KR20010075796A - Culvert Device - Google Patents

Abstract

PURPOSE: A conduit system is provided to enhance an assembling power between abut conduit units, to prevent an assembled portion from being damaged and to prevent water leakage caused by a ground sinkage and an uplift. CONSTITUTION: A conduit system contains plural conduit units(1) forming a tubular hollow unit(3). The conduit system comprises; at least one lower extending unit(11) lengthwise extended from the lower end in one end of both walls of the conduit unit; at least one upper extending unit(21) combined with the lower extending unit and extended from the upper end in the other end of both walls; a unevenness unit containing a protrusion(13) and a protrusion receiving groove(23) engaged with each other.

Description

Culvert Device

The present invention relates to a culvert installation, and more particularly, to a culvert installation having a plurality of culvert units that are continuously connected to form a tubular cavity.

Culverts are used to form rainwater, sewage, and agricultural waterways, or to create passageways such as sidewalks and driveways, while making underground tunnels for laying telecommunications, hot and cold pipelines, and storing agricultural and marine products. It is widely used for production of warehouses and the like. Recently, in order to shorten the air to install the culvert and economically constructed, the prefabricated culvert is used to separately manufacture each part of the culvert and to assemble and install it at the construction site.

FIG. 6 is a perspective view of a conventional culvert unit, and FIG. 7 is a side cross-sectional view taken along the line VII-VII of FIG. 6. As shown in these drawings, the conventional culvert unit 101 has a pair of side wall portions 105 installed at a distance from each other so as to form hollow holes 103 therein, and upper and lower portions of the side wall portions 105. The upper plate portion 107 and the lower plate portion 109 are coupled to each other, and they are integrally formed in a rectangular box shape.

The grouting filling part 131 is formed in both side portions 105, the upper plate portion 107, and the lower plate portion 109 of the culvert unit 101 to be spaced apart from the cavity port 103 to surround the cavity hole 103. . The end region of the upper plate portion 107 extends recessed downward inwardly from the end region of the upper plate portion 107 along the longitudinal direction of the cavity sphere 103 so as to inject grout into the grouting filling portion 131 so as to communicate with the grouting filling portion 131. Grouting injection groove 133 is formed.

In addition, each culvert unit 101 is formed with a plurality of cable fastening holes 135 penetrating each side wall portion 105 along the longitudinal direction of the cavity port 103, and adjacent to each cable fastening hole 135 For connection with the culvert unit 101, the connection cable 137 is fastened and fixed to connect the culvert unit 101 coupled so as to be in contact with each other. In the contact area of the adjacent culvert unit 101, a sealing material, not shown, which seals the cavity sphere 103 to the outside is interposed.

By the way, in the conventional culvert unit, the concrete is injected through the grouting injection unit for the mutual assembly coupling of the culvert unit, and the coupling region of the adjacent culvert unit has a relatively weak structure. As a result, when settlement or elevation of the ground occurs or when a certain use time has elapsed after the installation of the culvert unit, the adjacent coupling part of the culvert unit is broken or the culvert unit is partially settled and raised. It is not possible to maintain a continuous coupling of the assembled coupling portion has a problem that the leakage may occur in the coupling portion.

In view of such a conventional problem, it is possible to increase the coupling force of the assembled coupling portion by providing bolts and nuts between the connected culvert units, or to secure the coupling between the culvert units and culvert units using a wire loop or the like. However, in the case of assembling and combining the culvert units using bolts and nuts, however, the thermal expansion coefficients of the culvert units made of concrete and the thermal expansion coefficients of the bolts and nuts are different. The joining force of the parts is reduced, whereby leakage may occur. In addition, in the case of using the connection wire, when the connection wire is repeated several times the tension is reduced, the tensile force is reduced, the coupling force of the culvert unit is reduced, it is possible to cause leakage of the assembly coupling portion.

Therefore, an object of the present invention, it is possible to significantly improve the assembly bonding force between the culvert units connected, reduce the phenomenon that the assembly coupling portion is broken, it is possible to prevent leakage caused by ground subsidence and ridges, etc. It is to provide a culvert having a culvert unit.

