KR100728309B1 - Manhole structure and it's manufacturing mould - Google Patents

Abstract

A manhole structure integrated with a pipe connector and a manufacturing device of the manhole structure are provided to promote convenience at construction and to reduce the danger of breakage of a pipe connector by integrating a connector with a main body, and to regulate direction easily after connecting sewer pipes at construction. Disclosed is a manhole structure integrated with a pipe connector, which is formed by fixing a pipe connector(200) to one or more inlet/outlet holes(110) for making sewage flow in and out formed on the lower part of a cylindrical main body(100), wherein the pipe connector includes a support flange(210) extended outward and buried/fixed under the wall of the inlet/outlet hole and a connection(220) fixed with a sewer pipe and provided with many friction projections to pressurize the sewer pipe not to fall out easily. The manufacturing device of the manhole structure comprises an inner mold setting the inner shape of the main body, and outer mold setting the outer shape of the main body, a support body fixed to the outer mold and fitted with the pipe connector to decide the location of the pipe connector and a peaked cap body fixed to the front of the pipe connector to set the shape of the inlet/outlet hole of the main body.

Description

Manhole structure integrated with pipe connection and its manufacturing apparatus {MANHOLE STRUCTURE AND IT'S MANUFACTURING MOULD}

1 is a partially cutaway perspective view of a manhole structure according to the present invention;

2 is a partially cutaway perspective view of the pipe connector according to the present invention,

Figure 3 is a cross-sectional view of the use state showing the action of the pipe connector applied to the present invention,

4 is an essential part configuration diagram showing an exploded configuration of the manhole structure manufacturing apparatus according to the present invention;

Figure 5 is an excerpt of the main component parts for integrally forming the pipe connector in the manhole structure in the manhole structure manufacturing apparatus according to the present invention,

Figure 6 is a perspective view of the assembled state of the manhole structure manufacturing apparatus according to the present invention,

7 is a perspective view showing a state in which the manhole structure manufacturing apparatus according to the present invention is demolded from the manhole structure,

Figure 8 is an exemplary view showing a cross-sectional view of the manhole structure manufacturing apparatus and the manhole structure according to the present invention,

9 is a cross-sectional view showing a state in which a manhole is formed by assembling a manhole structure according to the present invention in cross section.

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

100: main body, 110: entrance and exit,

200: pipe connection, 210: support flange,

212: metal ring, 214: protrusion,

220: connection portion, 222: friction projection,

300: inner mold, 400: outer mold,

500: support, 510: bolt rod,

520: concave surface, 600: solid body,

610: combined flange, 700: band.

The present invention relates to a pipe connector integrated manhole structure and a manufacturing apparatus thereof, and more particularly, to a pipe connector integrated manhole structure integrally formed with a pipe connector for connecting the pipe to move the collected rainwater or sewage to the treatment plant. And a manufacturing apparatus thereof.

Manhole structures are formed at regular intervals on the path where the sewer pipe is installed. The manhole structure is installed so that sewage and rainwater introduced from the outside can be collected and moved to the treatment plant through the sewer pipe, and the sewer pipe can be inspected and disinfected.

The sewage pipe connected to the manhole is connected through the connector fixed to the main body so that the sewage can flow. As it is buried in the ground, it is prevented from being deformed and blocked by the pressure of the soil, so that it can be prevented from being blocked. It is usually made of a solid material.

In addition, the connector for connecting and fixing the sewer pipe to the main body is fixed by means of fastening means such as bolts in front of the entrance and exit hole formed of a hard material such as synthetic resin or metal, such that the fluid can flow out of the main body, like the sewer pipe, It was common to fix the connector prepared separately in the main body prepared in advance with bolts before construction.

On the other hand, the configuration of the main body and the connector as described above has been found to have a number of problems during the construction process. First, as the connector is fastened by fixing means such as bolts, it is often impossible to maintain a firm fixation state. Therefore, sewage leaks frequently because the fixation state is damaged by the pressure of soil after being buried. The furnace is to dig the ground to form the main body and the sewer pipe buried, and then arrange the main body fixed to the connector, and then connect the sewer pipe to the connector, because the digging work is not made precisely in general Therefore, in order to connect the sewer pipe to the connector is that it is difficult to combine in the first place.

