KR102218283B1 - Nonpoint Pollution Treatment Apparatus - Google Patents

Abstract

A nonpoint pollution reduction device is disclosed. The disclosed nonpoint pollution reduction device comprises: a pre-treatment tank which is manufactured in the shape of a chamber in which a space part capable of storing a fluid is formed, has an introduction port formed in the upper portion of one side thereof, and includes a pre-treatment tank connection hole formed in the lower portion of the other side thereof, so that foreign substances contained in contaminated water introduced through the introduction port are filtered by a collection filter formed in the pre-treatment tank to surround the introduction port, and the filtered water is then discharged through a filtering tank connection hole; a filtering tank which is manufactured in the shape of a chamber in which a space part capable of storing a fluid is formed, is disposed to be adjacent to the pre-treatment tank, allows treated water introduced through the pre-treatment tank connection hole to pass a filter medium layer, which is disposed in the lower portion of the filtering tank, upwardly from the lower portion of the filter medium layer, so as to filter the foreign substances, and then discharges the filtered water through the filtering tank connection hole formed in the upper portion of one side thereof; and a reverse washing water tank which is manufactured in the shape of a chamber in which a space part capable of storing a fluid is formed, and discharges the treated water, which has been introduced through the filtering tank connection hole, through a discharging port formed in the upper portion of one side thereof. The present invention has the effect of enabling a worker to easily remove foreign substances collected onto a filter.

Description

Nonpoint Pollution Treatment Apparatus}

The present invention relates to a non-point pollution reduction device, and more particularly, a collection filter having a multi-stage structure is installed in a pretreatment tank to enable continuous filtering without interruption even if some filters are blocked by bulky foreign substances. The built-in screen perforated plate and sludge collection net are installed in a structure that can be withdrawn to the outside to facilitate the removal of foreign substances, and a filter cloth is installed in the filtration tank in an inclined direction to eliminate clogging caused by foreign substances and at the same time, washing by a backwash nozzle is possible. It relates to a device for reducing non-point pollution to be performed smoothly.

Non-point source refers to a source that discharges water pollutants in unspecified places such as cities, roads, farmland, mountains, construction sites, etc. ] [Act No. 14532, January 17, 2017, partially amended] Article 2, subparagraph 2).

In particular, for non-point sources, it is relatively difficult to predict pollutants compared to point sources, and a simple non-powered treatment method makes maintenance and operation difficult.

The pollutants generated are sediment, nutrients, bacteria and viruses, oil and grease, metals, organics, pesticides, and impurities. Gross Pollutants).

There is a device type E natural type ELID (Low Impact Development) as a technology for treating such a non-point source, and the types of the facilities are classified according to the type of the facility or the location where the facility is applied.

Equipment-type facilities include filtration type E vortex type, E screen type, E biological treatment type, etc. In the case of filtration type facilities, filter media is included, and the filter media uses granular aggregates, or string or fibrous media. In addition, the two media are operated in a mixed form.

Natural facilities are divided into infiltrating type, filtering type, and reservoir type, and some contain vegetation and some do not contain vegetation.

Unlike the existing natural type E device type, the LID type is a facility with a relatively small capacity and size, and is installed directly at the location where a non-point source of pollution occurs, and the type is divided into penetration type and storage type.

Existing facilities are generally divided into main treatment facilities and pretreatment facilities regardless of their type, and technology differences occur depending on the type of facility or the technology of the design company.

The parts commonly included in the above facilities are divided into a pretreatment unit, a filtration unit, and a backwash tank unit, and most of the filtration units are differentiated by talking about differences in shape.

In the conventional filtration type non-point pollution treatment apparatus, a filter is installed in the pretreatment tank to filter out foreign substances first. However, the filter of the pretreatment tank is clogged by foreign substances such as bulky vinyl introduced with contaminated water, so that the filtering function can no longer be performed.

At this time, the operator had to go to the pretreatment tank installed in the basement to remove the foreign matter from the blocked filter, inspect it, and treat the foreign matter.

Meanwhile, a separate filter is installed in the passage through which the treated water that has passed through the filtration tank flows into the backwash tank to finally filter foreign substances.

