KR102282404B1 - Filler for supporting underground pipes and construction method thereof - Google Patents

Abstract

A filler for supporting an underground pipe according to the present invention is installed in a structure of being in contact with the lower surface of an underground pipe (100) to support the underground pipe (100) installed in the excavation part (20) of the ground (10). The underground pipe (100) comprises: a main body part (110); a rear end part (120) formed at the rear of the main body part (110); and an expansion part formed at the front of the main body part (110) to enable the rear end part (120) of another underground pipe (100), which is combined to neighbor in a longitudinal direction, to be inserted. Included are: an expansion part supporting part (210) for supporting the lower surface of the expansion part (130); and a main body part supporting part (220) combined with the rear of the expansion part supporting part (210) to support the lower surface of the main body part (110). A plurality of the main body part supporting parts (220) are combined in a longitudinal direction to support the main body part (110). As in Figure3, the filler according to the present invention is installed below the underground pipe (100) to support the underground pipe (100). The filler includes the expansion part supporting part (210) and the main body supporting part (220) corresponding to the appearance shape of the underground pipe.

Description

Filler for supporting underground pipes and underground pipe laying method using the same {Filler for supporting underground pipes and construction method thereof}

The present invention relates to the field of construction, and more particularly, to a filling material for supporting an underground pipe and a method for laying an underground pipe using the same.

Roads and sidewalks are frequently excavated and restored for plumbing, such as sewer pipes and electrical pipes. During restoration, it is important to ensure backfill soil and soil. It was practically impossible to compact the lower part of the pipe because the pipe was buried in the cutout. Conventionally, compaction is carried out using a small compactor for spraying, but it is difficult to secure an actual compaction amount, resulting in inappropriate settlement or damage to the pipe.

To prevent this, pipe support members are being developed, but in the case of repair work, installation of the support members is difficult, making practical field application difficult.

The present invention is derived to solve the above problems, and proposes a filling material for supporting an underground pipe and a method for laying an underground pipe using the same, which can be easily applied to new pipe construction or pipe repair work.

To solve the above problems, the filler for supporting the underground pipe of the present invention is to support the underground pipe 100 installed in the interleaving part 20 of the ground 10, the lower surface of the underground pipe 100 Doedoe installed in contact with the underground pipe 100 is a body portion 110; a rear end 120 formed at the rear of the main body 110; An extension 130 formed in front of the main body 110 so that the rear end 120 of another underground buried pipe 100 that is adjacently coupled along the front-rear direction is inserted; includes, the extension portion (130) an extension support portion 210 for supporting the lower surface; It is coupled along the rear of the extension support portion 210, the main body portion support portion 220 for supporting the lower surface of the main body portion 110; including, the main body portion support portion 220 along the front-rear direction It is coupled to the structure to support the body portion (110).

The extension part support part 210 includes a plurality of unit extension part support parts coupled along the lateral direction, the other extension part support part 211 supporting the other edge of the lower surface of the extension part 130; a central extension support part 212 for supporting the central part of the lower surface of the extension part 130; It is preferable to include a; one extension part support part 213 for supporting one edge of the lower surface of the extension part 130 .

Extension protrusions 212a protruding to one side and the other side, respectively, are formed on one side and the other side of the central extension support part 212, and the extension protrusion part 212a is formed on one side of the other extension part support part 211. ), the other extension support part groove part 211a is formed so that the other extension part support part groove part 211a is formed, and on the other side surface of the one extension part support part 213, one extension part support part groove part 213a is formed so that the extension part protrusion part 212a is fitted. it is preferable

The main body part support part 220 includes a plurality of unit body part support parts coupled along the lateral direction, the other main body part support part 221 for supporting the other edge of the lower surface of the main body part 110; a central body part support part 222 for supporting the central part of the lower surface of the body part 110; It is preferable to include; one side body part support part 223 for supporting one edge of the lower surface of the body part 110 .

