KR100933376B1 - Manhole Trap for Rain Receiving - Google Patents

Abstract

The present invention relates to a manhole trap including a fine screen, a net and a connection portion, according to the manhole trap, it can be easily installed in the existing rainwater receiving space without changing the facilities, the fine screen to prevent the accumulation of contaminants The pores of the fine screen can be prevented from being blocked, and the collected contaminants can be removed by simple replacement of the disposable mesh, which is convenient for maintenance.

Rain Well, Fine Screen, Mesh, Non-point Pollutant

Description

Manhole Trap for rainspout

The present invention relates to a manhole trap for rainwater reception to remove the contaminants introduced into the rainwater manhole, more specifically, having a slope to prevent the solid-liquid separation of rainwater and contaminants and the sedimentation of separated impurities. The present invention relates to a manhole trap for rainwater receiving, which can effectively separate and remove nonpoint pollutants in rainwater by using a detachable mesh easily attached to the microscreen and the connection portion attached to the microscreen.

Water pollution sources can be largely classified into point sources and nonpoint sources. Among them, nonpoint sources are pollutants that are polluted by rainwater on the surface during rainfall and are difficult to handle because of the concentration of runoff during rainfall. In addition, the first runoff (first-flush), where the surface pollutant is discharged during the early rainfall, has a high concentration of pollutants, especially in urban areas, and is likely to contain toxic substances such as heavy metals. Control measures are required. However, in general, the rainwater receiver is installed using a grating having a wide interval of manure of the upper lid part, so that a small contaminant smaller than the spacing of manure is inflowed and discharged through the sewer pipe.

Existing technologies developed for the treatment of nonpoint pollutants in storm sewers include adsorption and removal using filters made of activated carbon and other materials, filtration separation according to the size of the contaminants using multilayer screen layers, storm walls and floors. There is a method for producing a water permeability and a method using a combination of the above techniques. However, these methods are complicated in the configuration of the device and require a large area, and thus there are limitations in improving the existing installed storm receiver. In addition, it is pointed out that the new installation costs a lot of civil engineering and facilities, has a relatively high maintenance cost due to the replacement of expensive filters, and the voids in the screen and the permeation medium are blocked by the accumulation of contaminants.

The present invention is to solve the conventional problems, one object of the present invention can be easily installed regardless of existing and newly installed rainwater receiving, it is possible to efficiently separate the solid-liquid of rainwater, easy to maintain, It is to provide a low cost rainwater non-pollutant treatment device.

One aspect of the present invention

A fine screen having a plurality of voids and installed inclined inside the rainwater receiver to discharge rainwater through the voids and move the contaminants to the lower mesh along the slope; Side and bottom is a network structure and the upper part of the open network to filter the contaminants introduced from the fine screen; And it relates to a manhole trap comprising a connection for connecting the lower portion of the fine screen and the upper portion of the mesh.

The manhole trap device according to the present invention can be easily installed without changing the facilities inside the newly installed or existing rainwater receiving space, thereby reducing the effort and cost, and the microscreen prevents the accumulation of contaminants, so that the pores of the microscreen are blocked. It is possible to prevent the phenomenon, and the collected contaminants can be removed by simple replacement of the mesh, so the maintenance is convenient. In addition, the time required for the installation and maintenance of the manhole trap according to the present invention has an additional effect that does not cause traffic congestion during the roadside receiving work in the city.

Manhole trap for rainwater receiving device according to the present invention is a fine screen having a plurality of voids and installed inclined inside the rainwater receiver to discharge rainwater through the pores and to move the contaminants to the lower mesh along the slope; The side and the lower portion is a network structure and the upper portion is an open network to filter out the contaminants introduced from the fine screen; And it characterized in that it comprises a connecting portion for connecting the lower portion of the fine screen and the upper portion of the mesh.

Hereinafter, the present invention will be described in more detail.

1 is a side view of a manhole trap for rainwater receiving according to an embodiment of the present invention, Figure 2 is a perspective view showing a manhole trap for rainwater receiving according to another embodiment of the present invention, Figure 3 is a rainwater receiving Side view of manhole trap.

Referring to FIG. 1, the manhole trap for rainwater reception according to the present invention includes a fine screen 1, a net body 2, and a connection part 3.

The fine screen (1) is provided with a plurality of voids and installed inclined inside the storm receiver to discharge rainwater through the voids and to move the contaminants downward along the slope.

As shown in Figure 1, the fine screen 1 may have a flat plate-like structure. It is preferable to install the fine screen 1 of the plate-like structure at an angle so as to have a predetermined inclination inside the excellent receiver.

The fine screen 1 should have a certain inclination to move rainwater and contaminants downward.

Referring to FIG. 2, the fine screen 1 may have an inclined curved shape from the top to the bottom as a curved structure of an elliptical shape. 2 is a concave shape from the top to the bottom, alternatively, the fine screen may be a convex shape from the top to the bottom. As such, the microscreen of the present invention is sufficient to have a certain slope and is not necessarily limited to its structure and shape.