Conventionally, since the filter is installed perpendicular to the passage flowing into the backwash tank, there is an inconvenience in that the filter cannot be properly cleaned by the backwash nozzle installed at the upper part of the passage.

Therefore, even if bulky foreign substances enter the pretreatment tank, filtering can be performed without interruption, while the collected foreign substances can be easily treated to increase work efficiency, and the filter installed in the passage entering the backwash tank can be effectively cleaned with a backwash nozzle. Development of a device for reducing non-point pollution with a new structure that can be used is urgently required.

Korean Patent Registration No. 10-1764414

The present invention has been proposed to solve the above problems, and an object of the present invention is to continuously perform filtering without stopping even if bulky foreign substances are introduced into the pretreatment tank.

In addition, an object of the present invention is to allow an operator to easily remove foreign substances collected in a filter.

In addition, an object of the present invention is to increase the cleaning efficiency of a backwash nozzle.

The present invention is a non-point pollution reduction device for removing foreign substances from contaminated water flowing from a non-point source,

It is manufactured in the form of a chamber in which a space capable of storing fluid is formed therein, and an inlet is formed in the upper part of one side, and a connection port for the pretreatment tank is formed in the lower part of the other side, so that foreign matter contained in the contaminated water flowing into the inlet is an inlet inside the pretreatment tank. A pretreatment tank that is filtered through a collecting filter formed to surround the filter and flows out through the filter tank connector;

It is manufactured in the form of a chamber with a space capable of storing fluid therein, and is disposed adjacent to the pretreatment tank, and the treated water flowing through the connection port of the pretreatment tank is moved upward from the lower side of the filter media layer disposed inside the lower part of the filter tank. A filtration tank through which foreign matters are filtered while passing through the filter tank connector formed at an upper portion of one side; And

It is manufactured in the form of a chamber in which a space capable of storing fluid therein is formed, and a backwashing tank for outflowing the treated water introduced through the filtration tank connector through a discharge port formed at an upper side of the filter tank connector; to provide.

In addition, the collection filter of the present invention,

The body is divided into a first region, a second region, and a third region in a vertical downward direction by a bar, and a second region located in the middle is disposed lower than the inlet, and a side wall is formed so that the side of the second region is sealed. ;

It is formed in a pipe shape, one end is fixed to surround the inlet, the other end is fixed to surround one side wall of the first region, the other end is fixed to surround one side wall of the second region; and

The contaminated water introduced through the inlet passes through the fixing pipe, collides with one side wall of the second region of the body, and is decelerated, so that the heavy material contained in the contaminated water is collected between the other lower end of the fixing pipe and one side wall of the second region. , The reduced fluid is characterized in that it moves upward along one side wall of the second region and sequentially flows to the first region, the second region, and the third region.

In addition, the present invention further comprises a flow rectifying plate formed in a'>' shape and mounted on the inside of the fixed pipe to block the flow of contaminated water flowing from the inlet to reduce the flow velocity of contaminated water, and

The contaminated water introduced through the inlet is reduced by colliding with the flow rectifying plate, thereby minimizing loss of foreign matter collected between the other lower end of the fixed pipe and the sidewall of the second region.

In addition, the flow rectifying plate of the present invention is characterized in that a plurality of holes are formed to decompose the incoming contaminated water into a fine water stream, thereby further minimizing the loss of foreign matter collected between the other lower end of the fixed pipe and the side wall of the second region. do.

In addition, the body of the present invention,

The first area is partitioned by a bar, and a first screen perforated plate is fixed on the four sides of the first area, and a second screen perforated plate is arranged to be removable on the bottom surface of the first area,

The second area has four sides sealed by sidewalls to guide contaminated water flowing in from the first area and falling by gravity to the third area,

The third area is partitioned by a bar, and a sludge collecting net with an open top is disposed inside the third area to be removable.

In addition, the present invention further includes a sludge opening and closing door hinged to one side wall of the second region disposed facing the inlet,

When the foreign matter collected between the lower end of the other side of the fixing pipe and the side wall of the second region is collected by a predetermined weight or more, the sludge opening and closing door is opened so that the foreign substance is introduced into the third region.

