KR101304987B1 - Assembly type precast manhole - Google Patents

Abstract

PURPOSE: A precast manhole integrated with a socket and a connector is provided to improve the waterproofness of a connection hole, to reduce costs for the manufacturing and maintenance of a mold, and to facilitate the angle adjustment of a socket part. CONSTITUTION: A precast manhole integrated with a socket and a connector comprises a manhole body (100) and a branch pipe connection unit (200). The manhole body is formed with a plurality of connection holes. The branch pipe connection unit includes a connector part (210) and a socket part (220). The connector part is integrated with the manhole body inside the connection hole of the manhole body. The socket part is integrated with one end of the connector part to be connected to the branch pipe. The socket part is made of soft materials, is inserted into the connector part in the production of the manhole body, and is exposed to the outside of the manhole body to be connected to the branch pipe after the production of the manhole body.

Description

Assembly type precast manhole with socket and connector

The present invention relates to an assembled PC manhole integrated with a socket and a connector, and to produce a branch connection means in which a socket and a connector are integrated so as to be integrated in the production of a manhole body, and to form a connection hole in a manhole body without processing a mold. And a connector integrated type PC manhole.

In general, the manhole is formed in a circular or rectangular shape for maintenance of water, sewage, telecommunication facilities, and drainage of rainwater, which are buried underground, such as a road or sidewalk. It is installed to communicate with the outside of the facility, and it is installed in the place where the thickness or direction of the pipe changes, the starting point or the intersection point, and the middle of the long straight part.

Such a manhole is manufactured in the manhole body 100 so that the connection hole is formed when manufacturing the manhole as shown in Figure 1, inserting the branch pipe 10 in the connection hole of the manhole body 100 and pour mortar around the inserted branch pipe This prevents water leakage into the gap between the connecting hole and the branch pipe.

However, the connection method as described above has a problem that a crack occurs in the mortar even in the slight ground change, and leaks of sewage and wastewater are generated through this crack.

In order to solve this problem, the packing is installed on the outside of the paper pipe as in Patent Registration No. 10-0764873 and presses the packing with a fixed plate to connect the paper pipe more easily. There is a problem that a gap with the branch pipe is generated and leaks of sewage, sewage, and wastewater are generated by the gap, and the packing is corroded by using it for a long time, so that the leak cannot be performed as a packing.

Meanwhile, in order to solve the problem, as shown in FIG. 2, when the manhole is manufactured, the connector unit 210 is installed in the manhole body 100, and the socket unit 220 is connected to the connector unit 210. The branch pipe 10 was connected.

However, when the ground subsidence occurs, a structure such as that of FIG. 2 may generate a gap between the connector portion 210 and the socket portion 220 and between the socket portion 220 and the branch pipe 10, and may be separated and leaked. Problems may arise.

On the other hand, in order to maximize the watertight effect of the manhole body and the branch pipe, the connector part should be produced to be integrated with the connection hole of the manhole body, and the connector part and the socket part should be configured to be integrated.

However, when the connector portion and the socket portion are integrated as described above, the socket portion protrudes outward of the manhole body, and thus there is a problem in that a mold must be drilled for each machining position of the connection hole in the process of manufacturing the manhole body.

That is, as shown in Figure 3, the manufacturing process of the manhole, first assembling the reinforcing bar in the form of a manhole to form a reinforcing bar assembly 110, inside and outside the angled mold 300 and the inside of the reinforcing bar assembly 110 After the mold 310 was installed, the concrete was poured and cured, and then a manhole was manufactured by demolding the inner mold 300 and the outer mold 310.

In the process of manufacturing the manhole as described above, when installing the connector portion 210 and the socket portion 220 integrated to secure the connection hole, the connector portion 210 is embedded in the concrete of the manhole body 100 to secure the connection hole. It is installed and the socket 220 is protruded out of the manhole body 100. At this time, the outer mold 310 should be formed in the hole hole 311 as much as the diameter of the socket 220 to provide a space in which the socket 220 is protruding. In order to form a punched hole 311, the cut pieces are again welded and then attached.

In more detail, according to the design, the position or the number of the connection holes formed in the manhole is frequently changed. When the number or the position of the connection holes is changed in this way, the drilling holes 311 previously formed in the external mold 310 are provided. There is a problem in that it is necessary to form a separate punching hole 311 again in the outer mold 310 to fit the newly formed connection hole and re-filled by welding.

By forming a plurality of perforation holes 311 in the outer mold 310 or by repeatedly welding and attaching the cut pieces to the perforated holes 311, the outer mold 310 is deformed or the durability is lowered, thereby increasing the cost. There is a problem in that the cost is increased because the mold must be replaced frequently.

