KR100930723B1 - A manhole structure for change from drained water to ground water - Google Patents

Abstract

PURPOSE: A manhole structure making inflow water as subsurface water is provided to prevent a drainpipe from being blocked and river pollution by installing a sedimentation tank, and a filtering device making the inflow water as the subsurface water. CONSTITUTION: A manhole structure making inflow water as subsurface water comprises a manhole, a sedimentation tank(11), an intermediate slab(14), a porous block, and a filtration mat(17) The inflow pipe(2) and the outflow pipe, or a facility pipe is connected to the manhole. The sedimentation tank sediments the soil and suspended materials between an inlet pipe and an outlet pipe and discharges the soil and suspended materials. The intermediate slab has a plurality of through-holes filled with filters(15). The inflow water is made as the subsurface water by the porous block. The filtration mat surrounds the side and the lower part of the porous block.

Description

A manhole structure for change from drained water to ground water}

The present invention relates to the field of rainwater manholes to collect rainwater, particularly in the manhole technology field in which the rainwater or natural water is filtered in the manhole to penetrate underground and groundwater and the remaining filtered water flows through the outlet pipe. It is about.

In general, sewage manholes installed in the upstream side are introduced with valley water or rainwater, not sewage, and inflow water such as natural water or surface water is introduced into the general manholes. It becomes contaminated water. When a worker comes close to the manhole for dredging and cleaning, such polluted water generates harmful gas and causes safety accidents such as explosion and suffocation. In addition, harmful larvae such as harmful flies and mosquitoes in the stagnant wastewater are generated.

Streamwater flowing into streams or valleys from stormwater sewer or consolidation conduits is usually mixed with living sewage from integrated conduits and sent to sewage treatment plants for discharge into streams. However, when domestic sewage is mixed with river water or natural water, the amount of sewage treatment increases, which increases the treatment burden for purification and dilutes the eutrophic raw water, which may cause problems in smooth water treatment.

In addition, due to the rapid discharge of natural water into the river, the ground surface or underground is dried, the ground water is gradually depleted.

In order to solve this problem, a technique for groundwater inflow is disclosed in Korean Utility Model Registration No. 20-0224158. The publication includes a cavity structure buried underground to form a cavity, as shown in FIG. 1A, comprising: at least one drain hole penetrating a plate surface to drain water introduced into the cavity to a bottom surface of the cavity; The structure of the cavity structure characterized in that the drainage delay member, such as gravel to block the drain.

In addition, Japanese Unexamined Patent Application Publication No. 5-54689 is provided with an inflow pipe for introducing rainwater into the upper sidewall of the concrete manhole as shown in FIG. 1B, and a drainage hole (outlet) for penetrating rainwater into the ground on the sidewall of the manhole. In the well-formed infiltration tank formed in large numbers, a holder having a shelf is formed inside a drainage (outflow) hole formed near the lower portion of the inflow pipe, and a filter support beam is provided between a pair of corresponding holders, Disclosed is a structure of a storm osmosis tank supporting a filter.

By the above structure, the inflow water introduced into the cavity structure or the manhole body is absorbed into the groundwater through the drainage delay member such as the filter or the gravel, so that the natural water can supplement the groundwater, but the technique disclosed in FIGS. 1A and 1B Float or earth and sand of the inflow water introduced through the inlet pipe is discharged through the drain pipe as it is clogged drainage and also contaminates the river.

In particular, when installing a drainage delay member such as gravel to block the drain hole as shown in Figure 1a, there is a problem that not only the soil flows from the inflow water, but also the soil flows from the ground to reduce the function of the drain hole.

In order to solve the above problems, an object of the present invention is to provide a structure for installing a sedimentation tank and a filtration device in a facility to ground the natural water to prevent clogging and river pollution of the drain pipe, and smooth the function to penetrate into the groundwater. There is this.