In addition, the present invention further includes a wire; the lower end is coupled to the sludge collecting net and the central portion is coupled to the second screen perforated plate,

It is characterized in that it is possible to easily collect foreign matters collected in the sludge collecting net and the second perforated screen by drawing the wire to the outside.

In addition, the filtration tank of the present invention,

It characterized in that it further comprises a side filter that is coupled to surround the filter tank connector to filter foreign substances contained in the treated water discharged through the upper portion of the filter medium layer.

In addition, the side filter of the present invention,

A wall fixing unit having an open upper portion surrounding the filter tank connector, and having a triangular cross-section and formed of a perforated plate on an outer surface through which the treated water flows;

A filter cloth fixing device mounted on the perforated plate and perforated to allow inflow of treated water; And

It characterized in that it further comprises a; filter cloth interposed between the perforated plate and the filter cloth fixing device.

In addition, the present invention is characterized in that it further comprises a; backwash nozzle disposed on the top of the side filter to inject backwash water.

The apparatus for reducing non-point pollution according to the present invention has the effect of continuously filtering even if a bulky foreign substance is introduced into the pretreatment tank.

In addition, the present invention has the effect that the operator can easily remove the foreign matter collected in the filter.

In addition, the present invention has the effect of increasing the cleaning efficiency of the backwash nozzle.

In addition to the above-described effects, specific effects of the present invention will be described together while describing specific details for carrying out the present invention.

1 is a cross-sectional view of an apparatus for reducing non-point pollution according to the present invention.
2 is a view showing a flow path of a fluid in the device for reducing non-point pollution according to the present invention.
3 is a cross-sectional view of a pretreatment tank according to the present invention.
4 is a view showing a structure of a collecting filter and a flow path of a fluid according to the present invention.
5 is a front view of a collection filter according to the present invention.
6 is a view showing the structure of the filtration tank and the flow path of the fluid according to the present invention.
7 is a cross-sectional view showing a filter material layer of a filtration tank according to the present invention.
8 is a cross-sectional view of a side filter according to the present invention.
9 is a diagram showing fluid flow through a side filter according to the present invention.
10 is an exploded view of a side filter according to the present invention.
11 is a view for explaining the principle that the filter cloth according to the present invention is attached to and detached from the side filter.

Hereinafter, various embodiments of the present document will be described with reference to the accompanying drawings. However, this is not intended to limit the techniques described in this document to specific embodiments, and it should be understood to include various modifications, equivalents, and/or alternatives of the embodiments of this document. In connection with the description of the drawings, similar reference numerals may be used for similar elements.

In addition, expressions such as "first," "second," and the like used in this document can modify various elements regardless of their order and/or importance, and to distinguish one element from other elements. It is only used and does not limit the components. For example, the'first part' and the'second part' may represent different parts regardless of order or importance. For example, without departing from the scope of the rights described in this document, a first component may be referred to as a second component, and similarly, a second component may be renamed to a first component.

In addition, terms used in this document are only used to describe a specific embodiment, and may not be intended to limit the scope of other embodiments. Singular expressions may include plural expressions unless the context clearly indicates otherwise. Terms used herein, including technical or scientific terms, may have the same meaning as commonly understood by one of ordinary skill in the technical field described in this document. Among the terms used in this document, terms defined in a general dictionary may be interpreted as having the same or similar meanings as those in the context of the related technology, and unless explicitly defined in this document, an ideal or excessively formal meaning Is not interpreted as. In some cases, even terms defined in this document cannot be interpreted to exclude embodiments of the present document.

1 is a cross-sectional view of a non-point pollution reduction device according to the present invention, Figure 2 is a view showing a flow path of a fluid in the non-point pollution reduction device according to the present invention.

It will be described with reference to FIGS. 1 and 2.

The non-point pollution reduction apparatus according to the present invention is a filtration-type reduction apparatus, and includes a pretreatment tank 100, a filtration tank 200, and a backwash tank 300.

The pretreatment tank 100, the filtration tank 200, and the backwash tank 300 are all manufactured in the form of a chamber in which a space capable of storing fluid is formed.

The pretreatment tank 100 mainly filters out bulky foreign substances contained in the incoming contaminated water, and filters fine foreign substances through the filter medium layer 202 in the filter tank 200.