In other words, if the joining work is proceeded without first determining the exact location, it was inconvenient to dig additional ground because the exact joining was impossible. In addition, the sewer pipes were often required to adjust the direction depending on the environment in which they were installed, but the connector made of hard material was impossible to bend, so that once the direction was determined, the sewer pipes could only be connected in the determined direction. Therefore, in order to adjust the direction of the sewer pipe, the situation was required to turn the main body itself.

The configuration of the connector as described above caused an increase in the working time due to the task of assembling the connector separately in the body during the construction of the manhole and sewer pipe, and also difficult to modify the direction of the sewer pipe, the connection between the body and the sewer pipe and Problems that delay the construction work of sewage pipes are occurring, the need to improve this situation is increasing day by day.

The present invention has been designed to solve the above problems, by forming a connection to the main body to be connected to the main body integrally formed with the body fixed damage is damaged or the discharge of sewage and at the same time, flexible The purpose is to obtain a pipe connector integrated manhole structure and its manufacturing apparatus, which is made of a material and easily connected to the sewer after the connection thereof.

In the present invention to achieve the above object in the main body having a hollow cylinder shape but at least one entrance and exit hole,

Consisting of a tubular body having a connection portion to which the sewer pipe is fitted and fixed, a pipe connector of a flexible material having a support flange extended outward is provided at one end of the body, and the support flange is connected to the wall of the entrance and exit hole. The present invention proposes a one-piece manhole structure with a pipe connector, which is embedded in one piece.

In addition, in order to manufacture the tube connector integrated manhole structure as described above,

An inner mold for determining an inner shape of the main body;

An outer mold that determines the outer shape of the body;

A support fixed to the outer mold to determine the position of the tube connector;

It proposes a pipe connector-integrated manhole structure manufacturing apparatus characterized in that consisting of; a solid body fixed to the front of the pipe connector to determine the shape of the entrance and exit of the main body.

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

First, the configuration of the manhole structure according to the present invention will be described with reference to FIGS. 1 to 3.

1 is a partially cutaway perspective view of a manhole structure according to the present invention, Figure 2 is a partially cutaway perspective view of the pipe connector according to the present invention.

As shown, the entrance and exit hole 110 for inflow and outflow of sewage is formed below the main body 100 of the cylindrical shape, and the pipe connector 200 according to the present invention is fixed to the entrance and exit hole 110. . The entrance and exit hole 110 may be formed at least one, two in the normal body 100 is formed to be in charge of the inflow and outflow of the sewage, respectively.

The pipe connector 200 is composed of a tubular body having a connecting portion 220 to which the sewage pipe is inserted and fixed, and a support flange 210 extended outwardly at one end of the body to form the entrance and exit hole ( The support flange 210 is fixed to the wall surface of the 110 by being embedded. The material is made of flexible materials such as rubber, PE, PVC and other synthetic resins, and has elasticity.

Meanwhile, a plurality of friction protrusions 222 may be selectively formed on the inner wall surface of the connection part 220 so as not to be easily released by applying pressure to the sewer pipe fitted thereto. In addition, the support flange 210 may be embedded with a metal ring 212 in the form of a plate, in order to reinforce the strength to withstand greater force when embedded in the wall of the entrance and exit hole 110. In addition, the locking projection 214 may be formed on at least one surface of the upper or lower surface of the support flange 210 of the pipe connector 200. This is a configuration for the support flange 210 embedded in the wall surface of the entrance and exit hole 110 to withstand the force pulled by obtaining a greater support force by the locking projection 214.

Unexplained reference numeral 700 of the drawing shows a band that is fastened to the outside of the connection portion 220 of the pipe connector 200, the sewer pipe is fitted to tighten the sewer pipe.

Figure 3 is a cross-sectional view of the use state showing the action of the pipe connector applied in the present invention.

Referring to the drawings, it can be seen that the sewage pipe is fixed and flows in the pipe connector 200 fixed to the inlet and outlet 110 of the main body 100. The sewage pipe is fixed to the pipe connector 200 is inserted from the outside of the main body 100, the direction of the sewer pipe is to be able to be adjusted fluidly by the pipe connector 200 formed of a flexible material.