As a technical means for achieving the above object, the present invention is a manhole connected to the inlet pipe and outlet pipe, or facility pipe;

A manhole connected to the inside of the manhole; A sedimentation tank for depositing and draining soil and suspended matter between the inlet and outlet pipes; An intermediate slab installed under the deposition tank and having a plurality of through holes filled with a filtration filter; A porous block in the form of a plurality of layers in the lower portion of the intermediate slab to infiltrate the inflow water filtered by the intermediate slab into the ground; It comprises a filter mat surrounding the porous block side and the lower front surface, wherein the deposition tank further comprises a filtration panel wall for filtering the influent and a drain tank for draining the filtered influent, the filtration panel wall and It is installed between the drainage tank, a plurality of filter holes are formed on the wall surface, and the soil which failed to pass through the filter hole is deposited in the sedimentation tank, and the inflow water is grounded through the filter hole. Manhole structure.

In addition, the ground formed in the lower portion of the filter mat and the outer wall of the manhole culvert is characterized in that the drainage layer, such as soil and aggregate easily drainage is formed.

In addition, the filtration panel wall is installed at a height located between the upper portion of the inlet pipe and the upper surface of the manhole culvert so that when the flow rate is large, the panel wall is a rigid plate body of rigid structure of the steel bar and plate structure Characterized by a structure comprising a grating structure or a filter plate material.

In addition, the through hole formed in the intermediate slab is characterized in that the groove formed on the upper portion of the through hole is larger than the diameter of the through hole so as to mount the upper plate portion of the filtration filter.

In addition, the filtration filter is formed in a wider than the upper plate portion, a plurality of filter holes are formed so that the inflow water passes through the upper plate portion and the lower plate portion, and a plurality of nonwoven filter layers inside the body, characterized in that the cylindrical configuration do.

In addition, the filter mat is arranged in a parallel or negative direction so that there is no lateral or horizontal direction without going through a woven fabric process, and made of a felt shape by combining with a synthetic resin, as any raw material of cotton, biscorayon, synthetic fibers, rehabilitation fibers It is characterized in that the densely manufactured.

In addition, the porous block is a structure of the shape of a cube or a cube, characterized in that it comprises a shape in which all the surfaces penetrate into the space of the cross-shaped groove in the top and bottom, left and right.

The present invention has the effect of temporarily stocking the primary filtered infiltration water through the underground infiltration tank and drainage layer in the soil layer or groundwater, preventing the surface or underground from drying out, thereby preventing the destruction of the ecosystem and the naturalization of natural water .

In addition, the present invention also has a filter panel plate and a sedimentation tank in the manhole, thereby preventing the drainage and drainage pipes from clogging, and floating or contaminated sediment dredged in the manhole, there is also an effect to prevent river pollution.

In addition, by employing the penetrating tank of the present invention, it is possible to block the inflow of soil from the ground at the drain port, thereby improving the function of the drain port.

Hereinafter, with reference to the embodiments of the accompanying drawings to be described in detail.

2 and 3 show an embodiment of the present invention.

Surface water flowing in upstream valleys or rivers or rainwater flowing during rainfall is introduced through rainwater pipes. In the present invention, the incoming water is referred to as inflow water (B), and the middle of the sedimentation tank 11 or the drainage tank 12 is used. The water flowing along the waterway (water veins) through the slab's filtration filter and inside the porous assembly block of the infiltration tank is referred to as groundwater (A), and exceeds the ground water hydration capacity of the infiltration tank 18. Residual inflow (B) is introduced into the discharged to the outside through the drain pipe, this drained water is defined as discharge water (C).

The manhole is usually installed for dredging or maintenance in sewage facilities. The manhole structure in the present invention discharges the inflow water into the ground or drainage layers while collecting and storing the inflow water through the porous block of the infiltration tank, and rainfall or a lot of water. This inflow is made of a structure that is discharged to the drain pipe in excess of the capacity to ground water.

 Referring to Figure 2, the upper part constituting the manhole is provided with an upper slab for seating the manhole cover (4). An inflow pipe (2) through which an inflow water flows into the wall connected to the upper slab is installed, and a deposition tank (11) for depositing soil is formed in the front space of the inflow pipe, and a drainage tank (12) is formed in the drain pipe side space. do.

Between the sedimentation tank 11 and the drainage tank 12, the filtration panel wall 13 is installed in order to deposit the soil which has not passed in the sedimentation tank 11 and filter the inflow water.

