KR101747162B1 - Primary stage rainwater treatment apparatus - Google Patents

Abstract

The present invention relates to an initial stormwater treatment apparatus, and more particularly, to an initial stormwater treatment apparatus having an inlet port and a long induction pipe formed at an elongated position at an other point when the flow rate of stormwater including nonpoint pollutants introduced into the pretreatment tank through the inlet port from the non- And then supplying the filtrate to the filtration tank through the stepped dam formed so as to uniformly supply the fluids uniformly while reducing the bottleneck phenomenon.
The construction of the present invention comprises a pretreatment tank (1) provided with a screen filter, a filtration tank (2) provided with a filtration unit at an upper portion thereof, and a treatment tank (3) The pretreatment tank (1) is configured such that the rainwater flowing during the initial rainfall is not supplied through the front surface of the filtration tank (2) but is discharged to the outside of the filtration tank (2) The stormwater introduced into the stormwater guide portion 11 is supplied to the stormwater guide portion 11 through the stormwater guide portion 11 formed between the main body wall 100 and the long direction partition wall 110 spaced apart from the main wall 100 at a predetermined interval. The present invention is characterized in that an initial storm supply device configured to prevent a bottleneck phenomenon from being supplied to a filtration tank through a drainage groove (121) of a stepped dam (120) formed on an upper part of a side long directional partition wall (110) of a filtration tank.

Description

[0001] The present invention relates to a primary stage rainwater treatment apparatus,

The present invention relates to an initial stormwater treatment apparatus, and more particularly, to an initial stormwater treatment apparatus that efficiently cleans non-point pollutants while reducing the bottleneck of the stormwater treatment process due to an abrupt increase in the inflow amount from the non- And more particularly, to a stormwater treatment apparatus having a maintenance function capable of continuous filtration of a filtration unit by backwashing the filtration unit for an excellent treatment to occur.

In Korea, which is a country lacking water, various methods are being tried to volunteer rain water etc. While protecting the water supply source and preventing river pollution.

In order to achieve this goal, a sewage line has been installed to separate the sewerage line into stormwater and sewage. The sewage line is separated from the stormwater by the storm sewer system, After entering the sewage treatment plant through the sewage line, the sewage treatment plant is subjected to a multi-stage purification process and then discharged to the river.

The pollutants to be treated in the stormwater treatment system are point pollutants discharged from point sources such as domestic sewage, industrial wastewater and livestock wastewater which have clear discharge points and limited point pollutants, and agricultural pollutants such as agricultural land, pasture, forest, construction site, mine, Discharge areas such as waste disposal sites, waste landfills, roads, piers, parking lots, squares, bus stops, and dense residential areas are divided into nonpoint pollutants emitted from a wide range of nonpoint pollution sources.

The point pollutants have a clear discharge point, and a separate purification device or wastewater treatment facility is installed in limited households, factories, and livestock farms to purify contaminants.

However, the non-point pollutants are not clear on the discharge area and remain on a wide range of ground surface. In the case of rainfall, rainwater is introduced into public water bodies such as rivers, There is an increasing tendency to install a large number of initial quality treatment apparatuses for treating non-point pollutants. For reference, non-point pollutants included in the initial rainfall are serious pollutants that account for about 20% to 35% of total water pollution.

On the other hand, as a typical example of the conventional early stormwater treatment apparatuses, there has been disclosed a method of centrifugally separating rainwater into spirals to separate non-point pollutants from rainwater, or separating heavy non-point pollutants and the like to the floor by gravity .

However, in the case of the early initial stormwater treatment system, when the rapid increase in flow rate occurs in the initial rainfall, due to the marine hydraulic pressure, the rainwater supplied from the pretreatment tank to the filtration tank reaches only a certain area of the dam, And there is a structural disadvantage that it can not be fully utilized even though the designed capacity of the excellent processing capacity is sufficient.

In addition, in the conventional storm surge system, the stormwater supplied to the filtration tank in the pretreatment tank is not evenly distributed to the filtration unit located on the upper side of the filtration tank, and is concentratedly supplied to a part of the filtration area. There is a structural disadvantage that the filtration ability of the filtration part may be deteriorated as a whole due to the loss of function due to the clogging or the delay of the filtration treatment time.

In addition, the conventional storm surge system has a disadvantage in that the filtration unit can be clogged because the non-point pollutant contained in the storm supplied from the pretreatment tank to the filtration unit is put into the filtration unit in a flocculated state.

