filter.

1 is a front view of a storm water treatment system as one embodiment according to the present invention.
2 is a plan view of a storm water treatment system according to one embodiment of the present invention.
3 shows one embodiment of a filter according to the invention.
4 shows one embodiment of a filter according to the invention.
Figure 5 shows one embodiment of a filter according to the invention.
6 shows the circulation direction of rainwater as one embodiment according to the invention.
Figure 7 shows the circulation direction of the backwash water as one embodiment according to the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In this process, the size or shape of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms defined in consideration of the configuration and operation of the present invention may vary depending on the intention or custom of the user or operator. Definitions of these terms should be construed as meanings and concepts corresponding to the technical spirit of the present invention based on the contents throughout the present specification.

In FIG. 1 and FIG. 2, the portion P denotes a pump.

1 is a schematic front view of a storm water treatment system as one embodiment according to the present invention, and FIG. 2 is a plan view.

In FIG. 1, the illustration of the treatment tank 170 is omitted on the rear surface of the sludge tank 160.

In the plan view of FIG. 2, the filtration tank 130 and the backwash tank 150 do not exist on the same plane, and the backwash tank 150 is positioned above the filtration tank 130.

The present invention for processing the initial excellent water in the initial tank is introduced into the filter tank 130, the back washing tank 150 provided on the upper portion of the filtering tank 130, the upper surface of the filtering tank 130 connected to the back washing tank 150 A configuration including a plurality of filter mounting plate 131 provided, a filter 140 inserted into the filter mounting plate 131 and a sludge tank 160 connected to the lower and the opening and closing valve 161 of the filtration tank 130. To achieve.

The filtration tank 130 is a device for filtering the suspended solids mainly contained in the initial excellent or the initial excellent and sewage. Usually used as an indicator of water quality measurement is called total suspended solids (TSS). TSS is a particle having a size of 0.1 μm to 3 μm as a material that floats in water and does not settle, and cloud the water. Substances such as total phosphorus, total nitrogen, total metal, and the like are included.

A filter 140 is provided to filter the filtration tank, and a filter mounting plate 131 is provided between the filtration tank and the backwash tank to mount the filter. Accordingly, the filter mounting plate 131 and the filter 140 form a boundary between the filtration tank 130 and the backwash tank 150. That is, the rainwater of the filtration tank is filtered as the countercurrent flows to the backwash tank 150. The filter mounting plate 131 is a device on which the filter 140 is mounted. The filter mounting plate may be made of concrete or metal. The filter is inserted into the filter hole provided in the filter mounting plate.

The schematic configuration of the filter 140 is shown in FIGS. 3 to 5.

As an embodiment of Figure 3, the configuration of the filter 140 includes a filter body 141, a filter frame 142 and a filter mounting plate 143, the filter body 141 is a filter network (141a) and A main body flange 141b is included, and the filter frame 142 includes a holding skeleton 142a and a frame flange 142b.

The filter main body 141 includes a filter net 141a and a main body flange 141b. The filter net 141a is a device of the net structure through which contaminants are filtered. The body flange 141b forms an upper edge of the filter body 141 and is coupled to the filter frame 142.

The filter frame 142 includes a holding skeleton 142a and a frame flange 142b. The holding skeleton 142a is located inside the filter net 141a to maintain the shape of the filter net 141a. The frame flange 142b is provided at the upper edge of the holding frame 142a to serve to connect the holding frame 142a to the filter mounting plate.

In Figure 4 a plurality of holding skeleton 142a is formed to form a circular filter group. The filter group is an embodiment of the filter 140, and each filter is installed on the filter mounting plate 143, and the filter mounting plate 143, the filter net 141a, and the main flange are mounted on the filter mounting plate. 141b, holding frame 142a, and frame flange 142b. The filter mounting plate 143 is installed in a group of a plurality of filters, it is mounted on the filter mounting plate. In addition, one or more handles may be provided on the upper surface of the filter installation plate 143 for convenience of mounting. In addition, the filter mounting plate 143 coupled to the filter mounting plate can be configured by a bolt nut structure or a flange by a thread. In addition, rubber packing may be provided at the coupling to prevent leakage of water.

FIG. 2 is a plan view of the storm water treatment system provided with the filter installation plate 143 forming the filter group. 2 is only one embodiment, the filter installation plate 143 may be provided in various ways in the entire system.

The filter network 141a filters the upstream rainfall.