The filtration panel wall 13 is installed at an appropriate height in consideration of the capacity of the manhole between the upper portion of the inlet pipe and the upper surface of the manhole culvert so that when the flow rate is large.

The sedimentation tank 11 deposits particles of a predetermined size or more contained in rainwater or natural water flowing in through the inflow pipe from the upstream and sends the filtered inflow water that has passed through the filtration panel wall 13 to the drain 12. And, to prevent the inflow of the soil such as gravel or sand granulated soil of a certain size or more into the drain 12.

The inflow water passing through the sedimentation soil of the sedimentation tank 11 and the inflow water passing through the filtration filter 15 of the intermediate slab 14 is sent to the infiltration tank 18 formed in the lower portion of the sedimentation tank 11.

In general, the filtered influent flowing through the sedimentation tank 11 or the filtration panel wall 13 in which a predetermined size of particles are deposited is passed through the filtration filter 15 of the intermediate slab 14 to the infiltration tank 18. When the inflow water exceeds the flow rate that can pass through the filtration filter 15 of the filtration panel wall 13 in the case of heavy inflow or rainfall, the water flows over the filtration panel wall 13 to the drain pipe 3. Will be discharged.

An intermediate slab 14 including a plurality of through holes (51 in FIG. 2) filled with the filtration filter 15 is formed in the lower portion of the deposition tank 11 and the drainage tank 12.

In the lower portion of the intermediate slab 14 to form a permeation tank 18 for infiltrating the filtered water introduced through the filtration filter 15 from the sedimentation tank 11 and the drainage tank 12 into the ground.

The filtration filter 15 functions to filter the inflow water and discharge it to the infiltration tank 18 so as to prevent the fine soil (small particles) such as silt or clay from entering the infiltration tank 18.

The infiltration tank 18 is a space formed by applying a plurality of layers of porous assembly blocks for temporarily storing or infiltrating the filtered water in which the inflow water is filtered. The infiltration tank 18 functions to penetrate the filtered water to the outer side or the lower ground to ground water. The porous block side and the lower front surface is made of a structure wrapped with a filter medium (17). The filter mat 17 re-filters the filtered filtrate and penetrates into the basement, and the soil is introduced into and deposited from the drainage layer or the ground into the porous block, thereby preventing the penetration function of the penetrating tank 18 from being lowered. do.

The filter mat 17 is arranged in a parallel or negative direction so as not to be oriented in the vertical direction without going through a woven fabric process, and made of a felt shape by combining with a synthetic resin, made of any one of cotton, biscorayon, synthetic fibers, and rehabilitation fibers. Preferred nonwoven mats are preferred.

4 and 5 are detailed views of the filtration filter 15.

The through hole 51 formed in the intermediate slab 14 has an upper portion of the through hole wider than the diameter of the through hole on the upper portion of the through hole 51 so as to mount the upper plate portion 52 of the filtration filter 15 thereon. A groove (54 in FIG. 5) is formed.

The filtration filter is formed so that the upper plate portion 52 is wider than the lower plate portion 53 so that the upper plate portion 52 is mounted on the upper hole 54 formed in the upper portion of the through hole.

The upper plate portion 52 and the lower plate portion 53 is formed with a plurality of filtration holes 43 so that the inflow water can pass through the inside of the body with a plurality of non-woven filter layer 44 in the configuration of the cylindrical shape 42 is sealed To make.

In another embodiment, the cylindrical shape may be manufactured in various shapes such as a cylindrical or hexagonal cylinder according to the shape of the through hole 51 and the manhole structure.

The plurality of filters in the intermediate slab 14 between the sedimentation tank 11, the drainage tank 12, and the infiltration tank 18 serve to filter the inflow water by natural water pressure difference, and thus, through the inflow pipe. The fine soil is deposited in the infiltration tank 18 to prevent the phenomenon of losing the function of the infiltration tank, and prevents the blockage of the water path penetrating underground.

6 and 7 are detailed views of the filtration panel wall 13.