In addition, the manhole manufacturing process is cumbersome and the productivity decreases because the process of forming the perforation hole 311 or the filling of the perforation hole 311 must be repeated according to the position or the number of the connection holes formed in the manhole. There is a problem.

Patent Registration 10-0744173 Patent Registration 10-0764873 Patent Publication 10-2006-0111427

An object of the present invention for solving the above problems is to produce a connector and the socket connecting means integrated with the socket part to be integrated into the manhole body, the socket portion produced by manufacturing a reinforced foam rubber of soft material connecting hole when manufacturing the manhole Produces the manhole body with the socket part folded into the connector part installed in the connector part, and then exposes the socket part to the outside of the connector part so that the branch pipe can be connected, thereby improving watertightness and reducing mold manufacturing and maintenance costs. To provide a string, and to easily adjust the angle of the socket portion to provide a socket and connector integrated prefabricated PC manhole.

The present invention to achieve the object as described above and to perform the problem for removing the conventional drawbacks, the manhole body is formed a plurality of connecting holes; The connector part is integrally installed with the manhole body in the connection hole of the manhole body, and is formed integrally with the connector part at one end of the connector part to be connected to the branch pipe, and is made of soft material. It is inserted into the connector in the interior of the manhole body after the production of the manhole body is exposed to the outside of the branch pipe connecting means consisting of a socket portion to enable the connection of the branch pipe; characterized in that it comprises a.

In addition, the connector unit, the connector body is installed to be in close contact with the inner surface of the connection hole; And a plurality of flanges formed along the circumference of the connector body and embedded in the manhole body to allow the connector body to be integrated with the manhole body and to achieve watertightness.

In addition, the outer circumferential surface of the connector body is formed to form a rough cross section so that the adhesion between the connector body and the manhole body is improved.

In addition, the outer surface of the socket is characterized in that a plurality of grooves are formed at a predetermined interval.

In addition, the socket portion is characterized in that the expansion pipe portion is formed in the connection portion with the connector portion to prevent the height difference between the branch pipe and the connector portion inserted into the socket portion.

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As described above, according to the present invention, the branch pipe connecting means formed integrally with the connector portion and the socket portion is integrally formed in the manhole body, thereby ensuring the watertightness of the connection hole and inserting the socket portion of the soft material into the connector portion. It is possible to manufacture the manhole by installing the inner mold and the outer mold, so that it is not necessary to process the outer mold separately for the installation of the socket part, eliminating the inconvenience of frequent drilling and filling of the mold and reducing the mold cost. There is.

In addition, it is possible to install the branch pipe connecting means in the required position without forming a punching hole in the mold has the effect of improving productivity.

In addition, since the branch connecting means is integrally produced in the manhole body, it is a very useful invention having the effect of enabling the stable connection of the branch pipe by preventing the settlement of the socket occurring during the refilling of the soil after the manhole is installed.

1 is an exemplary view showing a state in which a branch pipe is connected to a conventional manhole,
Figure 2 is an exemplary view showing a branch pipe connection structure using a connector and a connection socket separated from each other in the conventional manhole,
3 is an exemplary view showing a state in which a mold is processed and a socket is installed when manufacturing a conventional manhole;
Figure 4 is an exploded perspective view showing a coupling structure of the manhole socket and branch pipe connecting means according to the present invention,
5 is a front view showing a branch pipe connecting means according to the present invention,
6 is a cross-sectional view showing a coupling structure of the manhole socket and the branch pipe connecting means according to the present invention;
Figure 7 is a cross-sectional view showing a state in which the socket portion of the branch pipe connecting means when the manhole according to the present invention is folded into the connector portion inserted;
8 is a cross-sectional view showing a state in which the mold is demolded and the socket part is pulled out and exposed to the outside of the connector during fabrication of the manhole according to the present invention;
FIG. 9 is a sectional view showing a state where a branch pipe is connected to a branch pipe connecting means according to the present invention;
10 is an exemplary view showing a state connecting the branch pipe by adjusting the angle of the branch pipe connecting means according to the present invention,
Figure 11 is an exemplary view showing a state in which the shape holding member is installed inside the connector when manufacturing the manhole according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

Figure 4 is an exploded perspective view showing a coupling structure of the manhole socket and branch pipe connecting means according to the present invention, Figure 5 is a front view showing a branch pipe connecting means according to the present invention, Figure 6 is a manhole socket and branch pipe connecting means of the present invention Sectional view showing the coupling structure, Figure 7 is a cross-sectional view showing a state in which the socket portion of the branch pipe connecting means is inserted into the connector portion when manufacturing the manhole according to the present invention, Figure 8 is demolding the mold during the manhole production according to the present invention and the socket portion Sectional drawing which showed the state which pulled out and exposed to the connector part,

As shown in the figure, the present invention, the manhole body 100 is formed with a plurality of connection holes 120, and integrally formed in the connection hole 120 of the manhole body 100 and can be connected to the branch pipe (10) It comprises a branch pipe connecting means 200 to be.