Korean Patent Registration No. 10-0837392 (Jun. 4, 2008) Korean Patent Registration No. 10-0955909 (Apr. 26, 2010) Korean Patent Registration No. 10-0984676 (2010.09.27.) Korean Registered Patent Publication No. 10-0984676 (July 17, 2013)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to solve the above problems, The present invention is to provide an excellent treatment device capable of efficiently supplying purified water by uniformly supplying a filtration tank while reducing a bottleneck through a stepped dam while inducing a flow to an induction part.

It is also an object of the present invention to provide a superior treatment apparatus having a maintenance function so that continuous filtration can be performed by backwashing the filtration unit in order to perform future excellent treatment after the completion of the abrasion treatment.

According to an aspect of the present invention, there is provided a filtering apparatus comprising: a pretreatment vessel having a screen filter; a filtration tank having a filtration unit at an upper portion thereof; A treatment water tank in which filtered rainwater is stored and a treated water storage tank in which filtered rainwater to be used for backwashing is stored, thereby purifying and discharging the nonpoint pollutant contained in the rainwater during the initial rainfall,

The pretreatment tank is configured such that the stormwater introduced during the initial rainfall is not supplied through the front surface of the filtration tank but is guided to the storm surge portion formed between the longitudinal direction partition walls spaced from the main wall by a predetermined distance,

Wherein the bleed inflow into the bleed passage is supplied to the filtration tank through the drain groove of the stepped dam formed on the upper part of the side longitudinal barrier of the filtration tank to prevent the bottleneck phenomenon. Device.

In a preferred embodiment, the stepped dam may be formed such that a plurality of drainage grooves are gradually reduced from the inlet to the outlet along the longitudinal direction of the storm valve guide.

In a preferred embodiment, the plurality of drain grooves formed in the stepped dam may be formed to be wider than the drain grooves of the previous stage in the width direction toward the distal end.

In a preferred embodiment, the plurality of drainage grooves formed in the stepped dam may each have a tube-shaped guide portion protruding upward from the filtration tank.

In a preferred embodiment, a plurality of directional pieces formed in different directions are formed in the guide part of the drainage groove formed at the distal end of the plurality of drainage grooves, so that the flow of the stormwater can be dispersed.

In a preferred embodiment, the plurality of guide portions may protrude with a greater length toward the distal end.

In a preferred embodiment, a plurality of protruded hemispheres may be arranged on the surface of the drain groove and the guide portion.

In a preferred embodiment of the present invention, a static water pump is provided for pumping the stagnant water remaining in the pre-treatment tank after passing through the screen filter or for discharging the backwashed wastewater. A first washing pipe in which a plurality of holes are formed through the unidirectional partition wall between the pretreatment tank and the filtration tank to supply the pumped abstraction to the filtration tank; A second washing pipe for supplying the purified water stored in the treated water storage tank to the filtration unit; A process water pump for pumping and supplying the process water to the second cleaning pipe; An air piping for supplying compressed air to the filtration unit in an upward direction; And an air compressor for supplying compressed air to the air piping.

According to a preferred embodiment, the filtration unit comprises: a main body comprising a lower slope formed by an opening or a perforated network, a lower support formed by an opening or a perforated network, and a drain formed at one side of the upper slope; And an upper filter medium, a lower filter medium, and a zeolite charged between the upper filter medium and the lower filter medium installed in the main body.

In a preferred embodiment, the upper inclined portion has a slope downward toward the unidirectional partition between the pretreatment tank and the filtration tank, so that contaminants flow down after backwashing with a drainage passage. The contaminants flowing into the drainage passage penetrate the unidirectional bulkhead A pollutant drainage pipe, or a pollutant drainage pipe using a siphon principle.

The initial stormwater treatment apparatus according to the present invention having the above-described characteristics is characterized in that, when the flow rate of the stormwater including the nonpoint pollutant introduced into the pretreatment tank through the inlet port is increased suddenly during the initial rainfall, It is difficult to supply evenly distributed rainwater. In order to prevent this, it is advantageous that stable rainwater can be supplied by guiding and supplying rainwater by forming a long rainwater guiding portion at another point not facing the inlet,

In addition, when the stormwater introduced into the stormwater induction section is supplied through the stepped dam formed along the longitudinal direction of the filtration tank, the main stormwater supply flow is formed such that the stormwater supply level is formed lower instead of the inlet section of the stormwater induction section, So that it is possible to prevent the bottleneck phenomenon that may occur at the start-up, thereby achieving a uniform and efficient purification. Further,

In addition, after the initial stormwater treatment is finished, there is a maintenance function that enables continuous stormwater treatment through backwashing or forced drainage for the initial stormwater treatment that will occur in the future. This is a highly anticipated invention.

