KR20090040746A - Multi-layered manhole and construction method thereof - Google Patents

Abstract

A double-layered manhole is provided to flow in and flow out rainwater and waste water at the same time by installing a rainwater pipe in upper layer and a sewer pipe in lower layer. A multi-layered manhole comprises: a manhole main body(100) whose inner part is divided to upper layer and lower layer; a rainwater pipe(121, 122) connected to the upper part of the manhole main body; and a sewer pipe(131, 132) connected to the lower part; and a rainwater pipe invert and a sewer pipe invert in which the rainwater and waste water flows inside the manhole main body, respectively. The rainwater, in which is flowed through rainwater pipe, passes through the upper layer and the waste water, in which is flowed through sewer pipe, passes through the lower layer. The rainwater pipe invert is settled onto a upper part of a rainwater pipe invert bracket which is fixed to left and right wall of the manhole main body to the longitudinal direction and divided to the upper layer and lower layer of the manhole main body.

Description

Multi-layered manhole and construction method

1 is a perspective view of a multilayer manhole according to an embodiment of the present invention.

Figure 2 is a cross-sectional view taken along the line AA 'of Figure 1;

FIG. 3 is a sectional view taken along the line A ″ -A ″ of FIG. 2;

4 is a cross-sectional view taken along the line BB ′ of FIG. 1.

Explanation of symbols on the main parts of the drawings

100: manhole body 110: upper cover

111: manhole cover 112: excellent ball

120, 130: pipe connection 121, 122: excellent pipe

131, 132: sewage pipe 140: upper floor

150: lower layer 200: storm pipe invert

210: invert bracket 220: check hole

300: sewage pipe invert 500: urethane foam

In general, the sewage system is divided into a classification formula to exclude rainwater and sewage into separate pipes and a confluence of exclusion into one pipe according to the sewage system.

However, in the case of the confluence, rainwater flows into the sewage treatment plant along with the sewage, thereby increasing the sewage treatment capacity and causing a shortage of maintenance water in the river, thereby causing the destruction of the ecosystem.

As a result, in recent years, there has been a lot of work to change the existing confluence into a classification according to the spread of the sewerage system, and as the development of the city is overcrowded, underground areas such as water and sewage, power communication, etc. The burial is booming, and in particular, it is almost impossible to classify the confluence of sewers in areas where there is a lot of underground burial.

That is, the sewage pipe is installed in parallel with the rainwater pipe, the manhole is installed to join the pipe in the curved pipe portion, if the rainwater manhole and sewage manhole are installed at the same time, a lot of area is required.

Therefore, the classification work that is currently being carried out in some cities in Korea also has to be joined in some urban areas.

The present invention is to solve the problems as described above, the embodiment of the present invention in the manhole provided with a manhole cover, partitioned into an upper layer and a lower layer by a rain pipe inverted to be detachably installed inside, the rain pipe in the upper layer This connection is connected to the lower layer, and the sewage pipe is connected, and it relates to a double-layer manhole and its construction method characterized by allowing rainwater and sewage to flow in and out at the same time.

In order to achieve the above object, a preferred embodiment of the present invention is a manhole provided with a manhole cover, wherein the manhole is partitioned into an upper layer and a lower layer by rainwater pipe inverts installed to be detachable therein, and the rainwater pipe is connected to the upper layer. The lower layer is connected to the sewage pipe, to provide a double-layer manhole characterized in that rain and sewage can be introduced and discharged at the same time.

According to one preferred embodiment of the present invention, the rainwater pipe inverting bracket is provided in the longitudinal direction on the inner wall of the manhole, the rainwater pipe inverting is seated on the upper side of the rainwater pipe inverting bracket, the sewer pipe inverting is provided on the lower layer of the manhole It is characterized by.

According to a preferred embodiment of the present invention, the storm drain invert is characterized by consisting of at least one unit inverted to be separated from each other.

According to one preferred embodiment of the present invention, the storm pipe invert is characterized in that the synthetic resin material.

According to a preferred embodiment of the present invention, the waterproof urethane foam is filled between the inner wall of the manhole and the rain pipe invert.

According to a preferred embodiment of the present invention, at least one through hole is formed in the rain pipe inverter bracket, and each of the through holes is coupled to a check hole having a hollow, so that the state of the sewage pipe invert can be observed. It is done.

According to a preferred embodiment of the present invention, the inspection port is a cylindrical pipe having a hollow, one end is protruded to the upper side of the storm pipe invert, the other end is characterized in that protrudes to the lower side of the rain pipe inverted bracket.