One side and the other side of the central body part support part 222 are formed with body part protrusions 222a protruding to one side and the other side, respectively, and on one side surface of the other body part support part 221, the body part protrusion part 222a ) is formed on the other side of the main body part support groove portion 221a to be fitted, and on the other side of the one side main body portion support portion 223, one side main body portion support portion groove portion 223a is formed so that the main body portion protrusion portion 222a is fitted. it is preferable

The coupling of the extension part support part 210 and the main body part support part 220, which are adjacently coupled along the front-back direction, are mutually coupled by a connection pin 400, and the connection pin 400 is a connection pin body of a rod structure. part 410; and a front connecting pin protrusion 420 and a rear connecting pin protrusion 430 each protruding downward from the front and rear ends of the connecting pin body 410, and the other side of the extension support unit 210 A front connecting pin groove portion 211h1 into which the front connecting pin protrusion 420 of the connecting pin 400 is fitted is formed on the rear of the upper surface of the extended supporting unit 211, and coupled to the rear of the extended supporting unit 210. It is preferable that a rear connection pin groove portion 221h1 into which the rear connection pin protrusion 430 of the connection pin 400 is fitted is formed in the front of the upper surface of the main body portion support portion 220 and the other body portion support portion 221 . .

The coupling of a pair of the main body support parts 220 adjacent to each other along the front-rear direction is coupled to each other by the connecting pins 400 , and the other main body part support part of the body part support part 220 coupled to the front is coupled to each other. (221) A front connection pin groove portion 221h2 into which the front connection pin protrusion 420 of the connection pin 400 is fitted is formed on the rear of the upper surface, and the main body portion support portion 220 coupled to the rear side of the other body It is preferable that the rear connection pin groove portion 221h1 into which the rear connection pin protrusion 430 of the connection pin 400 is fitted is formed in the front of the upper surface of the supporting part 221 .

It is preferable that a plurality of grooves are formed on the lower surfaces of the extended part supporting part 210 and the main body part supporting part 220 to reduce the weight of the extended part supporting part 210 and the main body part supporting part 220 .

The underground pipe laying method using the filler (A) for supporting the underground buried pipe according to an embodiment of the present invention includes a cut-off step of forming the cut-and-off part 20 of the ground 10; A support part installation step of installing the filling material (A), but installing the extended part support part 210 and the main body part support part 220 to correspond to the length and shape of the underground pipe 100; a coupling step of coupling the extension part support part 210 and the main body part support part 220 using the connection pin 400; combining and installing a plurality of the underground pipes 100 on the upper surface of the filling material (A); backfilling soil filling step of filling the backfilling soil 300 in the interleaving part 20; Includes; compaction step of compacting the backfill soil (300).

Since the filler material for supporting the underground pipe of the present invention is installed in a prefabricated structure, it can be easily applied to repair and reinforcement work, and has the advantage of easy installation and dismantling.

1 is a process diagram of an interleaving step according to an embodiment of the present invention;
2 is a support installation step according to an embodiment of the present invention;
3 is a perspective view of coupling a support member according to an embodiment of the present invention;
Figure 4 is a cross-sectional view showing that a filler is installed in the interleaving part and the underground pipe is installed according to an embodiment of the present invention;
5 is a backfill soil filling step process diagram according to an embodiment of the present invention;
Figure 6 is a perspective view showing that the filler according to an embodiment of the present invention is installed and the underground pipe is supported;
7 is a perspective view showing that a filler is combined to support a plurality of underground pipes according to an embodiment of the present invention;
8 is a view showing a combination of a plurality of underground pipes according to an embodiment of the present invention;
9 is a perspective view illustrating a lower surface of a filler according to an embodiment of the present invention;
10 is a perspective view illustrating that a plurality of grooves are formed on the lower surface of the extended part support part and the main body part support part according to an embodiment of the present invention;
11 is a perspective view illustrating that the extended part support part and the main body part support part are coupled to each other by a connecting pin according to an embodiment of the present invention;
12 is a combined perspective view illustrating that the extended part support part and the main body part support part are coupled to each other by a connecting pin according to an embodiment of the present invention;
13 is a perspective view of a connection pin according to an embodiment of the present invention;
14 is a perspective view of a main body support part formed by combining the other main body part support part, the central body part support part, and one main body part support part according to an embodiment of the present invention;
15 is an exploded perspective view of the other main body support part, the central body part support part, and one main body part support part according to an embodiment of the present invention;
16 is a perspective view of an extended part support formed by combining the other extended part support part, the central extended part support part, and one extended part support part according to an embodiment of the present invention;
17 is an exploded perspective view of the other extended part support part, the central extended part support part, and one extended part support part according to an embodiment of the present invention;

An embodiment of a filler for supporting an underground pipe according to the present invention and an underground pipe laying method using the same will be described in detail with reference to the accompanying drawings, and in the description with reference to the accompanying drawings, the same or corresponding components are the same Reference numerals are given, and overlapping descriptions thereof will be omitted.