1 is a perspective view showing a rainwater treatment apparatus according to an embodiment of the present invention,
2 is a partially cutaway perspective view showing a stormwater treatment apparatus according to an embodiment of the present invention,
FIG. 3 is a partially cutaway perspective view showing another embodiment of the apparatus for treating rainwater according to the present invention,
FIG. 4 is a plan view of a stormwater treatment apparatus according to an embodiment of the present invention,
5 is a front sectional view of a stormwater treatment apparatus according to an embodiment of the present invention,
6 is a perspective view showing a detailed structure of a stepped dam according to an embodiment of the present invention,
7 is a perspective view showing a structure of a filtration unit according to an embodiment of the present invention,
FIG. 8 is a view illustrating an example of an excellent flow in which a bottleneck phenomenon is eliminated according to an embodiment of the present invention,
FIG. 9 is a front sectional view showing a forced filtration and backwashing process according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a perspective view showing a rainwater treatment apparatus according to an embodiment of the present invention, FIG. 2 is a partially cutaway perspective view showing a rainwater treatment apparatus according to an embodiment of the present invention, and FIG. FIG. 4 is a plan view of a rainwater disposal apparatus according to an embodiment of the present invention, and FIG. 5 is a front cross-sectional view of the rainwater disposal apparatus according to an embodiment of the present invention. FIG. 6 is a perspective view showing a detailed structure of a stepped dam according to an embodiment of the present invention, FIG. 7 is a perspective view showing a structure of a filtering part according to an embodiment of the present invention, FIG. 8 is a cross- FIG. 8 is an exemplary view showing an excellent flow in which a bottleneck phenomenon according to an embodiment is removed.

As shown in FIG. 1, the apparatus for initial treatment of the present invention includes a main body wall 100 having a periphery for performing a multi-stage purification treatment of an inner space, which is divided into a plurality of partition walls 110 and a stepped dam 120, ), A filtration tank (2), and a treatment water tank (3). The initial stormwater treatment apparatus thus constructed is characterized in that the storm containing the nonpoint pollutant flowing into the pretreatment tank 1 through the inlet 101 passing through the one-side end wall 100 at the time of initial precipitation is passed through the filtration tank 2 and the treatment And is discharged through the outlet 102 formed through the other side main body wall 100 after the multi-stage purification treatment through the water tank 3.

The excellent movement between the pretreatment tank (1), the filtration tank (2) and the treated water tank (3) is configured to move to the tank of the next stage by the flow rate and the water level of the introduced stormwater.

For example, only when a predetermined amount of flow or more is introduced and stored through the stepped dam 120 formed at the upper part of the partition wall 110, which is formed long in the longitudinal direction, between the pretreatment tank 1 and the filtration tank 2, And is supplied to the filtration tank while overflowing the dams (120).

The filtration tank 2 and the treatment water tank 3 are provided so as to be supplied at a relative flow rate or a water level between the filtration tank 2 and the treatment water tank 3 located on both sides through the drainage gates 111 formed on the lower side of the partition wall 110 . Therefore, when the storm is introduced during the initial rainfall, the drainage gate is kept open.

Also, the discharge of the purified storm stored in the treatment water tank 3 is configured such that when the water level becomes higher than the lower portion of the outflow portion 102 formed through one point of the main body wall 100, it naturally drains to the outside. In addition, even if the water level does not reach the outlet point, the treated water stored in the treated water tank can be forcedly discharged to the outside through the treated water pump 130 installed at one point of the bottom of the treated water tank.

The pretreatment tank (1) is located at the beginning of one side of the initial stormwater treatment apparatus. The space section of the pretreatment tank is connected to the front surface of the filtration tank 2 through the unidirectional partition wall 110 directly opposite to the inflow through the inflow section 101 formed through one point of the main body wall 100 . That is, one end of the unidirectional partition wall 110 is formed only up to the point where it is separated from the main body wall so as to be supplied after the fine flow is guided to the side of the filtration tank 2, and at this point, 100 and longitudinal direction barrier ribs 110 spaced apart from each other by a predetermined distance. The stormwater flowing along the storm leading portion 11 is configured to be overflowed into the filtration tank 2 through the stepped dam 120 formed on the upper part of the rectangular partition wall 110. With this configuration, the initial rainfall inflow to the pretreatment tank is bypassed to the front side of the filtration tank, and is supplied through the lateral direction of the filtration tank.

The pretreatment tank 1 and the filtration tank 2 configured to form a boundary through the unidirectional barrier ribs 110 and the longitudinal barrier ribs 110 having different lengths are provided with barrier ribs 110 formed in the longitudinal direction, And the height including the stepped dam 120 provided at the upper portion is formed to be smaller than the height of the unidirectional partition wall 110 so that the rainwater inflow into the storm leading portion 11 is naturally supplied to the filtration tank 2 Respectively.