On the other hand, another preferred embodiment of the present invention is the process of forming a manhole body and the upper cover by pouring concrete, and the process of installing a sewage pipe inverter on the inner bottom surface of the manhole body in the state that the upper cover is separated; Fixing the rain pipe inverted bracket to the inner wall of the manhole body, installing the rain pipe inverted on the rain pipe inverted bracket, inserting and fixing a check hole in the through hole provided in the rain pipe inverted bracket, and the rain pipe inverted. And filling the urethane foam between the inner wall of the manhole body, and embedding the manhole body in the basement and connecting the rainwater pipe and sewage pipe, respectively, and covering the upper cover.

Hereinafter, the present invention will be described in detail with reference to preferred embodiments of the accompanying drawings. 1 is a perspective view of a multilayer manhole according to an exemplary embodiment of the present invention, FIG. 2 is a sectional view taken along the line AA ′ of FIG. 1, FIG. 3 is a sectional view taken along the line “A” -A ”of FIG. 2, and FIG. 4 is a B-B of FIG. 1. 'Direction cross section.

In general, the sewer depth of sewage pipes is deeper, relatively smaller, and always has sewage flow in sewage pipes, whereas rainwater pipes are relatively larger than sewage pipes. There is no flow like

1 to 3 in view of such a feature, the rain pipes 121 and 122 are connected to the upper portion of the manhole body 100 and the sewage pipes 131 and 132 are connected to the lower portion of the manhole body 100. The rainwater is divided into an upper layer and a lower layer, the rainwater introduced through the rain pipe 121 passes through the upper layer 140, and the sewage flowing through the sewage pipe 131 passes through the lower layer 150.

That is, the rainwater and the sewage which flow in at the same time by one manhole divided into two layers do not mix with each other, but flow in and out separately.

Here, the manhole body 100 is in the form of a hexahedron such as a commonly used manhole, as shown in Figure 1, the upper cover 110 is detachable and a number of rain holes (one side of the upper cover 110) Manhole cover 111 is formed is formed 112, the front and rear pipe connection holes (120, 130) are formed in a pair of upper and lower, the upper pipe connection hole 120 is connected to the rain pipe (121, 122), the lower side Sewage pipes (131, 132) are connected to the pipe connection hole 130, respectively.

As shown in Figures 2 to 4, the manhole body 100 is installed inside the rainwater pipe invert 200 and the sewage pipe invert 300 through which wastewater flows.

Here, the rainwater pipe inverted bracket 210 having a rectangular cross section is fixed to the left and right side walls of the manhole body 100, and the rainwater pipe inverted 200 is seated on the upper side of the rainwater pipe inverted bracket 210. ) Will be divided into upper and lower layers.

At this time, the rainwater pipe invert 200 should be light in weight so that it can be easily removable when checking the sewage pipe invert 300 is installed on the lower, the operator opens the manhole cover 111, the ladder fixed to the inside of the manhole Since it comes down to the excellent pipe invert 200 using the 400, it is necessary to use a material having a strength strong enough to withstand the weight of the worker, preferably using a material of synthetic resin such as FRP (Fiberglass Reinforced Plastics) do.

In addition, it is preferable that at least one unit invert (200a, 200b) is configured to be detachably coupled to each other so that this storm pipe invert 200 is easy to install, repair, and maintain.

That is, as shown in the embodiment shown in FIG. 4, the unit inverts 200a on both sides are supported by the storm pipe invert bracket, and the unit inverts 200b in the center are seated on the steps provided in the unit inverts 200a on both sides. Three unit inverts (200a, 200b) in the width direction is combined to form an excellent pipe invert 200, this is because the installation is divided into three unit inverts (200a, 200b) inside the manhole body 100 Convenient to install, even in the case of maintenance and maintenance can replace only the damaged part, it is also easy to remove from the manhole body 100 to the outside.

At this time, the number of unit inverts, the coupling form and coupling method between each other can be variously selected according to the conditions of the construction site.

In addition, since the width of the rain pipe 200 is shorter than the inner width of the manhole body 100, a gap is formed between both side surfaces of the rain pipe 200 and the left and right walls of the manhole body 100. While preventing the outflow to the lower layer 150, the urethane foam 500 is preferably filled between the left and right side walls of the rain pipe 200 and the manhole body 100 so that the rain pipe 200 does not flow. .

On the other hand, the sewage pipe invert 300 is installed on the inner bottom surface of the manhole body 100. The sewage pipe invert 300 is formed of concrete and finished with mortar 310, and is installed to prevent sediment from being deposited inside the manhole.

In order to check the degree of accumulation of contaminants and sediment on the sewage pipe invert 300 in the state that the rain pipe inverter 200 is not separated, install the inspection port 220 in the corner of the rain pipe inverter bracket 210, Figure 3 It is preferable to install one each in the diagonal direction as shown in.