The filter panel wall 13 is made of a filter plate material 62 of a porous plate or network on one side or both sides of the grating structure of the steel bar 64 and the plate 63 structure. The filter plate material 62 is formed with a plurality of filter holes 61 so as not to pass the particles of a predetermined size, the steel bar 64 and the plate 63 structure to withstand the hydraulic pressure of the inlet pipe during the earth pressure or rainfall of the deposition tank It is made of rigid structure.

8 and 9 are detailed views of the porous block 19 forming the permeation tank 18.

The porous block 19 is a structure consisting of a cube or a rectangular parallelepiped in which all surfaces are upper, left, and right of the same cross section. The porous block 19 has a structure in which the upper and lower sides are penetrated by the cross-shaped space groove 91. Preferably, the shape may also be manufactured in the shape of various cubes having holes formed to allow the filtered water to pass therethrough.

According to the installation method according to one embodiment, after excavating the ground and flattening, the filter mat 17 is laid thereon, and the porous block 16 is assembled and multi-layered. The perforated block side or lower front surface is covered with a nonwoven mat 17 except for the part contacting the intermediate slab 14, and the surrounding space is filled with sand or gravel that is well permeated to form a drainage layer, and more effective penetration tank with groundwater. Can be installed.

The structure of the sedimentation tank 11 and the drainage tank 12 is installed thereon, and the filtration filter 15 and the filtration panel wall 13 are inserted into the intermediate slab 14, the inner lower body thereof, and the inlet pipe is provided at the through hole of the wall. Connect (2) and the drain pipe (3) and the upper slab (10) covers the manhole cover (4) or grating.

One embodiment of the present invention having the structure described above is applied to the inflow location of the integrated conduit in general before the sewage flows into the stream or stream in the storm sewer or consolidation integrated conduit in the sewage pipe area. By temporarily stocking the primary filtered infiltration water through the infiltration tank and drainage layer to the soil layer or groundwater, it is possible to prevent the destruction of the ecosystem and the naturalization of natural water by preventing the ground or underground from drying out.

In addition, according to the present invention, the filter panel plate and the sedimentation tank are provided in the manhole, thereby preventing the drainage channel and the drainage pipe from being blocked, and allowing the floating or contaminated sediment to be dredged in the manhole.

Small particles passing through the filter panel wall 13 are also deposited in the sedimentary soil of the sedimentation tank 11 or the drainage tank 12 in which large particles are collected, and dredging regularly before exceeding the internal capacity of the manhole. It is desirable to maintain the function.

The manhole structure for groundwater inflow as described above can be applied to the general manhole of waterworks, communication gas, power facilities installed in the basement of the road, Figures 10 to 11 are removed from the filter panel plate and the sump in the embodiment of FIG. As a manhole structure of another embodiment, a structure in which inflow water is grounded by being installed in a general facility repair manhole such as water supply, communication, gas, and power equipment is shown.

The manhole structure for maintaining the general equipment as described above is configured to include a cavity tank 111 for draining the filtered inflow water inside the manhole culvert and a penetration tank 118 for infiltrating the inflow water into the ground below the cavity tank 111. However, the intermediate slab 114 formed between the lower portion of the cavity tank 111 and the penetration tank 118 is formed to include a plurality of through holes 151 filled with a filtration filter, and the penetration tank 118 is a porous block 116. ) Is installed in a structure that is installed by red tiling in multiple layers.

The cavity 111 refers to the interior space of the manhole structure for maintaining a general facility, it will be completed by installing the intermediate slab 114 and the penetration tank 118 of the present invention under the cavity 111. Can be.

The porous block side and the lower front surface of the porous block except for the portion in contact with the intermediate slab 114 is surrounded by the filter mat 117, and the drainage is easy around the outer wall of the ground and the manhole culvert formed under the filter mat 117. It is formed by drainage layers such as soil and aggregate.

Inside the manhole is composed of a hollow tank (11), the hollow tank is sediment introduced with the rainwater or natural water flowing from the connected pipe or road surface sediment, the filtered water passed through the filtration filter of the sediment and the intermediate slab 114 is the infiltration tank ( 118), the technical structure of the permeation tank is the same as that of the rainwater manhole described above, so a description thereof is omitted.

