KR101015922B1 - A rainwater management system for function type - Google Patents

Abstract

PURPOSE: A rainwater storage tank with a functional grit chamber is provided to prevent a through-hole from becoming blocked and to facilitate the removal of foreign materials such as mud. CONSTITUTION: A rainwater storage tank with a functional grit chamber comprises a lower block body(10), a middle block body(20), an upper block body(30), a base plate(40), a rainwater guide pipe(50), and an opening and closing cover(60). The middle block body is mounted on the top of the lower block body. Multiple through-holes are formed in the middle block body to discharge rainwater to a perforated pipe. The upper block body is mounted on the top of the middle block body. The lower part of the upper block body is opened, and an open hole(31) is formed on the top of the upper block body. The base plate supports the bottom surface of the lower block body. The rainwater guide pipe is connected to the side wall of the upper block body in order to guide the inflow of the rainwater.

Description

Rainwater Reservoir with Functional Sedimentation Tank {A RAINWATER MANAGEMENT SYSTEM FOR FUNCTION TYPE}

The present invention relates to a rainwater storage tank, and more particularly, to improve the functionality of the sedimentation tank in the rainwater storage tank facilities for temporarily storing the drainage, such as rainwater, to control flooding and drainage.

Conventionally, structures for storage penetration facilities such as rainwater and storage penetration facilities such as rainwater have been disclosed. Such a conventional structure for storage facilities such as rainwater includes a plurality of partition members, a plurality of side plate members, and a plurality of face plate members. Each of the partition members is arranged in a flat shape with two sides facing each other in the width direction and spaced apart from each other.

The side plate member constituting such a needle tank is flat and is coupled to two sides of the partition member. Each of the face plate members has a concave portion on one side of the two sides facing each other, and the other side has a convex portion and a convex portion corresponding thereto. It is integrated. The partition plate (the partition member) and the side plate member are unevenly coupled between two protrusions provided on one surface of the face plate member between the sides of the height plate and adjacent face plate members.

For example, Japanese Laid-Open Patent Publication No. 2006-37482, wherein the conventional rainwater tide tank, the rainwater collected in the sump is introduced into the structure through one opening provided near the bottom of the sidewall of the sump, and penetrates into the ground. It is supposed to.

In such rainwater storage facilities, however, rainwater contaminated with mud or the like may flow into the sump. In such a case, mud and the like easily accumulate on the bottom of the sump. However, if mud or the like accumulates in the sump, the mud or the like can block some or all of the openings involved in penetration provided at or near the bottom of the sump sidewall. As a result, there was a problem that adversely affect the storage infiltration facilities such as rain water.

The present invention has been proposed to improve the problems occurring in the above-described conventional rainwater storage tank, it is easy to remove the sedimentary foreign substances such as mud introduced with the rainwater and the sedimentation tank structure that prevents the clogging of the through hole The purpose is to improve the reliability of rainwater storage facilities.

In the storage facility structure of the present invention for achieving the above object, in order to temporarily store the rainwater introduced from the outside, the sedimentation tank is buried in the center of the facility, the perforated pipe is disposed in the rainwater storage tank facility is constructed In the settling tank, the lower block body is a rectangular concrete structure of which the top is open; A suspended block body configured to be seated on an upper portion of the lower block body, the suspended block body having a top and bottom openings and a rectangular concrete structure having a plurality of through holes formed in the side wall; An upper block body configured to be seated on an upper portion of the interrupting block body, the upper block body being a rectangular concrete structure having a lower opening and an opening hole of a predetermined size formed thereon; A base plate for supporting the bottom of the lower block body; A rainwater guide tube connected to the sidewall of the upper block body to guide the inflow of rainwater from the outside; An opening and closing lid configured at an upper portion of the upper block body to open and close an opening hole; And a water permeable layer provided on the outside of the stopping block body for purification of rainwater discharged through the through hole of the stopping block body and introduced into the hole pipe.

In the rainwater storage tank of the present invention, the sedimentation tank in which the rainwater is introduced has a three-stage separable structure, thereby making it easy to inspect and clean the inside and effectively remove foreign substances accumulated on the bottom surface.

