KR20040055118A - Concrete conduit - Google Patents

Abstract

PURPOSE: A concrete culvert is provided to prevent the leakage of an inner fluid to the outside and the inflow of a fluid from the outside, and to improve productivity and working efficiency in a job site. CONSTITUTION: The concrete culvert(1) is composed of an upper culvert(2) and a lower culvert(3). A culvert joint is formed on the lower part of each upper vertical wall(4) of the upper culvert(2) and the upper part of each lower vertical wall(5) of the lower culvert(3). The culvert joint comprises: outer joints(8,9) formed on the outside of a joint; projections(12,13) formed on the inside of the joint and projected higher than the outer joints(8,9); and inner joints(10,11) composed of depressions(14,15) opposed to the projections(12,13) and depressed deeper than the outer joints(8,9), and inclines(16,17) connecting the projections(12,13) and the depressions(14,15). A PC strand fitting hole(18) is formed from the lower part of the projection(13) of the lower culvert(3) to the upper part of the projection(12) of the upper culvert(2) through the center of the lower incline(17) and the center of the upper incline(16). A PC strand fastening hole(19) is formed on the lower part of each projection(13) of the lower culvert(3) and connected with an inner passage(21) and a PC strand fitting hole(18).

Description

Concrete culvert {Concrete conduit}

The present invention relates to a structure of the concrete culvert and the fastening thereof, and more particularly, to a coupling portion of the concrete culvert divided into the upper and lower and the fastening thereof.

In general, concrete culverts are used for various purposes, such as being used as a passage for prefabricated underground construction to form waterways or passages for telecommunication cables and air-conditioning pipes, as well as for storage and passage of agricultural and marine products. .

8 is a perspective view of a conventional concrete culvert, as shown in the concrete culvert 100 has a substantially rectangular cross-section inside the passage so that fluid or storage, cables or pipes flow or enter 101, and has a connecting means for the function of connecting the concrete culverts to each other. For example, the front surface of the concrete culvert shown in the recess (요; 102) recessed behind the rim, and the rear side projected outward from the rim iron (凸; not shown) seated on the recess 102 when connected In addition, each of the coupling grooves 103, front and rear corners of the front and rear of the inclined upper, lower, left, right sides of the inner surface constituting the inner passage 101 is in communication with the corresponding locking groove 103 A bort insertion groove 104, and a sealing material 105 for preventing leakage to the outside after connection.

However, in the case of installing the concrete culvert of the above form, when the size of the concrete culvert to be installed is large, there is a disadvantage that the weight is not easy to transport and install.

For this reason, large concrete culverts are divided into upper and lower parts and assembled and installed on site. Fastening bolts and PC steel wire are used for fastening large concrete culverts, and auxiliary devices for fastening may also be used. The fastening is performed by providing a compressive force to each fastening portion in the vertical direction and the longitudinal direction of the culvert. In case the fluid flows through the inner passage, packing may be installed to prevent leakage of the connecting part in the vertical direction or the longitudinal direction.

FIG. 9 is a perspective view of a conventional large concrete culvert, and the concrete culvert is composed of a flat upper horizontal wall 207 and an upper concrete wall 208 extending downward from both sides of the horizontal wall 207 as shown. The culvert 201 is divided into a lower concrete culvert 204 consisting of a flat lower horizontal wall 209 and a lower vertical wall 210 extending upwardly from both sides of the horizontal wall 209, and the upper and lower concrete culverts. The lower surface of the upper vertical wall 208 is a convex portion 203, so that the upper surface of the lower vertical wall 210 abuts with a concave portion 204 corresponding to the convex portion 203 so as to be fastened to each other. In order to further secure the fastening, the bolt 203 of the upper vertical wall 208 and the concave portion 204 of the lower vertical wall 210 are extended outward so that anchor bolts, washers, and nuts are inserted and fixed at both ends. To increase clamping force between culverts There are anchor bolt mounting holes (205, 206).