The reason for this construction is that if the barrier ribs 110 formed in the longitudinal direction and the indifferent guiding portion 11 formed by the main body wall 100 enter the stepped banks 120 formed on the partition walls 110 formed in the longitudinal direction, It is possible to uniformly distribute the filtrate to the filtration tank 2 through the entire bank due to the sudden flow rate of the rainwater and the water pressure which are supplied during the initial rainfall, Since the bottleneck phenomenon occurs and the stormwater treatment process is delayed as a result, it can not be processed as much as the initially designed total stormwater filtration capacity.

However, according to the present invention, there is provided a superior guiding portion 11 formed between a long direction partition wall 110 and a main wall 100 which are laterally blocked by a unidirectional partition wall 110, After the flow is induced to flow, the uniformity of the entire flow rate is introduced into the filtration tank 2 through the lateral direction without the bottleneck as the water level rises.

On the other hand, the rainwater introduced through the inflow portion 101 is divided into the inner space so as to pass through the screen filter 12 dividing the inner space portion of the pretreatment tank 1, and is supplied to the other side pretreatment tank 1 ) Space. The screen filter 12 is used to filter contaminants having a size larger than a screen filter hole or contaminants having a long shape such as a thread among non-point contaminants included in the influent. In addition, the screen filter 12 can be installed at various angles that divide the interior of the pre-treatment vessel. It is preferable to provide the screen filter 12 with an oblique angle on a flat cross-section basis because the screening efficiency is good because the cross- Or a screen filter for water treatment of the water treatment system.

The filtration tank 2 is a place for purifying storm water introduced from the pretreatment tank 1. One end of the filtration tank is isolated from the pretreatment tank 1 by a unidirectional partition 110, And is formed at the side end to be isolated by the partition walls 110 in the longitudinal direction. The stepped dam 120 according to the present invention is formed on the partition wall 110 in the longitudinal direction.

In addition, the filtration tank 2 is provided with a filtration unit 21 on the upper side of the inner space of the filtration tank for filtration of stormwater flowing through the stepped dam. The filtration unit 21 is installed lower than the stepped dam 120, and the rain supplied from the stepped dam 120 falls and filters nonpoint pollutants. The purified water that has passed through the filtration unit 21 flows into the treatment water tank 3 through the water discharge port 111 formed at the lower portion of the partition wall 110 formed at the boundary with the post- treatment water tank 3 stored in the lower space portion of the filtration tank 2. [ (3). The operation of the drainage water can be configured to be opened or closed by moving in a vertical direction or a lateral direction by a motor or a cylinder not shown. However, at the time of initial rainfall, the drainage gate is always open.

The treated water tank 3 is pumped by the treated water pump 130 installed on the lower floor of the treated water tank 3 and stored in the treated water tank 3, And is drained to the outside via an outlet 102 formed through one point of the outlet 100.

The treatment water tank 3 stores treated water that has not been discharged to the outflow unit 102 after treating the non-point pollutant at the time of the initial rainfall, and the upper part of the filtration unit is washed back by the treatment water pump 130 . The purified water stored in the treatment water tank can be pumped by the treatment water pump 130 and forcedly drained even if the water is naturally drained through the drainage port or the water level is lower than the outlet height as the water level of the treatment water tank increases.

The treated water pump 130 supplies the water stored in the treatment tank 3 to the outlet 102 in accordance with the valve opening direction operation or conversely the water stored in the filtration tank 2 in the backwashing operation to the filtration unit 21 .

More specifically, the stepped dam will be described below.

The stepped dam (120) according to the present invention is installed on an upper part of a long directional partition wall (110) provided between a bleeding guide part (11) and a filtration tank (2) of a pretreatment tank (1) 11 is higher than the drainage grooves 121 of the stepped dam 120, the water level is naturally overflowed and supplied.

A plurality of drainage grooves 121 are formed in the stepped dam 120 along the longitudinal direction of the storm leading portion 11. The drainage grooves 121 are formed in the stepped dam 120 such that non- In order to prevent a bottleneck phenomenon that occurs when the flow rate of the initial rainfall contained in the initial rainfall is increased to the filtration tank 2 when the flow is directed to the superior guidance portion 11, And the drainage groove 121 provided at the farthest end from the inlet. To this end, the drainage grooves 121 on the distal end side are formed to have a low height so as to overflow at the lowest water level, and on the contrary, the drainage grooves 121 of the inlet portion are formed high to correspond to the highest water level.