In particular, it is possible to prevent the blockage of the through-holes in which the rainwater flows to the perforated pipe, thereby improving the reliability of the storage facility.

In addition, the purification process is performed by the porous volcanic stone forming the permeable layer in the flow process.

Hereinafter, specific embodiments of the present invention will be described in detail with reference to the accompanying drawings.

First, looking at the structure of the functional immersion tank 100 installed in the center of the rainwater storage tank facilities according to an embodiment of the present invention through a cross-sectional view of Figure 1, the lower block body 10 made of a molded material made of concrete and suspended The block body 20 and the upper block body 30 are sequentially stacked, of which the lower block body 10 forms a rectangular structure as shown in the cross-sectional view of FIG. , It can be seen that the base plate 40 is configured to support the lower block body 10 in a stable state in the lower portion.

The stopping block body 20 configured to be seated on the lower block body 10 has a plurality of through holes 21 for discharging rainwater introduced into the hole pipe 200 in the middle and side walls of the upper and lower portions thereof. It can be seen through the cross-sectional view of FIG. 2 that the formed rectangular structure.

In addition, the upper block body 30, which is configured to be seated on the upper portion of the middle block body 20, has a rectangular shape in which a lower part is opened and an opening hole 31 having a predetermined size is formed in the upper part, and the inner spaces are respectively planar. It is about 800 × 800mm square and about 1000mm high, so it can fit into the worker.

On the inner wall surfaces of the middle block body 20 and the upper block body 30, scaffolds 22 and 32 for moving the operator are provided.

On the other hand, between the interruption block body 20 and the upper block body 30 is formed a plate-shaped member 70 having an opening hole 72 in the center, the opening hole 72 has a strainer net (centering the hinge of one side) 71) is provided to open and close to perform a function to block the inflow of foreign matter. At this time, the strainer 71 is preferably so as to perform the sterilization and purification function for the rainwater flowing in as the nano-silver coating layer 71a is formed as in the enlarged view of the main portion.

In addition, the through hole 21 formed in the interruption block body 20 has a shape that gradually increases in size from the inside to the outside so that the rain water can be easily moved, and the permeable layer 250 aggregates through the through hole 21. It can be seen that the mesh net 23 is wrapped around it to prevent the inflow.

In addition, one side wall of the lower block body 10 may be provided with a separate connection water intake pipe 80 for use of rainwater stored therein as needed.

On the other hand, around the immersion tank 100, as shown in Figures 4 and 5 a plurality of perforated pipes for rain water storage is to be laminated.

That is, each of the perforated pipe 200 is formed with a plurality of through-holes 210 for the flow of rainwater, between the immersion tank 100 and the perforated pipe 200 is provided with a permeable layer 250 for the purification of rainwater The permeable layer 250 is preferably formed by filling a porous volcanic stone aggregate having excellent foreign matter adsorption performance.

In the drawings, reference numeral 60 denotes an opening and closing lid, and 300 represents an order sheet for preventing soil infiltration from stored rain.

The effect of using the rainwater storage tank of the present invention in which the immersion tank 100 of such a structure is constructed will be described.

Rainwater collected from an external facility such as a road surface or steel grating and introduced through the rainwater guide tube 50 is dropped into the inner space of the sedimentation tank 100 to be temporarily stored.

At this time, during the inflow process, the foreign matter of the predetermined size can be filtered out primarily by the strainer 71 installed in the opening hole 72 of the plate member 70. The strainer 71 has a nanosilver coating layer 71a. Since it is formed, while preventing the corrosion of the strainer 71 can be made antibacterial action against rain water.

Then, when the rainwater introduced into the sedimentation tank 100 is above a certain level and the water level gradually rises, the water is discharged through the through-hole 21 formed on the sidewall, and then moved to the hole pipe 200 through the permeable layer 250. You lose.

That is, the introduced rainwater is stored from the lower block body 10 and gradually rises in the water level so that the rainwater is moved to and stored in the hole pipe 200 through the through-hole 21 of the interrupted block body 20, and this movement process In the purification process is made while passing through the volcanic stone forming the permeable layer (250).