The backwash tank 300 is a space for storing backwash water for removing foreign substances filtered by the filter.

As shown in FIG. 2, contaminated water flows into the top of one side wall of the pretreatment tank 100 and flows out to the bottom of the other side wall. In the filtering tank 200, the fluid flows upward from the bottom to the filter media layer 202. Pass through, and the fluid is finally discharged through the backwash tank 300.

3 is a cross-sectional view of the pretreatment tank 100 according to the present invention, FIG. 4 is a view showing the structure of the collecting filter 103 and the flow path of the fluid according to the present invention, and FIG. 5 is a collecting filter according to the present invention. It is a front view of 103.

This will be described with reference to FIGS. 3 to 5.

In the pretreatment tank 100, an inlet 102 is formed in an upper portion of one side, and a connection port of the pretreatment tank is formed in a lower portion of the other side.

In the conventional filtering type non-point pollution treatment apparatus, a filter is installed in the pretreatment tank 100 to primarily filter foreign substances. However, the filter of the pretreatment tank 100 is clogged by foreign substances such as bulky vinyl introduced together with contaminated water, so that the filtering function cannot be performed anymore often occurs.

Accordingly, in the present invention, a collection filter 103 having a multi-stage structure is installed so as to surround the inlet 102 inside the pretreatment tank 100.

The collecting filter 103 according to the present invention includes a body 103-2, a fixed pipe 103-1, and a flow rectifying plate 103-3.

The body 103-2 is divided into a first area 103-9, a second area 103-10, and a third area 103-11 by a bar.

The second area 103-10 located in the middle of the body 103-2 is disposed lower than the inlet 102, and the side of the second area 103-10 is sealed by a side wall.

Since the first region 103-9 and the third region 103-11 are only framed by a bar, they have a structure in which fluid can flow through smoothly.

The first perforated screen 103-5 is fixed to the four sides of the first area 103-9.

The second region 103-10 has four sides sealed by sidewalls to guide contaminated water flowing in from the first region 103-9 and falling by gravity to the third region 103-11.

The third area 103-11 is partitioned by a bar, and a sludge collecting net with an open top is disposed in the third area 103-11 so as to be removable.

Conventionally, in order to remove foreign substances collected in the filter, an operator had to enter a non-point pollution reduction device buried underground to inspect and remove foreign substances.

In order to solve this inconvenience, a wire for drawing 103-4 is provided for easily drawing the collected foreign matter to the outside.

The wire 103-4 has a lower end portion coupled to the sludge collecting net 103-8, and a central portion coupled to the second perforated screen 103-7. Therefore, the operator can easily remove the trapped foreign matter by holding and lifting the upper end of the wire 103-4.

The opening and closing door is hinged to a side wall of the second area 103-10 disposed opposite the inlet 102 so that the opening and closing door is rotatable.

The function of the opening and closing door will be described later.

The fixing pipe 103-1 is formed in a pipe shape and is configured to guide contaminated water introduced through the inlet 102 toward the body 103-2.

The fixing pipe 103-1 is fixed so that one end surrounds the inlet 102, the upper end of the other end is fixed to surround one side wall of the first region 103-9, and the lower end of the other end is the second region 103-10. It is fixed to surround one side wall of the.

The flow rectifying plate 103-3 is configured to reduce the flow velocity of contaminated water flowing in from the inlet 102.

The flow rectifying plate 103-3 is formed in a'>' shape and mounted on the inside of the fixing pipe 103-1 to block the flow of contaminated water flowing from the inlet 102.

A plurality of holes are formed in the flow rectifying plate 103-3. This serves to decompose the incoming contaminated water into fine water streams.

The contaminated water flowing through the inlet 102 passes through the fixing pipe 103-1 and collides with one side wall of the second region 103-10 of the body 103-2, and is decelerated, so that the heavy substances contained in the contaminated water are reduced. The fluid is collected between the lower end of the other side of the fixing pipe 103-1 and one side wall of the second area 103-10, and the reduced fluid moves upward along the side wall of the second area 103-10 to move the first area. (103-9), the second region 103-10, and the third region 103-11 flows sequentially.

The operating principle of the collection filter 103 according to the present invention will be described in detail.