The manhole body 100 may be formed in various shapes such as a cross section or a square, and the connection hole 120 may be formed in various heights and numbers depending on the number of connections and the installation position of the branch pipe 10. .

The branch pipe connecting means 200 is installed at a position to form a connection hole 120 at the time of production of the manhole body 100, the connector portion 210 is formed integrally with the manhole body 100, and the connector portion Is formed integrally at one end of the (210) is configured to be connected to the branch pipe (10), made of a soft material inserted into the connector portion 210 during the production of the manhole body 100 and then the manhole body ( After the production of the 100 is exposed to the outside of the manhole body 100 is composed of a socket portion 220 to enable the branch pipe (10) connection.

The branch pipe connecting means 200 may be formed in plural at various heights by the installation position of the manhole or the number of the branch pipes 10.

The connector part 210 is formed integrally with the manhole body 100 to form a connector body 211 forming a connection hole 120, and is formed to protrude along the circumference of the connector body 211 and the manhole body 100. It is configured to include a plurality of flanges (212) embedded in the interior.

The flange 212 is embedded in the manhole body 100 so that the connector 210 is separated from the manhole body 100 or leaks to the joint surface between the outer surface of the connector body 211 and the manhole body 100. To prevent it.

In addition, the end of the flange 212 is further formed with an expansion ring 213 formed in a width larger than the width of the flange 212, to expand the attachment area with the concrete and the connector portion 210 is the manhole body 100 It allows more stable integration and improves waterproof efficiency.

In addition, the outer surface of the connector body 211 may be roughened to improve the adhesion to the manhole body 100.

On the other hand, the socket portion 220 is made of a soft foam reinforced rubber to be able to produce the manhole body 100 in the state folded into the connector 210 during the production of the manhole.

When the socket part 220 is produced in the state in which the socket part 220 is inserted into the inside of the connector part 210, the socket part 220 is formed in the external mold 310 installed for the manhole body 100. There is no need to process the holes to be installed can be made quickly and simply the manhole body 100.

That is, if the socket 220 is protruded to the outside of the manhole body 100, the outer mold 310 has a hassle to form a drilling hole for the socket 220 is fitted, but the branch of the present invention The connecting means 200 installs the outer mold 310 and the inner mold 300 in the state where the socket portion 220 is folded into the connector portion 210 and stored inside the connector portion 210 and the concrete is poured. By being able to manufacture the manhole body 100, the manhole body 100 is easy to manufacture and do not have to process expensive molds, because the outer hole 310 does not process the drilling hole for installing the socket portion 220 Mold cost can be reduced.

In particular, the manhole is changed in the number and the formation position of the connection hole 120 according to the design, conventionally, whenever the number of the connection hole 120 and the formation position of the connection hole 120 is changed, the outer mold 310 Expensive mold is damaged because it is necessary to form a perforation hole in accordance with the position of the connection hole 120, the present invention, regardless of the position or number of the connection hole 120, the socket portion of the branch pipe connecting means 200 It is possible to manufacture the manhole body 100 in the state in which the 220 is inserted into the connector 210, so that the manhole body 100 can be easily manufactured, and the durability of the mold is reduced because the hole is not machined. It can prevent.

Meanwhile, a plurality of grooves 221 are further formed on the outer surface of the socket part 220 at a predetermined interval so that the band can be inserted when the branch pipe 10 is connected through a band (not shown).

As the groove 221 is formed as described above, when the tube 10 and the socket 220 are tightly tightened through the band, the band is inserted into the groove 221 so that the branch pipe 10 and the socket 220 are formed. It can be fixed stronger and more stable.

9, the socket unit 220 includes a branch tube 10 and a connector unit 210 inserted into the socket unit 220 by forming an expansion unit 222 at a connection portion with the connector unit 210, So that smooth drainage can be achieved.

The socket portion 220 configured as described above is made of a soft material to allow fine angle adjustment when the branch pipe 10 is connected as shown in FIG. 10, and can be connected by adjusting the connection angle of the branch pipe 10 according to site conditions. have.