1 is an exploded perspective view illustrating the installation of a culvert unit according to a first embodiment of the present invention;

2 is an assembled view of Figure 1,

3 is a side cross-sectional view taken along line III-III of FIG. 2;

4 is an assembled side view of the culvert unit according to the second embodiment of the present invention;

5 is an assembled side view of the culvert unit according to the third embodiment of the present invention;

6 is a perspective view of a conventional culvert unit,

7 is a side cross-sectional view taken along the line VII-VII of FIG. 6.

<Description of Symbols for Main Parts of Drawings>

1: culvert unit 3: cavity ball

5 side wall portion 7 top plate portion

9: lower plate portion 11: lower extension portion

13: bite protrusion 21: upper extension

23: bite receiving groove 31: grouting charging unit

33: grouting injection groove 35: cable fastening

37: connection cable

According to the present invention, in the culvert unit having a plurality of culvert units are continuously connected to form a tubular cavity, the end of the cavities over a predetermined height section from one end of both side walls of the culvert unit At least one lower extension portion extending in the longitudinal direction; At least one upper extension part extending along a longitudinal direction from an upper end to opposite ends of both side wall parts opposite the one end part and coupled to the lower extension part of an adjacent culvert unit; At least one bite protrusion protruding toward the opposite side in any one of the lower extension portion and the upper extension portion, and is provided in the other of the lower extension portion and the upper extension portion has a bite receiving groove for receiving the bite projection It is achieved by a culvert installation having a culvert unit, characterized in that it comprises a concave-convex engaging portion that is concave-convex in the direction.

Here, it is preferable that the adjacent culvert units have inclined areas which are in contact with each other so as to be inclined in the vertical direction.

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

1 is an exploded perspective view of an installation of a culvert unit according to a first embodiment of the present invention, FIG. 2 is an assembly coupling view of FIG. 1, and FIG. 3 is a side cross-sectional view taken along line III-III of FIG. 2. As shown in these figures, the present culvert facility has a substantially rectangular cylindrical shape and continuously connects culvert units 1 which are coupled to communicate with each other along the axial direction of the cavity 3 formed therein.

The culvert unit 1 includes a pair of side wall portions 5 disposed at predetermined distances, and an upper plate portion 7 provided at upper and lower ends of both side wall portions 5 to form a cavity 3 therein. And a bottom plate portion 9. In this embodiment, these side wall parts 5, the upper plate part 7, and the bottom plate part 9 have the box shape formed integrally.

One end of both side walls 5 of the culvert unit 1 is provided with a lower extension portion 11 extending along the longitudinal direction of the cavity 3 from a lower end to a predetermined height section, and both side walls facing one end thereof. The other end of the portion 5 is formed in the upper extension portion 21 extending in the longitudinal direction from the upper end and coupled to the lower extension portion 11 formed in the adjacent culvert unit (1). The mutual coupling part of the lower extension part 11 and the upper extension part 21 is provided with the uneven | corrugated engagement part which meshes these unevenly in an up-down direction.

The uneven engagement portion is formed on the upper surface of the lower extension portion 11 and protrudes toward the lower surface of the upper extension portion 21 and provided on the lower surface of the upper extension portion 21. It has a biting receiving groove 23 for receiving the biting projection 13 formed in (11). Then, between the adjacent culvert unit 1 is provided with an inclined surface 25 formed to be inclined in the vertical direction, thereby contacting so as to be inclined with each other.

In addition, the grouting filling part 31 recessed so as to surround the cavity 3 at predetermined distances from the cavity 3 in both side portions 5, the upper plate portion 7 and the lower plate portion 9 of the culvert unit 1 is formed. It is. Grouting injection in communication with the grouting filling portion 31 extending downwardly recessed inwardly from the end region of the upper plate portion 7 along the longitudinal direction of the cavity in order to inject the grout into the grouting filling portion 31 in the end region of the upper plate portion 7 The groove 33 is formed. As the grout injected from the grouting injection groove 33 is filled in the grouting filling portion 31, the bottom plate 9 has an air discharge groove (not shown) in which air filled in the grouting filling portion 31 is pushed out of the grout and discharged. have.

Each culvert unit 1 is formed with a plurality of cable fastening holes 35 penetrating each side wall portion 5 along the longitudinal direction of the cavity 3, and each cable fastening hole 35 is adjacent to the culvert For connection with the unit 1, the connecting cable 37 is fastened and fixed so as to connect through the culling unit coupled so as to be in contact with each other. In the contact area of the adjacent culvert unit 1, a sealing material, not shown, which seals the cavity sphere 3 to the outside is interposed.