Accordingly, the plurality of drainage grooves 121 constituting the stepped dam 120 are formed such that the stepped portions gradually decrease from the initial inlet to the distal end. In some cases, even in the individual drainage grooves 121, it is possible to form a structure that is inclined as it goes backward rather than the same horizontal floor structure.

Also, the plurality of drainage grooves 121 constituting the stepped dam 120 are formed such that the length in the transverse direction across the flow of the rain gradually becomes wider than the drainage grooves 121 of the previous stage as it goes toward the distal end. With this construction, the drainage groove 121 formed at the lowest level located at the distal end of the storm surge portion 11 is formed to have the largest width. Therefore, the flow of the rainwater flowing in the initial rainfall is firstly introduced at the end portion and at the same time, the most rainwater is supplied to the filtration tank 2.

The plurality of drainage grooves 121 constituting the stepped dam 120 are each formed by protruding a guide portion 122 having a tubular structure whose upper portion is open toward the flow direction of the stormwater, that is, toward the filtration tank 2. The guide portion 122 has a guide portion 122 having a largest length protruded by a drain hole 121 formed at a distal end of the saline guide portion 11 and a drain hole 121 located at the entrance side of the guide portion 122 protruding to the smallest length And has a guide portion 122. Each guide portion 122 is formed to have the same width as the width of each drainage groove 121. Since the guide portion 122 is formed as described above, the initial supply clearance supplied from the tail drainage groove 121 is supplied to a portion farther from the filtration portion 21 provided on the upper portion of the filtration tank 2, And the guide portion 122 of the drainage groove 121 formed in the inlet portion is supplied with the entirety over the entire area of the filtration portion 21 by supplying the rainwater to the near side filtration portion 21. [ Therefore, the non-point pollutants generated when the main flow of the initial good supply through the inlet section drainage grooves 121 of the storm leading section 11 are formed are blocked just below the drainage grooves 121, It becomes possible to structurally prevent occurrence.

Due to the structure of the guide part 122 protruding from the partition wall 110, space portions are laterally formed with the neighboring guide parts 122. However, due to a delay in the filtration part 21, A cross section facing the inner open portion is formed in a rounded shape so as to prevent it from being caught in the space portion, so that the inflowing outflow is naturally discharged by the inflow pressure.

A plurality of direction pieces 123 formed in different directions are formed in the guide part 122 formed in the drainage groove 121 at the end where the initial supplying of the plural kinds of drainage grooves 121 constituting the stepped dam 120 is performed. Is formed so as to be dispersed at various angles with respect to the flow direction of the rain falling to the filtration part 21. [ The direction piece 123 may be formed of a right angle member protruding upward, and the left and right surfaces of the right angle member may be formed of a concave member. This configuration solves the problem of falling off only one point in one direction due to the excellent water pressure supplied at the beginning, so that the filtration unit 21 is used evenly, thereby improving the overall filtration efficiency.

Also, the drainage grooves 121 of the stepped dam 120 and the protruded guide portions 122 are embossed so that a plurality of protruding hemispheres 124 are horizontally arranged on the surface. The protrusion hemispheres 124 constitute the protrusion hemispheres 124. The protrusion hemispheres 124 and the protrusion hemispheres 124 protrude from the surface of the protrusion hemisphere 124, The state non-point pollutant is loosened and falls evenly dispersed into the filtration unit 21, thereby increasing the overall filtration efficiency.

More specifically, the filtering unit 21 will be described below.

The filtering part 21 according to the present invention is largely provided with a main body 211 made of a metal material or a synthetic resin material to which various filtering materials are installed. Although the main body is not shown, the main wall, the unidirectional bulkhead, and the longitudinal bulkhead may be installed at the time of installation or may be installed by inserting a separate fastening member.

The main body structure is composed of an upper inclined portion 2111 and a lower supporting portion 2112. The upper inclined portion and the lower supporting portion are spaced apart from each other by a predetermined distance to form a space portion in which the filter medium portion 212 is installed.

The upper inclined portion and the lower supporting portion may be formed with openings except for the rims or may be formed of perforated nets so that the rainwater supplied from the upper side can be stored in the lower space portion of the filtration tank.

The upper inclined portion has a slope downward toward the unidirectional partition wall so that the contaminants may flow down during the backwash and may be collected and discharged. To this end, a drainage passage 2113 is formed at one end of the upper inclined portion, that is, on the unidirectional partition wall side. The drainage channel is formed by bending one end of the upper inclined portion to the lower portion and then horizontally bending it again.

The lower support may be formed to have a horizontal angle.