However, the above structure is not only complicated, but in the case of large concrete culverts, it takes a lot of time and effort to align the holes of the anchor bolts of the upper and lower concrete culverts with each other. And, when the connection in the vertical direction and the longitudinal direction, respectively, the work is cumbersome, there is a disadvantage that the efficiency is low.

The present invention was created to overcome the above disadvantages, the object of the present invention is to form a unique shape of the coupling portion of the large concrete culvert, to fasten the upper structure and the lower structure without having to separate in the vertical and longitudinal direction It is to provide a concrete culvert to be able to generate the compression force in the vertical direction and the longitudinal direction at each culvert coupling portion.

It is also an object of the present invention to provide a coupling form capable of preventing the leakage of fluid from the inside of the culvert and the inflow of the fluid from the outside of the culvert by staggering the shapes of the outside and the interior of the joint.

1 is a perspective view of a concrete culvert according to the present invention,

2 is a side view of an embodiment in which the concrete culvert according to the present invention is fastened using a PC strand;

3 is a cross-sectional perspective view of the PC strand insertion hole shown in FIG.

4 is a side view of another embodiment in which the concrete culvert according to the present invention is fastened using a PC strand;

Figure 5 is a cross-sectional perspective view of the PC strand insertion hole shown in Figure 4,

6 is a plan view attached to the water repellent material in the lower culvert according to the present invention,

Figure 7 is an enlarged cross-sectional view of the PC steel wire fastening portion of the concrete culvert according to the present invention,

8 is a perspective view of a conventional concrete culvert,

9 is a perspective view of another conventional concrete culvert.

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

1 ---- concrete culvert, 2 ---- upper culvert,

3 ---- lower culvert, 4 ---- upper vertical wall,

5 ---- lower vertical wall, 6 ---- upper horizontal wall,

7 ---- lower horizontal wall, 8 ---- upper outer coupling,

9 ---- lower outer coupling, 10 --- upper inner coupling,

11 --- lower inner coupling, 12 --- upper projection,

13 --- lower projections, 14 --- upper depressions,

15 --- lower depression, 16 --- upper slope,

17 --- lower slope, 18 --- PC strand insertion hole,

19 --- PC strand strand fastener, 20 --- PC strand strand,

21 --- internal passage,

22 --- PC strand wire insertion hole for longitudinal tightening,

23 --- PC strand cable fastener for longitudinal tightening,

24 --- tabular material, 25 --- wedgecon member,

26 --- wedge, 27 --- anchor plate.

The invention will now be described in detail with reference to the accompanying drawings.

1 is a perspective view of a concrete culvert 1 according to the present invention, which is divided into an upper culvert 2 having a substantially ┏┓-shaped cross section and a lower culvert 3 having a ┖┛-shaped cross section, as shown in the figure. When the culvert 2 and the lower culvert 3 are fastened, a rectangular inner passage 21 is formed therein.

On the lower surface of each upper vertical wall 4 of the upper culvert 2 and on the upper surface of each lower vertical wall 5 of the lower culvert 3 there is a culvert coupling portion which abuts each other upon fastening, which is located on the outside of the coupling portion. The outer engaging portions 8, 9 formed in a horizontal plane of a rectangular shape long in the longitudinal direction, and formed inward of the engaging portion, protruding from the outer engaging portions 8, 9, and having a horizontal rectangular shape in the longitudinal direction. Projections 12 and 13 having a surface, and recesses provided on the opposite side of the projections 12 and 13 in the longitudinal direction and recessed than the outer engaging portions 8 and 9 and having a rectangular horizontal surface in the length direction; (14, 15) and the inner coupling portion (10, 11) formed of inclined surfaces (16, 17) connecting the two parts. As described above, by dividing the coupling portion into the outer and inner sides and staggered in different shapes, the leakage of the fluid flowing to the culvert inner passage 21 and the inflow of the culvert inner passage 21 from the outside were further strengthened. The protrusions 12 and 13 and the depressions 14 and 15 of the upper culvert 2 and the lower culvert 3 are formed opposite to each other, so that the protrusions 12 of the upper culvert 2 are lowered when the upper and the lower culverts are fastened. The depression 15 of the culvert 3, the depression 14 of the upper culvert 2, and the protrusion 13 of the lower culvert 3, and the upper slope 16 fit with the lower slope 17. Is reached. As shown in FIG. 6, the inner coupling portions 10 and 11 and the outer coupling portions 8 and 9 can be further reinforced with watertightness by attaching the water repellent material 24 with a material such as water-expandable rubber to each coupling surface. It was.