The filter net 141a has a shape in which the side and the bottom of the cylinder are integrally connected. The surface of the filter net 141a has a net structure. Frames that support the network structure may be included. The net material is preferably a fiber, a nonwoven fabric of a synthetic resin, or a metal. In particular, it is preferable to use a mesh using a microfiber to densify the structure of the mesh. The upper edge of the filter body 141 is provided with a body flange (141b).

The filter net 141a is fixed between the filter mounting plate and the frame flange 142b by the main flange 141b and is maintained in shape by the holding frame 142a. In addition, the nozzle of the air blower is located inside the filter main body to remove solids on the surface of the filter net 141a. The filter body 141 may be replaced as a consumable, and the configuration of the filter group has been disclosed for convenience of replacement.

As an embodiment of the filter network 141a, a filter main body 141 having a pleated filter surface is disclosed in FIG. When the surface area of the filter surface is large compared to the amount of water treated to process the rainwater exiting from the outlet formed in the body flange 141b, the load on the filter network 141a can be reduced, which is efficient.

The body flange 141b is a protruding portion of the upper portion of the filter main body 141 and is sandwiched between the frame flange 142b and the filter mounting plate 131 on the upper portion of the holding skeleton 142a to frame the filter net 141a. ) Or to the filter mounting plate. The holding frame 142a is inserted into the filter body, and the body flange 141b of the upper portion of the filter body and the frame flange 142b of the upper portion of the holding frame 142a are integrally mounted to the filter mounting plate 131. In the process, the body flange 141b is fixed between the filter mounting plate and the frame flange 142b.

The holding skeleton 142a serves to maintain the shape of the filter body. The shape of the filter may be deformed by the flow of upflow. The filter body 141 is in close contact with the holding skeleton 142a by the flow of upflow, and the holding frame 142a is no longer deformed by the filter network 141a. Prevent it. The holding skeleton 142a is inserted into the filter body.

The frame flange 142b is connected to the holding skeleton 142a and is positioned above the holding skeleton 142a. The role of the frame flange 142b is to fix the main body flange 141b connected to the filter main body. As the frame flange 142b is mounted on the filter mounting plate, the fixing is possible by the structure in which the main body flange 141b is caught in the middle. In the coupling of the frame flange 142b and the filter mounting plate 131, a bolt-nut coupling method or a flange by a thread may be provided.

In addition, a rubber packing may be provided between the frame flange 142b and the filter mounting plate 131 to prevent leakage to other than the excellent filter surface. In addition, the clasp may be provided to catch the frame flange 142b when the frame flange 142b is separated from the filter mounting plate to prevent the frame flange 142b from being separated from the filter mounting plate.

In order to manage the filter 140, in the present invention, an air blower is provided. This is schematically illustrated in FIG. 1. The nozzle of the air blower is preferably located close to the filter body 141 of the filter 140. The output direction of the air is preferably in the direction opposite to the direction of the upward water to be filtered.

As an embodiment of the air blower, by properly adjusting the air output to the filter surface it is possible to reduce the production of the solid material attached to the filter 140, thereby resulting in an effect that can efficiently manage the filter. That is, it is possible to increase the replacement cycle of the filter, it is possible to prevent the clogging of the filter has an economic effect. In addition, when the air blower is used simultaneously in the action of the backwash water, the solid matter can be removed more efficiently.

In the present invention, the apparatus for the treatment before the treatment step of the filtration tank 130 is provided. The storm water treatment system is characterized in that it further comprises a settling tank 110 in front of the filtration tank (130). This is schematically illustrated in FIGS. 1 and 2. It is preferable that a device for adjusting the flow rate of rainwater flowing into the settling tank 110 is provided at the inlet of the settling tank 110. If a flow rate that exceeds the design flow rate is introduced, the excess flow rate is discharged. In addition, weir can be installed to measure the flow rate and discharge the flow rate exceeding the design flow rate.

This is schematically illustrated in FIG. 1.

The sedimentation tank 110 further includes a sludge pump for treating the sediment under the sedimentation tank 110. The sludge pump is configured to process the sediment of the lower portion of the filtration tank 130 through a pipe connected to the filtration tank 130.

Storm water treatment system of the present invention is characterized in that it further comprises an induction tank 120 between the settling tank 110 and the filtration tank 130. By using the induction tank 120, the rainwater of the precipitation tank 110 can be induced to flow into the lower portion of the filtration tank 130. The induction tank 120 may be configured by installing a partition wall between the precipitation tank 110 and the filtration tank 130. The lower end of the partition wall is open toward the filtration tank 130 to guide rainwater flowing from the precipitation tank 110 to the lower portion of the filtration tank 130. This is illustrated in FIGS. 1 and 2.