Thus, the stored rainwater can be supplied through a water intake pipe 80 connected to the lower block body 10 or a separately installed water intake facility (not shown) to be used for a necessary purpose.

On the other hand, the sedimentary foreign matter such as mud introduced with the rainwater during the initial inflow process through the rainwater guide pipe 50 is accumulated on the bottom surface of the lower block body 10 clogging phenomenon of the through-hole 21 due to the mud Can be prevented.

And, the mud accumulated in the lower block body 10 can be removed through the internal cleaning periodically.

That is, during this internal cleaning operation, the opening and closing lid 60 is opened and the operator enters the upper block body 30, and then, the opening mesh 72 is opened to open a predetermined size opening hole 72 formed in the plate member 70. The lower block body 10 can be lowered to the bottom surface of the lower block body 10 by using the scaffolding 32 as the interrupting block body 20.

And, by removing the mud accumulated on the inner bottom is to prevent the phenomenon that the mud is no longer stacked to block the through-hole (21).

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the rainwater storage tank structure of the present invention may be variously modified and implemented by those skilled in the art.

It should be understood, however, that such modified embodiments are not to be understood individually from the spirit and scope of the invention, and such modified embodiments are intended to be included within the scope of the appended claims.

1 is a cross-sectional detailed structural diagram of the sedimentation tank according to an embodiment of the present invention.

2 is a cross-sectional view taken along the line A-A of FIG.

3 is a cross-sectional view taken along the line B-B of FIG.

4 is an overall schematic cross-sectional view of the present rainwater storage tank.

5 is a schematic overall cross-sectional view of the rainwater storage tank of the present invention.

Figure 6 is a perspective view of the hole pipe constructed in the present rainwater storage tank.

<Explanation of symbols for the main parts of the drawings>

10: lower block body 20: interrupted block body

21: through hole 22,32: scaffold

23: mesh net 30: upper block body

31 opening hole 40 base plate

50: rain water guide 60: opening and closing lid

70: plate member 71: strainer

71a: nano silver coating layer 72: opening hole

80: intake pipe

100: sedimentation tank 200: hole pipe

250: permeable layer 300: order sheet

Claims (5)

In the rainwater storage tank facility in which the sedimentation tank 100 is buried in the center of the facility to temporarily store rainwater introduced from the outside, and the perforated pipe 200 is disposed around the sedimentation tank 100. The tide tank 100, A lower block body 10 which is a rectangular concrete structure with an open top; The lower block body 10 is configured to be seated, the upper and lower openings and a plurality of through-holes to form a shape that is gradually increased in size from the inner side to the outer side to discharge the rainwater flowing into the side of the perforated pipe 200 side Suspended block body 20 which is a rectangular concrete structure in which 21 is formed; An upper block body 30 configured to be seated on an upper portion of the interrupting block body 20 and formed of a rectangular concrete structure having a lower opening and an opening hole 31 of a predetermined size formed thereon; A base plate 40 for supporting a bottom surface of the lower block body 10; A rainwater guide tube 50 connected to the side wall of the upper block body 30 to guide the inflow of rainwater from the outside; An opening and closing lid (60) configured at an upper portion of the upper block body (30) to open and close the opening hole (31); It is composed between the middle block body 20 and the upper block body 30, the opening hole 72 is formed in the center, the opening hole 72 is coated with a nano-silver coating layer 71a for sterilization and purification function Plate-shaped member 70 is formed to open and close the formed strainer 71; Permeable layer 250 is provided outside the stop block body 20 for purification of the rain water discharged through the through-hole 21 of the stop block body 20 flows into the hole pipe 200 and is filled with a porous volcanic stone )and; Scaffolds (22, 32) formed on the inner wall of the middle block (20) and the upper block (30); A mesh network 23 configured to surround the outside of the interruption block body 20 to prevent the inflow of volcanic stones constituting the permeable layer 250; A water intake pipe 80 connected to one side wall of the lower block body 10; Rainwater storage tank having a functional sedimentation tank characterized in that it comprises a configuration comprising a. delete delete delete delete

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