Meanwhile, when describing the manhole manufacturing process of the present invention configured as described above, rebar assembling step of forming the reinforcing bar assembly 110 by assembling the reinforcing bars according to the shape of the manhole to be manufactured first, the branch pipe in the reinforcing bar assembly 110 (10) Installing the pipe connecting means 200 so as to form a connection hole for the connection 120, the socket connecting means installation step for installing the socket 220 to be inserted into the connector 210 inside And, the mold assembly step of placing the reinforcing assembly 110 on the bottom plate and the inner mold 300 is installed inside the outer reinforcement assembly 110 and the outer mold 310, and the reinforcing assembly 110 Concrete placing and curing step between placing and curing concrete between the inner mold 300 and the outer mold 310 so that the buried), when the concrete is cured, demoulding and inspecting the outer mold 310 and the inner mold 300 Mold demolding step, It comprises a socket portion 220 exposed step to enable the connection of the branch pipe (10) by pulling out the socket portion 220 inserted into the connector portion 210 to the outside of the connector portion 210.

The reinforcing bar assembling step is to inspect the assembly of the reinforcing bars in accordance with the shape of the designed manhole.

The branch pipe connecting means 200 is installed, the connector portion 210 is formed so as to be fixed to the reinforcing bar assembly 110 is formed in accordance with the wall thickness of the manhole body 100, the socket portion 220 made of a soft material Fold into the inside of the connector 210 to be installed so as not to be exposed to the outside of the connection hole (120).

In this way, the socket 220 is inserted into the connector 210 so that the socket 220 does not interfere with the socket 220 when the outer mold 310 is installed. There's no need to form them, which makes the task easier and faster.

Meanwhile, in the installation of the branch pipe connecting means 200, the connector part 210 is pressed by concrete to prevent the shape of the connection hole 120 from being deformed. The shape maintaining member 400 may be further installed.

The shape-retaining member 400 is made of a metal or synthetic resin material and is generally formed in a cylindrical shape according to the shape of the connection hole 120. The shape maintaining member 400 is inserted into the connector 210 and is connected to the connector by weight of concrete. 210 is to prevent the shape of the deformation.

The prefabricated PC manhole of the present invention configured as described above has a branch pipe connecting means 200 in which the connector portion 210 and the socket portion 220 are integrally formed in the manhole body 100 so that the connection hole 120 may be formed. Watertightness is ensured and the inner mold 300 and the outer mold 310 can be installed in the state in which the soft socket portion 220 is inserted into the connector portion 210 to manufacture the manhole, thereby allowing the socket portion ( 220) There is no need to process the external mold 310 separately for installation to eliminate the hassle caused by frequent drilling and filling of the mold and to reduce the mold cost.

In addition, it is possible to install the branch pipe connecting means 200 in the required position without processing the mold separately, thereby improving productivity.

In addition, since the branch connecting means 200 is integrally produced in the manhole body 100, it is possible to stably connect the branch pipe 10 by preventing settlement of the socket generated during the backfilling process of the soil after manhole installation.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(10): branch pipe (100): manhole body
(110): Rebar assembly (120): Connector
(200): branch pipe connecting means (210): connector
211: Connector Body 212: Flange
(213): expansion ring 220: socket portion
(221): groove (222): expansion tube
(300): Internal mold (310): External mold
311: perforation hole 400: shape retaining member

Claims (7)

A manhole body in which a plurality of connecting holes are formed;
The connector part is integrally installed with the manhole body in the connection hole of the manhole body, and is formed integrally with the connector part at one end of the connector part to be connected to the branch pipe, and is made of soft material. It is inserted into the connector in the interior of the manhole body after the production of the manhole body is exposed to the outside of the branch pipe connecting means consisting of a socket portion to enable the connection of the branch pipe; configured to include,
The connector part is installed to be in close contact with the inner surface of the connection hole and the connector body is formed so as to form a rough cross section of the outer peripheral surface to improve the adhesion to the manhole body, and formed along the circumference of the connector body and embedded in the manhole body by the connector It is configured to include a plurality of flanges to allow the body to be integral to the manhole body and to be watertight,
The socket portion, a plurality of grooves are formed on the outer surface at regular intervals, the expansion pipe portion is formed in the connection portion with the connector portion to prevent the height difference between the branch pipe and the connector portion inserted into the socket portion,
A socket and connector-integrated PC-manhole, characterized in that it further comprises a cylindrical shape maintaining member installed inside the connector portion to prevent the shape of the connector portion is deformed by the weight of the concrete.



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