Filtering through the collection filter 103 is performed in the order of three steps, namely, heavy material collection, filtering by the first and second perforated screens 103-5 and 103-7, and filtering by the sludge collection network.

The contaminated water flowing through the inlet 102 collides with the flow rectifying plate 103-3 and is decelerated. At this time, the plurality of holes formed in the flow rectifying plate 103-3 divides the contaminated water into fine water streams to further reduce the amount of momentum of the water stream.

The contaminated water reduced in this way collides with the sidewall of the second region 103-10 and moves upward along one sidewall of the second region 103-10, thereby forming the first region 103-9 and the second region 103. -10), it flows sequentially to the third area 103-11.

The heavy material contained in the contaminated water that has been decelerated by colliding with one side wall of the second area 103-10 is collected between the lower end of the other side of the fixing pipe 103-1 and one side wall of the second area 103-1.

In particular, the plurality of holes formed in the flow rectifying plate 103-3 decompose the incoming contaminated water into a fine water stream, thereby being collected between the lower end of the other side of the fixing pipe 103-1 and the side wall of the second region 103-10. Minimize the loss of foreign substances.

Contaminated water flowing into the first area 103-9 is filtered by the first and second perforated screens 103-5 and 103-7, and the contaminated water by its own weight passes through the second area 103-10. It flows into the third area 103-11 via the passage.

A sludge collecting net is provided in the third area 103-11 to filter finer foreign matters passing through the first and second perforated screens 103-5 and 103-7.

In the collecting filter 103 according to the present invention, even if a bulky vinyl is introduced to block and block the flow rectifying plate 103-3, the body 103-2 is formed through a partial unblocked area inside the fixing pipe 103-1. ) Has the advantage that filtering can be maintained by flowing to the first region 103-9.

On the other hand, when foreign matter collected between the other lower end of the fixed pipe 103-1 and the side wall of the second area 103-10 is collected by a predetermined weight or more, the sludge opening door 103-6 is opened and the third area ( 103-11) to allow foreign substances to be introduced.

Through this, there is an effect that the foreign matter collected between the lower end of the other side of the fixing pipe 103-1 and the sidewall of the second region 103-10 is automatically treated.

6 is a view showing the structure of the filter tank 200 and the flow path of the fluid according to the present invention, FIG. 7 is a cross-sectional view showing the filter medium layer 202 of the filter tank 200 according to the present invention, and FIG. 8 is A cross-sectional view of a side filter according to the present invention, Figure 9 is a view showing a fluid flow through the side filter according to the present invention, Figure 10 is an exploded view of the side filter according to the present invention, Figure 11 is a filter cloth according to the present invention It is a figure explaining the principle that (204-1) is attached to and detached from the side filter.

This will be described with reference to FIGS. 6 to 11.

The filtration tank 200 is disposed adjacent to the pretreatment tank 100. The filtration tank 200 passes the treated water flowing through the pretreatment tank connector in the upper direction from the bottom of the filter material layer 202 disposed inside the lower part of the filter tank 200, while foreign matter is filtered to the upper one side. It flows out through the formed filter tank connector 408.

A side filter 204 is coupled to surround the filter tank connector 408.

The side filter 204 filters foreign substances contained in the treated water discharged through the upper portion of the filter material layer 202.

Conventionally, the side filter 204 is attached to the filter tank connector 408 in a vertical direction, so that the side filter 204 has a relatively narrow side. For this reason, it was necessary to frequently remove foreign substances attached to the side filter 204.

In addition, since the side filter 204 is installed in the vertical direction, the foreign matter attached to the side filter 204 could not be effectively removed with the backwash nozzle 205 located at the top.

Accordingly, in the present invention, a related problem was solved by installing the filter cloth 204-1 in an oblique direction to the side filter 204 so as to be detachable.

The side filter 204 according to the present invention includes a wall fixing table 204-3, a filter cloth fixing device 204-2, and a filter cloth 204-1.

The wall fixing table 204-3 surrounds the filter tank connector 408, and is fixed by forming an inclined surface so that the wall surface on which the filter tank connector 408 is formed and the upper portion of the wall fixing table 204-3 form an open acute angle.