The main body 211 is provided with a filter medium part 212 to filter out the supernatant containing nonpoint pollutants. The filter member 212 may be formed using a single filter member.

However, in the present invention, preferably, the filter medium portion 212 is composed of the upper filter medium 2121, the lower filter medium 2122, and the zeolite 2123 placed between the upper filter medium and the lower filter medium.

The upper filter medium 2121 is installed on an upper portion of the upper inclined portion, and the plate-like filter medium is inclined to match the inclination angle of the upper inclined portion.

Further, the lower filter medium 2122 is installed on the upper portion of the lower support, and horizontally arranges a plate-like filter medium.

The upper filter element and the lower filter element can be applied to any filter such as a known woven or nonwoven fiber filter.

The space between the upper filter medium and the lower filter medium is filled with zeolite 2123 to adsorb or remove contaminants. The zeolite may have a spherical shape formed to a required size. Needless to say, it may be a granular filter having a different shape even if it is not spherical. The effect of removing contaminants from the zeolite used and the action thereof are well known, and thus a detailed description thereof will be omitted.

However, since the upper filter medium and the lower filter medium use a plate-shaped fiber filter and zeolite, which is a granular filter, is used for the space defined therebetween, since the fiber filter generally has a filter structure fixed in the form of woven fabric or nonwoven fabric, If there is a continuous supply of stormwater, it may cause clogging of the pores. Since the granular zeolite is filled with more than a certain size, it does not have a fixed position, and when it is fed, the zeolite swings according to the water pressure or continuously moves to perform the filtration action. This is because the filtration tank can be operated.

The structure of the filtration unit 21 according to the present invention having the above-described structure is particularly designed to improve not only the basic filtration performance but also the efficiency of the pollutant discharge during backwashing. The backwash is a necessary process for the continuous operation of the filtration unit through the regeneration of the filtration unit. The filtration tank having no constitution for the backwashing process is formed by filtration of the rainwater containing the nonpoint pollutant, The surface of the filter material, the zeolite, or the air gap is blocked, and the filtration ability is remarkably lowered. Therefore, in case of additional rainfall, it is not possible to perform a smooth filtration action. Therefore, it is extremely necessary to replace all the filter media. However, since the present invention has a filtration structure specialized for backwash from the beginning with such a case in mind, it is possible to regenerate each filter material simply and efficiently by repeatedly using it.

In addition, the present invention includes a plurality of contaminant drain ports 1101 passing through the unidirectional partition 110 located between the pretreatment tank and the filtration tank for the backwashing configuration. The contaminant drainage port is formed along the drainage passage 2113. The contaminant material blocking the surface of the upper filter medium formed along the upper inclined portion during backwashing is washed by the rainwater supplied from the pretreatment tank or the treatment water tank and drained along the inclined surface of the upper filter medium. And then flows into the pretreatment tank through the contaminant drainage port 1101 when the water level is increased to a certain level or higher. When the sewage containing pollutants is discharged into the pretreatment tank, the sewage pipe not shown is discharged and discharged to the outside through a stagnant water pump. By such a constitution, the pretreatment tank 1 prevents stagnant and rotting of sewage after backwashing.

In another embodiment, a plurality of contaminant drain pipes 1102 passing through the unidirectional partition 110 located between the pretreatment tank and the filtration tank may be constructed and discharged to the pretreatment tank. The contaminant drainage pipe 1102 is formed by bending the contaminant drain pipe formed in a 'C' shape in cross section, flows through the upper filter medium, and after the backwash discharged into the drainage channel, It is continuously discharged by the non-motorized method by the siphon principle acting between the connected emulsion. The contaminant drain pipe 1102 is advantageous in that it can secure a flow rate that the drain can accommodate unlike the contaminant drain 1101 described above.

That is, it is preferable that the contaminant drainage port 1101 connected to the drainage channel is connected to the drainage floor in order to drain the sewage smoothly. In this case, some rainwater flowing into the filtration tank during the initial rainfall may be partially introduced into the pretreatment tank, If the height of the pollutant discharge port is higher than the bottom of the pollutant discharge port, the pollutant discharge pipe 1102 can store pollutants such as storm water or stormwater that can be stored in the drain canal It has a relative advantage because it can be installed through a unidirectional bulkhead with a high water level. However, in case the contaminant drain pipe does not exceed the height of the unidirectional bulkhead by only the water pressure or the water pressure stored in the drainage duct for the smooth discharge at the initial discharge, it provides a partial suction force in the pretreatment tank, So that it can be continuously drained by the siphon principle.

