KR200464400Y1 - Precast Concrete Box Culvert - Google Patents

Abstract

The present invention relates to a precast culvert assembly, comprising: a culvert having an inner wall; A groove portion formed at an end of the culvert; An injection hole connected to the groove part in the inner wall; A reinforcing ring inserted into the pair of grooves of the adjacent culvert; An insertion hole formed at a bottom of the groove to correspond to a through hole formed in the reinforcing ring; A tension member inserted into the insertion hole; Including a fixing unit installed inside the reinforcing ring to fix the tension member, it is not formed in the fixing grooves on the inner and outer walls of the culvert, there is no fear that moisture may penetrate into the culvert, the beauty is beautiful, the culvert adjacent to the tension member A precast culvert assembly is provided that is tensioned.

Description

Precast Culvert Assembly {Precast Concrete Box Culvert}

The present invention relates to a precast culvert assembly, and more particularly, to a precast culvert assembly, which is not formed in the fixing grooves on the inner and outer walls of the culvert and is beautiful in appearance.

In general, the precast culvert assembly embedded in the ground is used to build a variety of sewers, or as an electric power, communication or community.

The conventional precast culvert assembly is constructed by a method of fastening joints between culverts with a tension member or steel bars and bolts while moving the culverts manufactured at the factory to the site where the culverts are installed.

1 and 2 are views disclosed in Korean Patent Laid-Open Publication No. 2003-0008606, referring to FIG. 1, a conventional PC culvert 1b is mounted on a rear of a conventionally assembled PC culvert 1a, and then assembled first. The PC steel wire 4, which is pulled out from the steel wire fixing groove 2 of the PC culvert 1a, passes through the rear steel wire insertion hole and the front steel wire insertion hole and the steel wire fixing groove 2 of the new PC culvert 1b, and Pass through the rear wire insertion hole sequentially. At this time, in the steel wire fixing groove 2 of the new PC culvert 1b, a fixing device 5 for fixing the PC steel wire 4 is installed and passed in advance. Then, while pulling the PC steel wire (4) using the tension jack (7) on the rear surface of the new PC culvert (1b) by pushing the new PC culvert (1b) toward the assembled PC culvert (1a) first, Fully contact the rear surface of the assembled PC culvert 1a with the front surface of the new PC culvert 1b. Then, while fixing the fastener 5 in the steel wire fixing groove 2 of the new PC culvert 1b in close contact with the front wall surface, a fixing wedge is inserted between the PC steel wire 4 and the fastener 5 to fix the PC steel wire. Secure (4). Then, remove the tension jack (7) that is tensioning the PC steel wire (4), and cut the PC steel wire (4) extending to the rear of the anchorage (5) to a new PC in the assembled PC culvert (1a) The bonding of the culvert 1b is completed. Referring to FIG. 2, the steel wire fixing groove 11 is formed in the middle of the culvert 10, and the front and rear steel wire insertion holes 12a penetrating the front and rear curl surfaces and the steel wire fixing groove 11, respectively ( 12b) is formed.

However, in the conventional culvert assembly, since the steel wire fixing groove is formed inside the culvert, there is a problem in that water is introduced into the steel wire fixing groove along the wire insertion hole and affects various communication facilities installed in the culvert.

On the other hand, the publication No. 1998-043127, 2007-0042125 discloses a structure for connecting the adjacent culvert in the culvert outer wall, there is a fear that the connection structure is damaged in the process of installing the culvert on the ground.

Meanwhile, Utility Model Publication No. 20-2010-0005019 discloses a structure in which a shear groove is formed at an end of a culvert, and mortar is injected into a mortar groove connecting the shear groove. However, as the mortar is injected into one injection hole, it takes a long time to inject mortar and there is a limit to injecting mortar in a uniform amount into each shear groove. In addition, since both ends of the tension member are fixed to the PC culvert, respectively, in a state in which the tension members respectively inserted into the through holes are connected to each other, there is a problem that the precast culvert is not tensioned with the tension member and thus the rigidity of the assembly is inferior.

As described above, the conventional culvert assembly has a problem in that the fixing groove is formed in the inner or outer wall of the culvert, so that moisture may penetrate into the fixing groove, and when the shear groove is formed at the end of the culvert, the culvert assembly is formed. There was a problem of difficulty in tension.

Publication Nos. 2003-0008606, 1998-043127, and 2007-0042125

The present invention was devised to solve the above problems, and is not formed in the fixing grooves on the inner and outer walls of the culvert, there is no fear that moisture may penetrate into the culvert, the aesthetics are beautiful, and the precast stiffeners adjacent to the culverts are tensioned. It is an object to provide a culvert assembly.