The filter cloth fixing device 204-2 is fixed to the inclined surface so as to be attachable and detachable.

The filter cloth (204-1) is interposed between the inclined surface and the filter cloth fixing device (204-2), it is possible to attach and detach.

As a result, since the filter cloth 204-1 forms an inclined surface, the area is widened compared to the case where the filter cloth 204-1 is installed in a vertical direction with respect to the same height of the filter tank connector 408. As a result, the density of the foreign matter collected can be lowered, and the replacement period can be delayed.

On the other hand, in the related art, since the side filter 204 is mounted in the vertical direction, both the backwashing water injection direction of the backwashing nozzle 205 and the arrangement direction of the side filter 204 are oriented in the vertical direction, so that foreign matter removal was not performed smoothly.

Since the filter cloth 204-1 according to the present invention has an inclined surface, the backwashing nozzle 205 disposed thereon can effectively remove foreign matter collected in the filter cloth 204-1.

Further, the filter cloth 204-1 according to the present invention can be mounted and detached, and an appropriate filter cloth 204-1 may be selected according to the characteristics of the contaminated water.

For example, in the case of contaminated water containing a lot of oil, a filter cloth 204-1 having a high oil adsorption rate may be employed.

The present invention relates to an apparatus for reducing non-point pollution, by installing a multistage collecting filter 103 in the pretreatment tank 100 to enable continuous filtering without interruption even if some filters are blocked by bulky foreign substances, The screen perforated plate (103-5, 103-7) and sludge collection net (103-8) built in the collection filter (103) are installed in a structure that can be withdrawn to the outside to facilitate the removal of foreign substances, and the filtering tank (200) A filter cloth (204-1) is installed in the inclined direction to eliminate clogging by foreign substances and at the same time, it relates to a non-point pollution reduction device that facilitates washing by the backwash nozzle (205).

In the above, preferred embodiments of the present invention have been illustrated and described, but the present invention is not limited to the specific embodiments described above, and is generally used in the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications may be implemented by those skilled in the art, and these modified embodiments should not be individually understood from the technical spirit or prospect of the present invention.

1000: Aerial view of non-point pollution treatment facility
2000: Body of non-point pollution treatment facility
100: pretreatment tank
200: filtration tank
300: backwash tank
400: Contaminated water flow
101: backwash outlet
102: inlet
103: collection filter
103-1: fixed pipe
103-2: body
103-3: flow rectifier plate
103-4: wire
103-5: first screen perforated plate
103-6: Sludge opening door
103-8: sludge collection net
103-9: area 1
103-10: second area
103-11: area 3
104: drain pump
201: Air backwash disk
202: filter layer
203: water back flush nozzle
204: side filter
204-1: filter cloth
204-2: filter cloth fixing device
204-3: Wall fixture
204-4: perforated plate
205: backwash nozzle
301: backwash pump
302: Station Customs
303: outlet
401: MCC
402: Brower
403: pretreatment tank inspection port
404: filter tank inspection port
405: backwash tank inspection port
406: inspection ladder
407: connection port of the pretreatment tank
408: filter tank connector

Claims (10)