Hereinafter, an apparatus for manufacturing a manhole structure according to the present invention as described above will be described with reference to FIGS. 4 to 7.

4 is an essential part configuration diagram showing an exploded configuration of the manhole structure manufacturing apparatus according to the present invention, Figure 5 is an extract of the main components of the manhole structure manufacturing apparatus according to the present invention integrally forming a pipe connector in the manhole structure. . Hereinafter, the left side of the figure will be described in front and the right side in the rear.

As shown, the apparatus for manufacturing a manhole structure according to the present invention forms an inner mold 300 for determining the inner shape of the main body 100 and an outer mold for determining the outer shape of the main body 100 by forming a pair with the inner mold 300. The mold 400 has a basic configuration.

Each of the inner mold 300 and the outer mold 400 may be divided into two parts to form a pair, and a plurality of components between the inner mold 300 and the outer mold 400 may be configured to form the entrance and exit holes 110 of the main body 100 described above. Bars are fixed to the outer mold 400, the pipe connector 200 is inserted into the support 500 and the front of the pipe connector 200 to determine the position is fixed to the main body 100 It is a solid body 600 to determine the shape of the entrance and exit 110.

The support 500 has a thin front shape and becomes thicker toward the rear, and the pipe connector 200 is fitted to be caught in the middle, and the bolt rod 510 protrudes forward to protrude the bolt rod 510 from the outside. The concave surface 520 is fixed to penetrate the mold 400 and contact the inner mold 300 in the rear. Herein, the concave surface 520 is provided to form a cylindrical manhole structure, and when the manhole structure formed of a polygonal shape including a rectangle is formed, the contact surface may be excluded as a plane, and the support 200 Longitudinal cross-sectional shape of the body is a configuration that can be selectively adopted, such as the pipe connector 200 is fitted to the support 500 to be fixed in various shapes such as a circle or a square.

The solid body 600 has an inlet extending forward and a coupling flange 610 is formed to be coupled to the support flange 210 formed in the connector 200 at the rear. The coupling flange 610 is formed inside the body, it is coupled to the support flange 210 by using a bolt. On the other hand, the solid body 600 is fixed to the support flange 210 and the opposite side is supported in contact with the outer mold 400, in this characteristic, as described above, it may be just inserted as it is not fixed with a bolt Configuration. In addition, when the shape of the outer mold 400 is a cylindrical shape, the shape of the inlet side may be formed in an arc shape, and in the case of a polygonal shape such as a quadrangle, the outer mold 400 may be formed in a plane shape. This will be the same as determining the rear shape of the support 500 discussed above.

If you look at the order of assembly,

First, the pipe connector 200 is inserted into the support 500, and then the coupling flange 610 of the solid body 600 is bolted to the support flange 210 of the pipe connector 200, and then bolted to the outer mold 400. After penetrating the bolt rod 510 formed on the base 500 is fastened by fixing the nut.

Thereafter, when the inner mold 300 is assembled and prepared, when the outer mold 400 is assembled to the outside of the inner mold 300, the assembly of the manhole structure manufacturing apparatus according to the present invention is completed. It is possible to adjust the strength of the manhole structure produced by appropriately disposing the reinforcing bar between the inner mold 300 and the outer mold 400.

On the other hand, the assembly as described above is possible because the outer mold 400 is divided in half is much different from the conventional.

Figure 6 is a perspective view of the assembly state of the manhole structure manufacturing apparatus according to the present invention, Figure 7 is a perspective view showing a state in which the manhole structure manufacturing apparatus according to the present invention from the manhole structure.

As shown, when the assembly for the manhole structure manufacturing apparatus is completed, the concrete is poured. By using a well-known vibration device can be placed evenly without gaps. After the curing process for a certain period of time after pouring the outer mold 400 and the inner mold 300 is separated and then the support body 500 and the solid body 600 are separated in order to form a pipe connector 200 integrally You get a manhole structure. As the coupling flange 610 formed on the solid body 600 is formed inside the body, the bolt can be easily separated by releasing the bolt.

Figure 8 is an exemplary view showing a cross-sectional view of the manhole structure manufacturing apparatus and the manhole structure according to the present invention. The configuration of the manhole structure and the manufacturing apparatus described above can be confirmed at a glance.