In order to provide excellent or air supply for forced filtration or backwashing to the pretreatment tank and the filtration unit, the present invention includes a stagnant water pump 140 for discharging the stagnant water remaining in the pretreatment tank after passing through the screen filter, A first washing pipe 150 for supplying rain water pumped by the stagnation water pump, and a hole 151 formed at a predetermined interval in the first washing pipe. The first washing pipe may be installed at a higher position than the dam tank to have a strong drop pressure to increase the initial backwash effect.

In addition, the present invention is characterized in that the filtration unit is provided with a treatment water pump 130 installed in the treatment water tank for backwashing with clean water after backwash by the first cleaning pipe, and a plurality of And a second cleaning pipe 160 having a hole.

Also, the present invention is characterized in that an air pipe (170) having a plurality of holes formed therein for separating the adhered contaminants by spraying strong air in an upward direction from the bottom of the filtration unit is installed at a certain distance from the bottom of the lower filter medium, And an air compressor 180 connected to the air compressor 180.

According to the present invention having the above-described configuration, the storm that has not reached a certain level of the stormwater introduced into the pretreatment tank and stagnated in the pretreatment tank because it fails to pass through the stepped dam, is forcedly filtered by a filtration tank using a stagnant water pump, At this time, the filtered storm that has passed through the filtration part and discharged to the lower part is drained to the treatment water tank through the drainage water gate 111. If the water level is low, it can be drained using a treatment water pump.

In addition, the washing water gate 190 is provided at a lower portion of the unidirectional bulkhead in order to discharge the backwash water discharged to the lower portion of the filter material portion rather than the drainage path formed at one end of the main body of the filtration portion during backwashing. At this time, the sewage discharged from the backwashing process or the drainage pipe discharged through the washing gate is discharged to the outside through the unillustrated sewage pipe through the stagnant water pump installed in the pretreatment structure.

The supply of clean air through the first washing pipe 150 or the supply of purified air through the second washing pipe 160 or the air pipe 170 is not specified in the backwashing process, And may be operated individually or in combination.

Hereinafter, the forced filtration and the backwashing process will be described with reference to the accompanying drawings.

FIG. 9 is a schematic cross-sectional view showing a long-term filtration and backwashing process according to an embodiment of the present invention. As shown in FIG. 9, when the inflow of fine inflow at the initial rainfall is terminated, Is supplied to the filtration unit to perform forced filtration, and the process of backwashing the filtration unit 21 to regenerate and discharge contaminants.

The forced filtration or backwashing configuration largely involves pumping stagnant water remaining in the pretreatment tank 1 after passing through the screen filter 12 when the inflow of stormwater through the inlet 101 is completed, A congestion water pump 140; A plurality of holes 151 are formed through the unidirectional partition wall 110 between the pretreatment tank 1 and the filtration tank 2 and supplied to the upper filtration section 21 of the filtration tank 2, (150); A second washing pipe 160 for supplying purified water having a good quality stored in the treating water tank 3 close to the filtering unit 21; A treatment water pump 130 for pumping and supplying treatment water to the second cleaning pipe; An air piping (170) for supplying compressed air to the filtration unit (21) in an upward direction; And an air compressor (180) for supplying compressed air to the air pipe (170). The structure of the filtration unit 21 will be described below with reference to the backwashing process description.

A preferred forced filtration and backwashing process using the above-described structure will be described as follows.

(Forced filtration)

First, the congestion water pump 140 is operated in a state that the water purifying flue 190 is closed. After passing through the screen filter, the water level can not pass through the stepped dam, And then the forced filtration process is performed. At this time, the backwash discharged downward is drained to the treatment water tank through the drainage gate 111. If the water level is low, the treatment water pump 130 may be used to forcedly drain the water to the treatment water tank.

(Backwashing)

First, the air compressor 180 is operated in a state in which the washing water gate 190 and the drainage water door 111 are closed, and high pressure air is blown out through the air pipe 170 to the lower portion of the filter material portion to perform air cleaning on the filter material. do. At this time, depending on the magnitude of the air injection pressure, not only the surface air cleaning of the lower filter medium, but also the zeolite charged in the space between the lower filter medium and the upper filter medium and the upper filter medium can be performed.

Thereafter, purified water, which is stored in a predetermined amount for backwashing, is supplied through the second washing pipe 160 by using the treated water pump 130 installed in the treated water tank, and sprayed evenly on the upper filter medium to perform the backwashing process.

Thereafter, after stopping the operation of the treatment water pump 130, the rainwater containing the pollutants flowing down into the drainage channel is drained to the pretreatment tank through the pollutant drainage port 1101 or the pollutant drainage pipe 1102 in a non-powered manner.