In addition, terms such as first, second, etc. used below are merely identification symbols for distinguishing the same or corresponding components, and the same or corresponding components are limited by terms such as first, second, etc. no.

In addition, in the contact relationship between each component, the term "coupling" does not mean only the case where each component is in direct physical contact with each other, but another component is interposed between each component, so that the component is in the other component. It should be used as a concept that encompasses even the cases in which each is in contact.

Hereinafter, with reference to the accompanying tables and drawings, a filling material for supporting an underground pipe and a method for laying an underground pipe using the same according to an embodiment of the present invention will be described in detail.

The filler for supporting the underground pipe of the present invention is installed in a structure in contact with the lower surface of the underground pipe 100 in order to support the underground pipe 100 installed in the interleaving part 20 of the ground 10, The underground pipe 100 includes a main body 110; a rear end 120 formed at the rear of the main body 110; An extension 130 formed in front of the main body 110 so that the rear end 120 of another underground buried pipe 100 that is adjacently coupled along the front-rear direction is inserted. an extension support part 210 for supporting the lower surface; It is coupled along the rear of the extended support portion 210, the main body portion support portion 220 for supporting the lower surface of the main body portion 110; includes, but the main body portion support portion 220 is coupled in a plurality along the front and rear direction to the main body It is a structure that supports the part 110 .

As shown in FIG. 3 , the filler according to the present invention is installed in the lower part of the underground pipe 100 to support the underground pipe 100 . At this time, the filling material is provided with an expansion part support part 210 and a main body part support part 220 corresponding to the outer surface shape of the underground pipe.

In addition, the filling material according to the present invention can have an environment-friendly element produced by recycled material of waste vinyl.

The extension part support part 210 includes a plurality of unit extension part support parts coupled along the lateral direction, the other extension part support part 211 supporting the other edge of the lower surface of the extension part 130; a central extension support part 212 for supporting the central part of the lower surface of the extension part 130; It is preferable to include; one side extension support part 213 for supporting one edge of the lower surface of the extension part 130 .

In this case, the extended support part 210 is coupled to each other in the structure shown in FIG. 17 . At this time, on one side and the other side of the central extension support 212 , as shown in FIG. 17 , an extension protrusion 212a protruding to one side and the other side, respectively, is formed, and on one side of the other extension support part 211 , an extension portion is formed. The other extension part support groove part 211a is formed so that the protrusion part 212a is fitted, and the one extension part support part groove part 213a is formed on the other side of the one extension part support part 213 so that the extension part protrusion part 212a is fitted. formed is preferred.

Forming the extended part support 210 with the other extended part support 211, the central extended part support 212, and the one extended part support 213 is to apply both to the new pipe construction and the existing pipe maintenance work, This is because even if an existing tube is installed in the interleaving part, it is possible to easily install the extended part support part 210 with the other extended part support part 211 and the central extended part support part 212 .

The main body part support part 220 includes a plurality of unit body part support parts coupled along the lateral direction, the other main body part support part 221 for supporting the other edge of the lower surface of the main body part 110; a central body part support part 222 for supporting the central part of the lower surface of the body part 110; It is preferable to include; one side body part support part 223 for supporting one edge of the lower surface of the body part 110 .

15, the main body support 220 is also provided with the other main body support 221, the central body support 222, and the one body support 223 in order to be easily applied to both the new pipe construction and the existing maintenance work. do. On one side and the other side of the central body part support part 222, the body part protrusion part 222a protruding to one side and the other side, respectively, is formed, and on one side of the other body part support part 221, the body part projection part 222a is fitted. The other main body part support groove part 221a is formed so as to be coupled, and it is preferable that the main body part support part groove part 223a is formed on the other side of the one main body part support part 223 so that the main body part protrusion part 222a is fitted.