This inspection port 220 is a pipe having a hollow, one end (upper) is a predetermined height to the top of the rain pipe invert 200 so that the rainwater of the rain pipe 200 is not discharged to the lower layer 150 through the inspection hole 220. The other end (lower end) passes through the urethane foam 500 and rain pipe inverted bracket 210, and protrudes into the space of the lower layer 150 inside the manhole divided into upper and lower layers.

Therefore, a user who wants to check the state of the sewage pipe invert 300 can observe the naked eye through the hollow of the check opening 220, without having to remove the rain pipe 200, if necessary, put an endoscope camera, etc. You can also observe.

Installation of the multilayer manhole according to an embodiment of the present invention proceeds as follows.

After pouring concrete to form the manhole body 100 and the upper cover 110, the sewage pipe invert 300 is first installed on the inner bottom surface of the manhole body 100 in a state where the upper cover 110 is separated, After the rain pipe inverting bracket 210 is fixed to the inner wall, the rain pipe inverting 200 is seated thereon.

Subsequently, the inspection hole 220 is inserted into and fixed to the through-holes provided in diagonal directions one by one in the storm pipe invert bracket 210, and the urethane foam 500 is spaced between the storm pipe invert 200 and the inner wall of the manhole body 100. Filling the waterproof and at the same time to prevent the storm pipe invert 200 and the check hole 220 flows.

Subsequently, the manhole main body 100 is put down at the excavated point to install the manhole, and the drain pipes 131 and 132 are inserted into the upper pipe holes 120 and the sewer pipes 131 and 132 into the lower pipe holes 130, respectively. , The installation is completed by connecting and closing the top cover (110).

According to one embodiment of the present invention, the sewage flowing into the manhole through the sewage pipe 131 on one side is usually leaked back to the sewage pipe 132 on the other side through the sewage pipe invert 300, and in the case of rain With the outflow, the rainwater flowing through the rain hole 112 and the rain pipe 121 on one side of the manhole cover 111 is discharged back to the rain water pipe 122 on the other side through the rain pipe invert 200.

When checking the sedimentation degree of contaminants and earth and sand to the sewage pipe invert 300, the user opens the manhole cover 111 and descends to the storm pipe invert 200 using the ladder 400, the naked eye or through the inspection port 220 Using a tool such as an endoscope camera to check the state of the sewage pipe invert 300, or by opening the top cover 110 to completely separate the storm pipe invert 200 from the manhole body 100 and check.

It is apparent to those skilled in the art that the present invention is not limited to the described embodiments, and that various modifications and variations can be made without departing from the spirit and scope of the present invention. Therefore, such modifications or variations will have to be belong to the claims of the present invention.

According to an embodiment of the present invention, by placing the rainwater pipe inverter and the sewage pipe inverter in multiple layers inside one manhole body in an area where there is a lot of underground burial, it is possible to simultaneously process rainwater and sewage using the underground space, and conduit It also has the effect of reducing the cost of equipment.

In addition, rain pipe inverter is installed to be removable, it is easy to maintain and manage the sewage pipe invert.

Claims (8)

In the manhole with a manhole cover, The manhole is partitioned into an upper layer and a lower layer by rainwater pipe inverts installed to be detachable therein. The rainwater pipe is connected to the upper floor, and the sewage pipe is connected to the lower floor. Duplex manhole. The method according to claim 1, Double wall manholes are provided on the inner wall of the manhole in the longitudinal direction, the rainwater pipe invert is seated on the upper side of the rain pipe inverter bracket, the sewer pipe invert is provided on the lower layer of the manhole. The storm drain invert according to claim 1 or 2, A multi-layer manhole comprising at least one unit inverted to be separated from each other. The method according to claim 1 or 2, The storm pipe invert is a multilayer manhole, characterized in that the synthetic material. The method according to claim 1 or 2, The multilayer manhole is filled with a waterproof urethane foam between the inner wall of the manhole and the rain pipe invert. The method according to claim 2, At least one through hole is formed in the rain pipe inverter bracket, and each of the through holes is a multi-layered manhole, characterized in that the inspection opening having a hollow is inserted to observe the state of the sewage pipe invert. The method according to claim 6, One end of the inspection port is protruded to the upper side of the storm pipe invert, the other end protrudes to the lower side of the storm pipe inverted bracket. Pouring concrete to form a manhole body and an upper cover, respectively; Installing a sewage pipe inverter on an inner bottom surface of the manhole body in a state where the upper cover is separated; Fixing the storm pipe invert bracket to the inner wall of the manhole body; Installing an storm pipe invert on the storm pipe invert bracket; Inserting and fixing a check hole into the through hole provided in the excellent pipe invert bracket; Filling a urethane foam between the rain pipe and the inner wall of the manhole body; And And embedding the manhole body in the basement and connecting the rain pipe and the sewage pipe, respectively, to cover the upper cover.

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