The present invention for achieving the above object, the culvert having an inner wall and an outer wall; At least one groove formed adjacent the end of the culvert between the inner wall and the outer wall; At least one injection hole having one end connected to the inner wall and the other end connected to the groove to connect the inner wall and the groove; The metal material is opened in the shape of a square ring having a slope inserted into a pair of grooves of the adjacent culvert, wherein the first and second surfaces of the slopes face each other and the third and fourth surfaces face each other. And a reinforcing ring having through holes formed in the third and fourth surfaces, respectively; An insertion hole formed at a bottom of the groove to correspond to a through hole formed in the third and fourth surfaces of the reinforcing ring; A tension member inserted into the insertion hole; A fixing tool installed at each of the third surface and the fourth surface of the reinforcing ring, and fixing fixing members for fixing the tension member are respectively connected inward to fix the protruding tension member inserted into the insertion hole; The mortar is injected into the groove through the injection hole.
In addition, the groove portion is formed from the end of the culvert is formed extending in the longitudinal direction of the culvert, the first groove having a cross-sectional shape of the cross-sectional area becomes smaller toward the longitudinal direction of the culvert; And a second groove having a larger cross-sectional area than the first groove and continuously formed in the first groove in the longitudinal direction of the culvert.

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According to the present invention, the following effects are achieved.

First, no fixing grooves are formed on the inner and outer walls of the culvert, so there is no fear that moisture may penetrate into the culvert.

Second, since the tension member is settled through the reinforcing ring, there is a low risk of damaging the culvert.

Third, the groove portion formed at the end of the culvert performs a wedge function for the culvert adjacent to it so that it can effectively cope with inequality of the ground.

Fourth, while using the entire size of the existing precast culvert as it is to ensure that the culvert assembly is as tight as possible to improve product quality.

Fifth, there is no fear of corrosion of the tension member tensioning the culvert.

1 is an installation diagram of a precast culvert assembly according to the prior art.
2 is an interior view of a precast culvert assembly according to the prior art.
3 is a perspective view of a precast culvert according to a preferred embodiment of the present invention.
4 is a front view of a precast culvert according to a preferred embodiment of the present invention.
5 is a cutaway perspective view of a precast culvert assembly in accordance with a preferred embodiment of the present invention.
6 is a side interior view of a precast culvert assembly in accordance with a preferred embodiment of the present invention.

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a perspective view of a precast culvert according to a preferred embodiment of the present invention, FIG. 4 is a front view of a precast culvert according to a preferred embodiment of the present invention, and FIG. 5 is a precast culvert according to a preferred embodiment of the present invention. 6 is a cutaway perspective view of the assembly, and FIG. 6 is a side interior view of a precast culvert assembly in accordance with a preferred embodiment of the present invention.

3 and 4, the precast culvert 100 according to the preferred embodiment of the present invention has a rectangular cross section, and the inner wall 120 and the outer wall 170 are formed to have a predetermined thickness.

The end 150 of the culvert 100 includes an upper surface 151, a lower surface 152, and a side surface 153, and an inclined surface 155 is formed at the boundary between the upper surface 151 and the side surface 153, and further, An inclined surface 155 is also formed at the boundary between the 152 and the side surface 153.

Four grooves 200 are formed at the end 150 of the culvert 100. In more detail, the grooves 200 are formed on the surfaces between the boundary surface 155 and the outer wall 170, respectively.

In one embodiment, the groove 200 has a rectangular cross section, and has a shape in which the cross sectional area decreases toward the inner side in the longitudinal direction of the culvert 100.

5 and 6, as another embodiment of the groove portion 200, the first groove portion 220 continuous to the end of the culvert 100 and the first groove portion 220 in the longitudinal direction of the culvert 100. The second groove portion 230 may be continuous to the second groove portion 230 having a larger cross-sectional area than the first groove portion 220.

The first groove 220 is formed from the end of the culvert 100 is formed extending in the longitudinal direction of the culvert 100.

The first groove portion 220 has a cross section in the shape of a square, the cross-sectional area of the culvert 100 toward the inside in the longitudinal direction is smaller. The first groove part 220 is formed of four first wall parts 221, and the first wall part 221 is formed to be inclined so that the distance between the first wall parts 221 is shortened toward the longitudinal direction of the culvert 100.

The second groove 230 has a cross-sectional area larger than that of the first groove 220, and is continuously formed in the first groove 220 in the longitudinal direction of the culvert 100.

The second groove portion 230 has a rectangular cross section and is formed of four second wall portions 231 and one bottom portion 232. The distance between the four second wall portions 231 is kept constant, and the bottom portion 232 is formed with an insertion hole 210 through which the tension member 400 penetrates.

The injection hole 160 is formed between the inner wall 120 and the groove 200 to connect the two. One end of the injection hole 160 is formed on the inclined surface 155, the other end is formed in the groove portion 200.