Further, the backwash water discharged to the lower portion of the filter material portion, not the drainage passage, opens and drains the washing water gate 190.

At this time, the sewage discharged from the backwashing process or the drainage pipe discharged through the washing gate is discharged to the outside through the unillustrated sewage pipe through the stagnant water pump installed in the pretreatment structure.

When the filtration unit is regenerated through the backwashing process as described above, the washing water gate 190 is closed and the drainage water gate 111 is opened to prepare for future excellent water.

The clean supply of the pre-treatment bath through the first cleaning pipe 150 or the purified pre-treatment water through the second cleaning pipe 160 or the air supply through the air pipe 170 may be operated individually or in combination in various orders .

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(1): Pretreatment tank (2): Filtration tank
(3): treated water tank (4): treated water tank
(11): Good guidance portion (12): Screen filter
(21): Filtration part (100): Body wall
(101): inlet (102): outlet
(110): Partition wall (111): Drainage gate
(120): stepped dam (121): drainage groove
(122): guide part (123): direction piece
(124): protruding hemisphere (130): treated water pump
(140): stagnating water pump (150): first washing pipe
(151): Hole (160): Second cleaning pipe
(170): air piping (180): air compressor
(190): Water for washing (211): Body
(212): Filter material part (1101): Contaminant drain
(1102): pollutant drainage pipe (2111): upper inclined portion
(2112): lower supporting portion (2113): drain
(2121): upper filter medium (2122): lower filter medium
(2123): zeolite

Claims (10)

A pretreatment tank provided with a screen filter, a filtration tank provided with a filtration unit at an upper portion thereof, a process tank for storing filtrated stormwater, and a treated water tank for storing filtered storm water used for backwashing, So that the non-point pollutants contained in the rain during the initial rainfall are purified and discharged,
The pretreatment tank is configured such that the stormwater introduced during the initial rainfall is not supplied through the front surface of the filtration tank but is guided to the storm surge portion formed between the longitudinal direction partition walls spaced from the main wall by a predetermined distance,
Wherein the bleed inflow into the bleed passage is supplied to the filtration tank through the drain groove of the stepped dam formed on the upper part of the side longitudinal barrier of the filtration tank to prevent the bottleneck phenomenon. Device.
The method according to claim 1,
Wherein the stepped dam is formed such that a plurality of drainage grooves are gradually formed in the longitudinal direction of the storm leading portion from the inlet to the outlet to gradually decrease in height.
The method according to claim 1 or 2,
Wherein the plurality of drainage grooves formed in the stepped dam are formed to be wider than the drainage grooves of the previous stage in the width direction toward the distal end.
The method according to claim 1 or 2,
Wherein the plurality of drainage grooves formed in the stepped dam is formed by projecting a guide portion of a tubular structure having an upper portion opened to the filtration tank.
The method of claim 4,
Wherein a plurality of directional pieces formed in different directions are formed in the guide portion of the drainage groove formed at the distal end of the plurality of drainage grooves to disperse the flow of the rainwater.
The method of claim 4,
Wherein the plurality of guide portions protrude to a greater length toward the distal end.
The method of claim 4,
Wherein a plurality of protruding hemispheres are formed on the surface of the drainage groove and the guide portion so as to be laterally arranged.
The method according to claim 1,
A stagnant water pump for pumping stagnant water remaining in the pretreatment tank after passing through the screen filter or for discharging backwashing wastewater; A first washing pipe in which a plurality of holes are formed through the unidirectional partition wall between the pretreatment tank and the filtration tank to supply the pumped abstraction to the filtration tank; A second washing pipe for supplying the purified water stored in the treated water storage tank to the filtration unit; A process water pump for pumping and supplying the process water to the second cleaning pipe; An air piping for supplying compressed air to the filtration unit in an upward direction; And an air compressor for supplying compressed air to the air piping.
The method according to claim 1 or 8,
The filtration unit may include a main body including a lower inclined portion formed by an opening or a perforated mesh, a lower supporting portion formed by an opening or a perforated mesh, and a drain formed at one side of the upper inclined portion; And a filter material part composed of an upper filter material, a lower filter material, and a zeolite charged between the upper filter material and the lower filter material installed in the main body.
The method of claim 9,
The upper inclined portion is formed to have a slope downward toward the unidirectional partition between the pretreatment tank and the filtration tank so that contaminants flow down after backwashing with a drainage passage. The contaminants flowing into the drainage passage are discharged through a contaminant drainage hole or siphon Wherein the waste water is discharged to the pretreatment tank through a pollutant drain pipe using the principle.

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