The plate-like structure in FIG. 1 has a linear slope (eg, linear function), but as shown in FIG. It is a structure that can move quickly to the lower part with acceleration. The oval-shaped curved structure is a more efficient shape that can prevent the accumulation of contaminants on the fine screen (1).

Referring to FIG. 1, the fine screen 1 includes a frame 11 and a gap 12.

The fine screen 1 is preferably made of a material having sufficient strength to prevent corrosion and not deform the shape by the weight of running water and contaminants. The material of the metal core forming the frame 11 and the air gap 12 is not particularly limited, and may be used by applying an anti-corrosion coating to iron, and may use FRP or stainless steel.

The air gap 12 functions to pass rainwater downward, to filter out contaminants, and to move downwards.

The weave screen or net structure alternately interwoven with the voids 12 is not desirable, and it is preferable that a plurality of linear metal cores are inserted into the frame to be integrally formed, such as a grating having a straight line or manure.

This is because the screen or the network structure is easily deposited on the screen or the network by the movement of the contaminants by the alternately interwoven parts. However, in order to maintain the structural strength of the fine screen, a support may be installed across the bottom of the screen.

The metal core may be in the form of a bar or a bar installed in the frame of the fine screen, and there is no particular limitation on the thickness of the metal core and the spacing between the metal cores. More preferably, the distance between the metal cores is 0.5 to 10 mm, but it is not necessarily manufactured to maintain a constant interval within the interval, and may also be manufactured to adjust the interval by a variable means such as a bolt.

The net body 2 has a network structure at its side and bottom and is open at the top. The mesh 2 functions to filter out contaminants introduced from the fine screen and rain grating. The network 2 may perform the filtering function not only by the solid-liquid separation by the pores of the network structure, but also by the pores formed in the solid collected in the network.

The net body 2 is connected to the micro screen by a connection part which is easily removable. It is easy to replace and can be used for one-time use.

There is no particular limitation on the material of the net body 2, and if it is provided with a net structure can be used without limitation, the material is preferably light, low maintenance costs, for example polyethylene, polypropylene or nylon, polyester Synthetic fibers such as polyurethane and acrylic may be used, but are not necessarily limited thereto.

In addition, the network may be prepared by using a network containing an adsorbent such as volcanic ash or activated carbon with excellent adsorption in order to prevent oil and other organic compounds from flowing directly into the stream.

The connection part 3 functions to connect the lower part of the fine screen and the upper part of the net body. A ring or a hinge can be used as the connection portion, and it is more preferable that the hinge is easy to attach or detach.

In the installation of the manhole trap, the fine screen, the hinge and the net body is assembled first, and then installed in the rain receiver. Referring to FIG. 2, the width 4 of the manhole trap is about 7/10 to 9/10 of the raindrop inner width 5 to prevent the rain from overflowing the manhole beyond the treatment capacity of the manhole trap. It is preferable to provide a free space 41 of about 1/10 to 3/10 based on the rain receiver width.

In addition, the connection between the microscreen and the hinge, as shown in the figure, attaches the hinge to the lower part of the microscreen and installs a frame that can maintain the shape of the mesh on the hinge to keep the shape from being disturbed. There is no limitation on the shape or shape of the frame.

1 is a side view of the manhole trap for rainwater receiving according to an embodiment of the present invention.

Figure 2 is a perspective schematic diagram showing a manhole trap for rainwater receiving according to another embodiment of the present invention.

FIG. 3 is a side view of the manhole trap for rainwater receiving of FIG. 2; FIG.

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

1: fine screen 11: frame, 12: air gap

2: network 3: connection part

4: Width of manhole trap 41: Clearance 5: Width of rainwater drop

Claims (7)

In the manhole trap that is installed inside the rain gutters to catch the impurities, A pair of fine screens (1) including a frame (11) and a plurality of straight voids (12) to pass rainwater down and filter out contaminants, and inclined inside the rainwater receiver so that a space is formed therebetween; Adsorption and filtration are performed by the voids formed in the inflowing contaminants located at the lower portion of the space formed by the micro-screen (1), and the side and the bottom is a network structure to filter out the contaminants introduced from the micro-screen (1) A net body 2 made of an open top; And It includes a connection portion 3 for connecting the lower portion of the fine screen 1 and the upper portion of the mesh 2, The fine screen 1 has an inclined curved shape from the top to the bottom as an elliptical curved structure to easily prevent the deposit of the contaminants, and the air gap 12 has a plurality of rod-shaped straight metal cores and the metal cores. It is made of a support that is installed across the lower metal core to maintain the structural strength, the connecting portion 3 is made of a hinge or a ring for easy detachable detachment of the mesh 2, to prevent the rain from overflowing the manhole So that the width of the manhole trap is 7/10 to 9/10 of the inner width of the storm receiver, The rainwater passes through the straight pores 12 and the contaminants are moved downward along the slope without deposition by the microscreen 1 to the network 2 through the space between the microscreens 1. Manhole traps characterized in that the flow. delete delete The manhole trap according to claim 1, wherein the material of the mesh (2) is polyethylene, polypropylene, nylon, polyester, polyurethane, or acrylic. delete delete The manhole trap according to claim 1, wherein the net body (2) comprises volcanic ash or activated carbon as an adsorbent.

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