On the left side of the drawing, it can be seen that the pipe connector 200 according to the present invention is fixed to the entrance and exit hole 110 formed in the main body 100. The support flange 210 is embedded and fixed, and is more firmly fixed by the locking protrusion 214 protruding from the support flange 210.

On the right side of the figure can see a cross-sectional configuration of the manhole structure manufacturing apparatus according to the present invention assembled to form the main body 100. Space is formed by the inner mold 300 and the outer mold 400 is configured to be able to pour concrete. In addition, the support member 500 into which the pipe connector 200 is inserted is fixed by the bolt rod 510 penetrating the outer mold 400, and the solid body 600 is a portion in which the coupling flange 610 is formed. It is fixed to the support flange 210 of the connector 200 and the opposite side is to be supported against the wall of the outer mold (400). Through the support structure as described above it will be able to hold the position and fixed even if the concrete is poured.

9 is a cross-sectional view showing a state in which a manhole is formed by assembling the manhole structure according to the present invention.

As shown in the drawing, when the tubular connector 200 is assembled to the vertical slab and the upper slab, which are separately provided on the top of the main body 100 formed integrally, in order to be assembled, the manhole can be easily and easily formed.

As described above, by constructing a manhole structure in which a pipe connector made of a flexible material is integrally formed, the inconvenience of having to assemble the pipe connector separately is eliminated, and the risk of damage due to weakening of the tube connector is eliminated. In addition, it is possible to easily adjust the direction after connecting the sewer pipe due to the nature of the flexible material can be easily adjusted when the direction control is required during construction.

Claims (10)

In the main body 100 has a hollow cylindrical shape but at least one entrance and exit hole 110, While the sewage pipe is inserted into the tubular body having a connecting portion 220 is fixed to the other end of the body is provided with a flexible pipe connecting member 200 having a support flange 210 extended outward, The support flange 210 is embedded in the wall surface of the entrance and exit hole 110, the pipe connector integrated manhole structure, characterized in that formed integrally. The method of claim 1, The pipe connector 200, Pipe connector integrated manhole structure characterized in that a plurality of rows of friction projections (222) formed along the inner wall surface of the connection portion (220). The method of claim 1, The pipe connector 200, Tube connector integral manhole structure, characterized in that the strength is reinforced by embedding a metal ring 212 in the form of a plate on the support flange (210). The method according to claim 1 or 3, The pipe connector 200, Pipe connector integral manhole structure characterized in that the locking projection (214) is further provided on at least one of the upper surface or the lower surface of the support flange 210 is embedded in the wall of the entrance and exit hole 110 so as not to be separated. An inner mold 300 for determining an inner shape of the main body 100; An outer mold 400 determining an outer shape of the main body 100; A support (500) fixed to the outer mold (400) to determine a position of the pipe connector (200); It is fixed to the front of the pipe connector 200 is a solid body 600 to determine the shape of the entrance and exit 110 of the main body 100; pipe connector integrated manhole structure manufacturing apparatus characterized in that consisting of. The method of claim 5, The support 500, It has a body that becomes thicker as it reaches from the front to the rear, the pipe connector integrally characterized in that the bolt rod 510 protrudes forward so that the bolt rod 510 is fixed to penetrate through the outer mold 400 Manhole structure manufacturing apparatus. The method of claim 6, Apparatus integrated manhole structure manufacturing apparatus, characterized in that the concave surface (520) in contact with the inner mold 300 is formed in the rear end of the support (500). The method of claim 5, The pipe connector 200 is composed of a tubular body having a connecting portion 220 to which the sewage pipe is inserted and fixed to the support 500, and a support flange 210 extending outward at the rear end of the body is formed. Pipe connector integrated manhole structure manufacturing apparatus, characterized in that configured to be embedded in the wall surface of the entrance and exit hole 110 formed in the main body (100). The method of claim 5, The solid body 600, Pipe connector integral manhole structure manufacturing apparatus, characterized in that the coupling flange 610 is coupled to the support flange 210 formed in the connector 200 at the rear having an inlet extending forward. The method of claim 9, The coupling flange 610 is, Pipe connector integrated manhole structure manufacturing apparatus, characterized in that formed in the body.

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