The protrusion 212a formed in the central extension support 212 of the extension support 210 and the protrusion 222a formed in the central body support 222 of the main body support 220 are an extension formed by combining a plurality of segments. This is to improve the shear resistance performance of the branch 210 and the main body support 220 .

The coupling of the extended part support part 210 and the main body part support part 220 that are adjacently coupled along the front-back direction are mutually coupled by a connection pin 400, and the connection pin 400 is a connection pin body part 410 of a rod structure. ); The front connecting pin protrusion 420 and the rear connecting pin protrusion 430 each projecting downward from the front and rear ends of the connecting pin body 410, and including, the other extension support part of the extension support part 210 (211) The front connection pin protrusion 420 of the connection pin 400 is formed in the rear rear of the upper surface, the front connection pin groove portion (211h1) to be fitted, the body portion support portion 220 coupled to the rear of the extension portion support portion 210. ) It is preferable that the rear connection pin groove portion 221h1 into which the rear connection pin protrusion 430 of the connection pin 400 is fitted is formed in the front of the upper surface of the other main body part support part 221 .

In this case, the extended part support part 210 and the body part support part 220 coupled along the front-rear direction, and a plurality of the body part support parts 220 installed adjacent to each other are coupled to each other in the structure shown in FIG.

Specifically, the coupling of a pair of the main body support parts 220 adjacently coupled along the front-back direction is mutually coupled by a connecting pin 400, the other body support part of the body part support part 220 coupled to the front ( 221) A front connection pin groove portion (221h2) into which the front connection pin protrusion 420 of the connection pin 400 is fitted is formed on the rear of the upper surface, the main body portion support portion 220 coupled to the rear side, and the other body portion support portion 221 It is preferable that the rear connection pin groove portion 221h1 into which the rear connection pin protrusion 430 of the connection pin 400 is fitted is formed in the front of the upper surface.

It is preferable that a plurality of grooves are formed on the lower surfaces of the extended part support part 210 and the main part support part 220 to reduce the weight of the expanded part support part 210 and the body part support part 220 .

In this case, the formed groove portion is formed to have a structure as shown in FIG. 10 .

The underground pipe laying method using the filler (A) for supporting the underground buried pipe according to an embodiment of the present invention includes a cut-off step of forming the cut-and-off part 20 of the ground 10; But installing the filling material (A), the support part installation step of installing the extension part support part 210 and the main body part support part 220 to correspond to the length and shape of the underground pipe 100; A coupling step of coupling the extension support 210 and the main body support 220 using the connecting pin 400; Combining and installing a plurality of underground pipes 100 on the upper surface of the filling material (A); Backfill soil filling step of filling the backfill soil 300 in the interleaving part 20; Includes; compaction step of compacting the backfill soil (300).

10: ground 20: cut-off part
100: underground pipe 110: body part
120: rear end 130: extension
210: extended part support part 211: the other extended part support part
211a: groove part of the other extension part support part 211h1: front connection pin groove part
212: central extension support 212a: extension protrusion
213: one side extended part support 213a: one side extended part support part groove part
220: body part support part 221: other body part support part
221h1: rear connection pin groove part 221a: the other main body part support part groove part
221h2: front connection pin groove 221h1: rear connection pin groove
222: central body part support part 222a: body part protrusion part
223: one side body part support part 223a: one side body part support part groove part
300: backfill soil 400: connecting pin
410: connecting pin body 420: front connecting pin protrusion
430: rear connection pin protrusion

Claims (9)