In addition, the sedimentation tank 110 of the stormwater treatment system of the present invention, in order to prevent the introduction of the sedimentation tank 110, the induction tank 120, the inlet is connected to the water passage 111 provided in the stop of the sedimentation tank 110. It is characterized in that it is connected to the induction tank 120. The function of the connection channel 111 is to prevent the floating material on the surface of the settling tank 110 to directly enter the induction tank 120. When the water of the water is introduced directly into the induction tank 120 is because floating or oil floating on the water surface may be introduced into the induction tank 120. Therefore, the inlet of the connection channel 111 is preferably located at the stop of the sedimentation tank 110 under the water surface. The shape of the connection channel 111 is a shape in which the inlet is a stop portion of the settling tank 110 and the outlet is directed toward the induction tank 120.

In addition, the filtration tank 130 of the storm water treatment system of the present invention, one end is connected to the filtration tank 130, the other end is connected to the settling tank 110, in case the flow rate exceeds the design flow rate flows into the filtration tank 130 The overflow water pipe 133 is provided. In case the filtering function of the filter 140 is not properly performed, or in case the drainage of the other filtration tank 130 needs to be discharged, the overflow water pipe 133 capable of discharging excess rainwater (excess water) is provided. It is provided. The excess water is discharged through the overflow water pipe (133).

In the present invention is characterized in that the backwash tank 150 is located above the filtration tank 130. As an embodiment of the present invention, the backwash bath 150 is a place where treated water filtered by upflow is collected. Therefore, for the action of the backflow water by the water pressure of the water stored in the backwash tank 150 is preferably located on the upper portion of the filter 140 or the upper portion of the filtration tank 130.

A sludge tank 160 is provided along with the backwash tank 150. As one embodiment of the present invention, the sludge tank may be preferably configured to contact the upper and lower structures of the filtration tank 130 and the backwash tank 150, but is not limited thereto. The configuration of the backwash tank 150 and the sludge tank 160 and the reverse flow process of water will be described by changing the paragraph.

FIG. 6 shows the direction of the water flow when rainwater is filtered, and FIG. 8 shows the direction of the water flow when the solids of the filter are separated by backwashing water.

FIG. 7 shows the direction of the water flow when rainwater is filtered, and FIG. 8 shows the direction of the water flow when the solids of the filter are separated by backwashing water.

Referring to FIG. 7, the rainwater passes through the settling tank 110 so that the direction of the water flow by the induction tank 120 is directed toward the lower end of the filtration tank 130. As the water collected in the filtration tank 130 passes through the upper filter 140 as the water level increases, the filtered treated water flows into the upper backwash tank 150 and then flows to the treatment tank 170. In the treatment tank, a sample is taken to check the flow of water. Therefore, the entire stormwater treatment system is monitored through the stormwater component inspection of the treatment tank.

Referring to FIG. 7, the rainwater of the filtration tank 130 flows to the sludge tank 160 by opening of the on / off valve 161 to remove the solid material of the filter, and the empty space due to the movement of the rainwater to the backwash tank. Backwash water occurs as the storm water stored at 150 fills up. The solid material of the filter is separated by the backwashing water, and the rainwater mixed with the solids and the sediment, which is transferred to the sludge tank, is treated by the sludge pump.

Operation of the on-off valve 161 is possible automatically or manually. A sensor for detecting the water pressure is provided inside the filtration tank so that the on / off valve may be automatically opened by the operation of the sensor when the water pressure of the filtration tank exceeds a predetermined water pressure. Or it can be opened by a person.

It is a feature of the present invention that the filter 140 can be managed in its own system. The filter 140 for filtering the suspended solids is easily attached to the surface of the filter to form a solid. Therefore, the performance of the filter 140 is reduced by the solids, so that the filtering efficiency is lowered, and the water of the air supply filtration tank 130 may not reach the backwash tank 150. In order to prevent this, care must be taken in managing the filter 140 by timely replacing or cleaning the filter 140. It is also desirable to clean the filter surface using an air blower at an appropriate time.

The present invention can extend the replacement time of the filter by separating the solid material attached to the filter using an air blower or separating using a backwash water while the filter is mounted.