Rainwater or other groundwater flows into the manhole for facility repair as described above. If it is left as it is, safety accidents and odors such as harmful gas are generated due to the congestion of inflow water. Since the inflow water flows through the manhole cover or facility pipe without rainwater inflow pipe or drainage pipe like rainwater pipe, there is no need for filtration panel plate. Can be drained.

The present invention can be installed by applying to the inlet location of the integrated conduit generally before the sewage flows into the stream or valley in the storm water conduit or consolidation integrated conduit in the sewage conduit area, if a lot of rainwater Inflows not groundwatered are discharged to downstream conduits.

Manhole for general equipment is also preferred to maintain the function of the present invention by regularly dredging the interior of the cavity.

1A and 1B illustrate a conventional groundwater infiltration tank structure.

2 and 3 is a detailed view of a manhole structure which is one embodiment of the present invention.

4 and 5 is a detailed view of the filtration filter according to an embodiment of the present invention.

6 and 7 are detailed views of the filtration panel according to an embodiment of the present invention.

8 and 9 are detailed views of the porous block according to an embodiment of the present invention.

10 and 11 are detailed views of another embodiment of the present invention.

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

1 ... excellent manhole 2 ... inlet pipe

3.Drain pipe 4.Manhole cover

11 sedimentation tank 12 drainage tank

13 filtration panel wall 14, 114 intermediate slab

15, filtration filter 16, 116 ... porous block

17, 117 ... filtration mat 18, 118 ... penetration tank

41.Upper filter hole 42.Filter body

43 ... lower filtration 51, 151 through-hole

52.Filter upper plate 53 ... Filter lower plate

54.Top through hole 61 ... Filter

62.Filter 63.Plate

64 ... Steel 91 ... Cross

111 ... Co-operation

Claims (8)

A manhole to which the inlet pipe and the outlet pipe or the facility pipe are connected; A sedimentation tank for depositing and draining soil and suspended matter in the manhole; An intermediate slab installed under the deposition tank and having a plurality of through holes filled with a filtration filter; A porous block formed of a plurality of layers on the lower portion of the intermediate slab to infiltrate the inflow water filtered by the intermediate slab to the ground; And a filtering mat surrounding the porous block side and the lower front surface.  The through-hole formed in the intermediate slab is a manhole structure for groundwater inflow water, characterized in that the groove formed in the through-hole wider than the diameter of the through-hole so as to mount the upper plate portion of the filtration filter The method of claim 1, The deposition tank further includes a filtration panel wall for filtering the inflow water and a drain tank for draining the filtered inflow water, wherein the filtration panel wall is installed between the deposition tank and the drain tank, and forms a plurality of filter holes in the wall surface. The manhole structure for groundwater inflow water, characterized in that the sediment that did not pass through the filter hole in the sedimentation tank, and the influent water is filtered through the filter hole. The method according to claim 1 or 2, Manhole structure for groundwater inflow water, characterized in that formed around the outer wall of the ground and the manhole culvert is formed in the bottom of the filter mat, drainage layer, such as soil and aggregate easy to drain. The method of claim 2, The filtration panel wall is installed at a height located between the top of the inlet pipe and the upper surface of the manhole culvert so that when the flow rate is large, the filtration panel wall is a porous plate body made of a steel bar and a grating structure of the plate structure or A manhole structure for groundwater inflow water characterized by a structure comprising a filter plate member of the network. delete The method according to claim 1 or 2, The filtration filter is to form a wider than the upper plate portion, the upper plate portion and the lower plate portion to form a plurality of filtration holes to pass through the inlet and the body includes a plurality of non-woven filter layer in the body of the tubular configuration sealed Manhole structure to groundwater influent characterized by. The method according to claim 1 or 2, The filtration mat is arranged in parallel or inverted directions so as to have no lateral or horizontal direction without going through a woven fabric process, and is made in a felt shape by combining with a synthetic resin, and made densely from any one of cotton, biscoray, synthetic fiber, and rehabilitation fiber. Manhole structure to groundwater influent, characterized in that  The method according to claim 1 or 2, The porous block is a structure in the shape of a cube or a cuboid, the manhole structure for groundwater inflowing water, characterized in that all the surfaces up and down, left and right through the space of the cross-shaped space groove shape

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