In order to support the underground buried pipe 100 installed in the interleaving part 20 of the ground 10, it is installed in a structure in contact with the lower surface of the underground buried pipe 100,
The underground pipe 100 is
body part 110;
a rear end 120 formed at the rear of the main body 110;
An extension 130 formed in front of the main body 110 so that the rear end 120 of another underground buried pipe 100 that is adjacently coupled along the front-rear direction is inserted; includes;
an extension support part 210 for supporting a lower surface of the extension part 130;
It is coupled along the rear of the extension part support part 210, the body part support part 220 for supporting the lower surface of the body part 110; including;
The body part support part 220 is
In addition to having a structure that supports the main body 110 by combining a plurality of them along the front and rear directions,
The extension part support part 210 is coupled to a plurality of unit extension part support parts along the lateral direction,
The other extension part support part 211 for supporting the other edge of the lower surface of the extension part 130;
a central extension support part 212 for supporting the central part of the lower surface of the extension part 130;
Including a; one side extension support part 213 for supporting one edge of the lower surface of the extension part 130;
One side and the other side of the central extended part support part 212 are formed with extended part protrusions 212a protruding to one side and the other side, respectively,
On one side of the other extension part support part 211, the other extension part support part groove part 211a is formed so that the extension part protrusion part 212a is fitted,
On the other side of the one extension support part 213, one extension part support part groove part 213a is formed so that the extension part protrusion part 212a is fitted,
The main body part support part 220 is coupled to a plurality of unit body part support parts along the lateral direction,
The other main body part support part 221 for supporting the other edge of the lower surface of the main body part 110;
a central body part support part 222 for supporting the central part of the lower surface of the body part 110;
Including; one side main body part support part 223 for supporting one edge of the lower surface of the body part 110;
On one side and the other side of the central body part support part 222, a body part protrusion part 222a protruding to one side and the other side, respectively, is formed,
On one side of the other body part support part 221, the other body part support part groove part 221a is formed so that the body part protrusion part 222a is fitted,
On the other side of the one body part support part 223, one side body part support part groove part 223a is formed so that the body part protrusion part 222a is fitted,
The coupling of the extended part support part 210 and the main body part support part 220, which are adjacently coupled along the front-back direction, are mutually coupled by a connecting pin 400,
The connection pin 400 is
The connecting pin body portion 410 of the rod structure;
Including; a front connecting pin protrusion 420 and a rear connecting pin protrusion 430 each protruding downward from the front and rear ends of the connecting pin body 410,
A front connection pin groove portion 211h1 into which the front connection pin protrusion 420 of the connection pin 400 is fitted is formed on the rear side of the upper surface of the other extended portion support portion 211 of the extended portion support portion 210,
The rear connecting pin protrusion 430 of the connecting pin 400 is fitted to the front of the upper surface of the main body supporting unit 220 coupled to the rear of the extended supporting unit 210 and the other main body supporting unit 221 . A connection pin groove portion (221h1) is formed,
The coupling of a pair of the main body part support parts 220 that are adjacently coupled along the front and rear directions are mutually coupled by the connecting pins 400 ,
At the rear of the upper surface of the other body part support part 221 of the main body part support part 220 coupled to the front, the front connection pin protrusion part 420 of the connection pin 400 is fitted with a front connection pin groove part 221h2. formed,
The rear connection pin groove portion (221h1) into which the rear connection pin protrusion 430 of the connection pin 400 is fitted is fitted to the front of the upper surface of the main body portion support portion 220 and the other body portion support portion 221 coupled to the rear side. is formed
The height of the other extension part support part 211 and the other extension part support part 211 is formed upward to a position 1/2 of the height of the underground pipe 100,
The front connection pin groove part 211h1 and the rear connection pin groove part 221h1 are the connection pins 400 are fitted in the downward direction, so that the connection pin body part 410 of the connection pin 400 is the other extension part. The front connection pin groove portion 211h1 and the rear connection pin groove portion 221h1 are formed as groove portions interconnected in the front-rear direction so as to be embedded in the upper region of the branch portion 211 and the other main body portion support portion 221 . Filling material for supporting underground pipes.
delete delete delete delete delete delete According to claim 1,
An underground buried pipe, characterized in that a plurality of grooves for reducing the weight of the extension support part 210 and the body part support part 220 are formed on lower surfaces of the extension part support part 210 and the body part support part 220 . Filling material for support.
As an underground pipe laying method using the filler (A) for supporting the underground pipe of claim 8,
Interleaving step of forming the interleaving portion 20 of the ground 10;
A support part installation step of installing the filling material (A), but installing the extended part support part 210 and the main body part support part 220 to correspond to the length and shape of the underground pipe 100;
a coupling step of coupling the extension part support part 210 and the main body part support part 220 using the connection pin 400;
combining and installing a plurality of the underground pipes 100 on the upper surface of the filling material (A);
backfilling soil filling step of filling the backfilling soil 300 in the interleaving part 20;
A compaction step of compacting the backfill soil (300); underground pipe laying method comprising a.

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