If a solid is attached to the filter 140, it is necessary to remove the solid. Disclosed herein is a method of using backwash water to remove the solids. That is, the sludge tank 160 of the empty space is provided, and the opening and closing valve 161 is provided between the sludge tank 160 and the filtration tank 130, and the rain of the filtration tank 130 is improved by the opening and closing of the valve 161. It will flow into the tank 160. The water stored in the backwash tank 150 in the upper portion of the filtration tank 130 flows back to the filtration tank 130 through the filter 140 while the water stored in the backwash tank 150 of the upper portion of the filtration tank 130 is flowed back by using water pressure. do. Water flows in a direction opposite to the direction of the water flow in the normal filtering process of the filter 140 by the countercurrent water. The countercurrent water is to separate the solids by pushing the solids attached to the filter 140 in the opposite direction to the solids attached.

Position of the sludge tank 160 may be configured to be in contact with the filtration tank 130 and the backwash tank 150 as shown in Figure 1 or 2 for the convenience of system configuration, the filtration tank 130 to increase the water pressure difference It is also preferably configured lower than).

FIG. 6 schematically illustrates the circulation direction of water when filtering is performed, and FIG. 7 schematically illustrates the circulation direction of water when the solids of the filter 140 are removed using the backwash bath 150 using arrows. Rainfall filtering by upflow occurs in FIG. 6, and solids of the filter are removed by countercurrent in FIG. 8.

The backwash water introduced into the sludge tank 160 includes the rainwater of the backwashing tank 150 or the rainwater of the filtration tank 130 together, and includes sludge such as separated solids or precipitates. Therefore, the sludge may be processed by a sludge pump provided in the sludge tank 160 or by an external vehicle equipped with a sludge pump facility.

 In order to remove the sludge, the sludge tank 160 may be provided with a sludge pump, or the sludge may be treated by an external vehicle having a treatment pump facility.

After filtering on the rainwater in the filtration tank 130, the filtered rainwater is moved to the backwash tank 150. The moved rainwater is moved to the treatment tank 170. Therefore, the treatment tank 170 for the treatment may be provided to contact the upper and lower structures of the filtration tank 130 and the backwash tank 150. This is shown in the top view of FIG. 2.

As described above, the detailed description of the present invention has been made by the embodiments with reference to the accompanying drawings, but since the above-described embodiments have only been described with reference to the preferred examples of the present invention, the present invention is limited to the above embodiments only. It should not be understood to be limited, and the scope of the present invention should be understood as the following claims and equivalent concepts.

110: sedimentation tank
111: channel
120: induction tank
130: filtration tank
131: filter mounting plate
132: filter hole
133: overflow pipe
140: Filter
141: filter body
141a: filter network
141b: main body flange
142: filter frame
142a: maintenance skeleton
142b: frame flange
143: filter mounting plate
150: backwash bath
160: sludge tank
161: on-off valve
170: treatment tank

Claims (11)

delete delete delete A filter tank into which contaminated water is introduced;
A backwash bath disposed above the filtration tank;
A filter mounting plate dividing the filtration tank and a backwash tank;
At least one filter mounted to the filter mounting plate;
A sludge tank connected to the filtration tank;
On-off valve for opening and closing the movement of the contaminated water between the filtration tank and the sludge tank; Including,
As the rainwater of the filtration tank is reversely passed through the filter by the opening of the valve valve and flowed out through the sludge tank, the solid matter attached to the filter by water pressure is removed.
Storm water treatment system. 5. The method of claim 4,
A filter mounting plate in which a plurality of filters are installed; , ≪ / RTI >
The filter mounting plate is removable to the filter mounting plate, characterized in that
Storm water treatment system. delete delete 5. The method of claim 4,
A settling tank in front of the filtration tank;
A sludge pump connected to the settling tank;
An induction tank allowing rainwater of the settling tank to flow into the lower portion of the filtration tank;
An air blower for removing solids attached to the filter; And
Overflow water pipe for discharge when the flow rate is greater than the design flow rate; Characterized in that it further comprises
Storm water treatment system. The method of claim 8,
The settling tank,
In order to prevent the inflow of the sedimentation tank float,
A connection channel having an inlet provided at a stop of the settling tank; Characterized in that connected to the induction tank by
Storm water treatment system. delete 5. The method of claim 4,
A treatment tank filtered by the filter to treat rainwater discharged to a backwash bath; Further comprising:
Plane, the one surface of the sludge tank and the treatment tank is in contact with each other, the surface formed by the sludge tank and the treatment tank is in contact with one surface of the back washing tank and the filtration tank consisting of the upper and lower
Storm water treatment system.

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