When the adjacent culverts 100 are assembled to be in contact with each other, each of the adjacent first grooves 220 is formed to be in contact with each other.

The reinforcement ring 200 is inserted into the groove 200 of the adjacent culvert 100. The reinforcement ring 200 is formed of a metal material.

The reinforcing ring 200 has an open shape in the shape of a square ring. The first surface 310 and the second surface 320 of the reinforcing ring 200 are formed to face each other, and the third surface 330 and the fourth surface 340 are formed to face each other. Through-holes 335 are formed in the third and fourth surfaces 330 and 340, respectively. The through hole 335 is formed to correspond to the insertion hole 210 formed on the wall surface of the second groove 230.

A tension member fixing member 500 is installed inside the third surface 330 and the fourth surface 340 of the reinforcing ring 200 to fix the tension member 400 inserted into the insertion hole 210 to protrude.

The tension member anchoring hole 500, the tension member 400 penetrates and protrudes, and the fixing wedge 550 fixes the position of the tension member 400.

Reinforcement ring 200 is inserted into the groove portion 200 of the adjacent culvert 100, the length of the reinforcement ring 200 is shorter than the length of the groove portion 200 so that the reinforcement ring 200 as a whole into the culvert 100 Are accepted.

After the tension member 400 is tensioned to couple the adjacent culverts 100, the non-contraction mortar is injected into the groove part 200 through the injection hole 160. After the injection of mortar, the inner wall 120 side of the injection hole 160 is finished with a sealant.

As a result, mortar is poured around the reinforcing ring 200, and the groove 200, the reinforcing ring 200, and the mortar are integrated.

When the culvert assembly is integrated, a mortar wedge having an “I” shape is formed at the connection portion of the culvert 100 by the second groove 230, and thus, the culvert 100 adjacent to be disengaged due to unequal settlement may sag. Will be prevented. In addition, the concrete wedge is reinforced by the reinforcing ring 200, so that it can withstand the sedimentation of the ground better.

The grooves 200 are formed at each of four corner edges of both sides of the culvert 100, the reinforcement ring 200 is inserted into the pair of opposing grooves 200, and the tension member 400 is fixed through the fixing unit 500. Tension and fixation combine the adjacent culverts 100.

In the single culvert 100, the prestressing force is introduced into the culvert 100 by the tension of the tension member 400, and the connection between the culverts 100 is connected to each other by the reinforcing ring 200.

After assembling the adjacent culvert 100, the mortar is injected into the groove portion 200 to form a mortar wedge and simultaneously form the culvert 100, the reinforcing ring 200 and the mortar wedge.

According to the present invention, the groove is formed at the end of the adjacent culvert to insert the reinforcement ring to fix the tension member. It is possible to assemble adjacent culverts with high tensile force. In addition, the adjacent culvert is supported by the tension member to maintain a solid assembly state. In addition, since the mortar is injected into the groove portion, the adjacent culvert is integrated, and the cross-sectional area of the second groove portion is larger than the cross-sectional area of the first groove portion, so that the mortar injected into the groove portion performs the wedge function to perform the wedge function. It maintains a solid assembly even when settled.

As described above, the present invention has been described with reference to the preferred embodiment of the present invention, but the present invention can be carried out variously changed or modified within the scope without departing from the spirit and scope of the present invention described in the utility model registration claims below. It will be apparent to those skilled in the art.

100: culvert 160: inlet
200: groove 210: insertion hole
300: reinforcing ring 400: tension member
500: anchorage

Claims (4)

An culvert having an inner wall and an outer wall;
At least one groove formed adjacent the end of the culvert between the inner wall and the outer wall;
At least one injection hole having one end connected to the inner wall and the other end connected to the groove to connect the inner wall and the groove;
The metal material is opened in the shape of a square ring having a slope inserted into a pair of grooves of the adjacent culvert, wherein the first and second surfaces of the slopes face each other and the third and fourth surfaces face each other. And a reinforcing ring having through holes formed in the third and fourth surfaces, respectively;
An insertion hole formed at a bottom of the groove to correspond to a through hole formed in the third and fourth surfaces of the reinforcing ring;
A tension member inserted into the insertion hole;
A fixing tool installed at each of the third surface and the fourth surface of the reinforcing ring, and fixing fixing members for fixing the tension member are respectively connected inward to fix the protruding tension member inserted into the insertion hole;
Mortar injected into the groove through the injection hole
Precast culvert assembly comprising a.
The method of claim 1,
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A first groove formed at an end of the culvert and extending in the longitudinal direction of the culvert, the cross section having a square shape, the cross section being smaller toward the longitudinal direction of the culvert;
The second groove portion which is formed continuously in the first groove portion in the longitudinal direction of the culvert while having a larger cross-sectional area than the first groove portion
Precast culvert assembly comprising a.
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