In a non-point pollution reduction device that removes foreign substances from contaminated water flowing from a non-point source,
It is manufactured in the form of a chamber in which a space capable of storing fluid is formed therein, and an inlet 102 is formed in an upper portion of one side, and a pretreatment tank connector is formed in the lower portion of the other side to prevent foreign matter contained in the contaminated water flowing into the inlet port 102. A pretreatment tank 100 that flows out through the pretreatment tank connector 407 by filtering through a collection filter 103 formed inside the pretreatment tank 100 to surround the inlet 102;
It is manufactured in the form of a chamber in which a space capable of storing fluid is formed therein, and is disposed adjacent to the pretreatment tank 100, and the treated water flowing through the connection port of the pretreatment tank is disposed in the lower inner side of the filter tank 200 ( A filtration tank 200 flowing out through a filtration tank connector 408 formed at an upper portion of the filter while passing through the filter material layer 202 from the bottom of 202 to the top; And
It is manufactured in the form of a chamber in which a space capable of storing fluid is formed therein, and a backwashing tank 300 that discharges the treated water introduced through the filter tank connector 408 through a discharge port 303 formed at an upper portion of one side; Characterized by,
The collection filter 103,
It is divided into a first area 103-9, a second area 103-10, and a third area 103-11 in the vertical downward direction by a bar, and the second area 103-10 located in the middle is the A body (103-2) disposed lower than the inlet (102) and having a sidewall formed to seal the side of the second region (103-10);
It is formed in a pipe shape, one end is fixed to surround the inlet 102, the other end is fixed to surround one side wall of the first region 103-9, and the other end is fixed to surround the second region 103-10. Includes; a fixed pipe (103-1) fixed to surround one side wall,
The contaminated water flowing through the inlet 102 passes through the fixing pipe 103-1, and the heavy material contained in the contaminated water is at the lower end of the other side of the fixing pipe 103-1 and one side wall of the second region 103-10. The fluid that is trapped and decelerated therebetween moves upward along one side wall of the second area 103-10, and moves to the first area 103-9, the second area 103-10, and the third area 103. Non-point pollution reduction device, characterized in that it flows sequentially in -11)
delete The method of claim 1,
A flow rectifying plate 103-3 which is formed in a'>' shape and mounted inside the fixing pipe 103-1 to block the flow of contaminated water flowing from the inlet 102 to reduce the flow velocity of the contaminated water; It further includes,
The contaminated water introduced through the inlet 102 collides with the flow rectifying plate 103-3 and is decelerated, so that it is collected between the lower end of the other side of the fixed pipe 103-1 and the side wall of the second region 103-10. Non-point pollution reduction device, characterized in that the loss of foreign matter is minimized
The method of claim 3,
The flow rectifying plate 103-3 has a plurality of holes to decompose the incoming contaminated water into a fine water stream, and at the same time, the other lower end of the fixed pipe 103-1 where relatively large contaminants fall to the lower end and are collected. Non-point pollution reduction device, characterized in that the loss of foreign matter is further minimized by being accumulated in
The method of claim 1,
The body 103-2,
The first area 103-9 is divided by a bar, and the first screen perforated plate 103-5 is fixed to the four sides of the first area 103-9, and the first area 103-9 is fixed to the bottom surface of the first area. 2 The screen perforated plate (103-7) is arranged to be removable,
The second area 103-10 has four sides sealed by sidewalls to guide contaminated water flowing in from the first area 103-9 and falling by gravity to the third area 103-11,
The third area 103-11 is partitioned by a bar material, and a sludge collection net with an open top is disposed inside the third area 103-11 so as to be removable.
The method of claim 5,
A sludge opening and closing door (103-6) hinged to one side wall of the second region (103-10) disposed facing the inlet (102); further includes,
When foreign matter collected between the lower end of the other side of the fixing pipe 103-1 and the side wall of the second area 103-10 is collected by a predetermined weight or more, the sludge opening and closing door 103-6 is opened and the third area 103- 11), non-point pollution reduction device, characterized in that foreign substances are introduced
The method of claim 5,
The lower end portion is coupled to the sludge collecting net (103-8) and the central portion is a wire (103-4) coupled to the second screen perforated plate (103-7); further includes,
Non-point pollution reduction device, characterized in that it is possible to easily collect foreign substances collected in the sludge collection net 103-8 and the second perforated screen 103-7 by drawing the wire 103-4 to the outside
The method of claim 1,
The filtration tank 200,
A side filter 204 that is coupled to surround the filter tank connector 408 to filter foreign substances contained in the treated water discharged through the upper portion of the filter medium layer 202; a non-point pollution reduction device further comprising
The method of claim 8,
The side filter 204,
A wall fixing member (204-3) formed of a perforated plate (204-4) on an outer surface of the filtration tank connector (408) and having an open upper portion thereof in a triangular cross-sectional shape;
A filter cloth fixing device (204-2) mounted on the perforated plate (204-4) and perforated to allow inflow of treated water; And
A filter cloth (204-1) interposed between the perforated plate (204-4) and the filter cloth fixing device (204-2); characterized in that it further comprises a non-point pollution reduction device
The method of claim 9,
A backwash nozzle 205 disposed on the side filter 204 to spray backwash water; characterized in that it further comprises a non-point pollution reduction device

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