By this structure, the lower extension part 11 which extends to the one end part of the both side walls 5 of the culvert unit 1 over the predetermined height section from the lower end, and the upper extension extended to the upper end of the adjacent culvert unit 1, The parts 21 are in contact with each other. At this time, the bite protrusion 13 formed in the lower extension portion 11 and the bite receiving groove 23 formed in the upper extension portion 21 is inclined in the up and down direction of the culvert unit 1, so that between the adjacent cullet unit (1) Can increase the binding force. In addition, an inclined surface 23 inclined with respect to the vertical direction is provided between the adjacent culvert units 1, thereby improving the bonding force to the force acting in the upper and lower regions of the culvert unit 1, the settlement and elevation of the ground Even in the case of occurrence, it is possible to reduce the departure of the assembly portion of the culvert unit (1) can reduce the leakage that may occur due to this.

In the following embodiments, description of the culvert unit having the same configuration as the above-described embodiment will be omitted for the sake of explanation. Figure 4 is an assembled side view of the culvert unit according to the second embodiment of the present invention. As shown in this figure, the concave-convex engaging portion in the second embodiment accommodates the chamfer 13 formed in the lower extension 11 with a gentle curve, and the chamfer 13 with a gentle curve. Has a bite receiving groove 23 formed in the upper extension portion 21 to be formed. At this time, in the second embodiment, the inclined surfaces 15 and 25 are formed on the upper extension portion 21 and the lower extension portion 11 so as to be inclined in the vertical direction of the culvert unit, respectively, thereby further coupling in the vertical direction. I can do it solidly.

5 is an assembled side view of the culvert unit according to the third embodiment of the present invention. As shown in this figure, the culvert unit 1 of the third embodiment has two lower extension portions 11 and two upper extension portions 21, and two biting protrusions 13 and By providing a biting receiving groove 23 can be firmly coupled in the vertical direction, can increase the coupling force for the force acting in the longitudinal direction of the cavity.

As described above, the lower extension portion extends from one end of both side walls of the culvert unit to a predetermined height section from the lower end, and the lower extension portion extends along the longitudinal direction from the upper end to the other end of both side wall portions and is formed in the adjacent culvert unit. Since the upper extension portion to be coupled, and the concave-convex engagement portion having the bite protrusion and the bite receiving groove formed in the lower extension portion and the upper extension portion, it is possible to firmly tighten the upper and lower coupling force of the culvert unit.

In the foregoing and embodiments, the culling unit formed with the upper plate portion, the lower plate portion, and the side wall portion are described integrally. And the upper plate and the lower plate can be described with a culvert unit that is both assembled and assembled separately.

In addition, in the above-described embodiments, the bite protrusion is formed in the lower extension portion and the bite protrusion portion in which the biting groove is formed in the upper extension portion has been described. It is not possible to provide a concave-convex engaging portion formed and a bite receiving groove is formed in the lower extension.

As described above, according to the present invention, it is possible to significantly improve the assembling force between the connected culvert units, to reduce the phenomenon of breakage of the assembling parts, and to prevent leakage caused by settlement and elevation of the ground. A culvert installation having a culvert unit that can be prevented is provided.

Claims (2)

In the culvert installation having a plurality of culvert units that are continuously connected to form a tubular cavity, At least one lower extension part extending in a longitudinal direction of the cavity over a predetermined height section from one end of both side walls of the culvert unit; At least one upper extension portion extending from the upper end to the other end portion of the opposite side wall portion opposite the one end portion and being coupled to the lower extension portion formed in the adjacent culvert unit; At least one bite protrusion protruding toward the opposite side in any one of the lower extension portion and the upper extension portion, and is provided in the other of the lower extension portion and the upper extension portion has a bite receiving groove for receiving the bite projection A culvert unit having a culvert unit, characterized in that it comprises a concave-convex engaging portion that is concave-convex in the direction. The method of claim 1, The culvert unit having a culvert unit, characterized in that the adjacent culvert unit has an inclined area in contact with each other to be inclined in the vertical direction.