PC strand wire insertion hole 18 from the lower part of the protrusion 13 of the lower culvert 3 to the upper part of the protrusion 12 of the upper culvert 2 through the center of the lower inclined surface 17 and the center of the upper inclined surface 16. ) Is formed, and the PC strand is inserted into the culvert. In addition, a rectangular PC strand wire fastening hole 19 communicating with the inner passage 21 and the PC strand wire insertion hole 18 of the culvert is formed in the lower portion of the protrusion 13 of the lower culvert 3, When is fastened, the worker can work on the PC strand in the inner passage (21).

The above-mentioned concrete culvert is installed in the PC strand wire fastening hole 19 in the place because it can not work PC strand wire from the outside in the place that requires a trench when installed, but the place that can work outside, such as a place that does not need a trench In the above, the positions of the outer coupling parts 8 and 9 and the inner coupling parts 10 and 11 are changed so that the inner coupling parts are the same as the outer coupling parts 8 and 9 and the outer coupling parts are the inner coupling parts ( 10,11) as in the form and the PC strand wire fasteners can be made in communication with the outside to work on the PC strand wire from the outside.

2 and 3 is a cross-sectional and cross-sectional perspective view of an embodiment of a concrete culvert according to the present invention fastened using a PC strand, the PC strand wire fastening to the protrusion 13 of the inner coupling portion 11 of the lower culvert 3 Two concrete culverts with balls 19, namely, the first concrete culvert A and the second concrete culvert B, are placed in front and behind, and there are no PC strand wire fastening holes therebetween and the concrete culverts A and B 3) the third concrete culverter having the position of the protrusions 12 and 13 and the depressions 14 and 15 of the upper culvert 2 and the lower culvert 3 opposite to the concrete culverts A and B described above. C) One is placed, and these three concrete culverts (A, B, C) are connected to the PC strand 20 by using one unit. As illustrated, the PC strand 20 is inserted into the PC strand wire fastening hole 19 of the lower culvert 3 of the first concrete culvert A to be inclined upwardly so that the center and upper slopes 16 of the lower slope 17 are inclined upward. Pass through the center to reach the projection 12 of the upper culvert 2, from which it enters the PC strand wire insertion hole 18 of the upper portion of the projection 12 of the upper culvert 2 of the third concrete culvert (C) to be inclined downward After passing through the projection 13 of the lower culvert 2 past the center of the upper sloped surface 16 and the center of the lower sloped surface 17, the projection 12 of the upper culvert 2 of the second concrete culvert B (B). It leads to the PC strand wire fastening hole 19 in the lower portion. The inserted PC strand 20 is placed on the anchor plate 27, as shown in Figure 7 after the wedge cone member 25 is inserted into the PC strand 20 and tightened by fixing it with a wedge (26). The third concrete culvert (C) without the PC steel wire fastening hole 19 can be installed up to 1 to 3 can be fastened to the PC steel wire 20 by using 3 to 5 concrete culverts as one unit.

If the PC strand is installed in a zigzag shape rather than a straight line as described above, the compressive force acts inclined so that the inclined compressive force is separated into the compressive force in the vertical direction and the longitudinal direction, respectively, and acts as the fastening force in the vertical direction as well as the vertical direction. Longitudinal tightening can be done simultaneously.

In addition, when it is necessary to further reinforce the longitudinal tightening due to floating settlement or the like, a PC strand is inserted in the longitudinal direction at the center of the upper side wall 6 and the lower side wall 7 as shown in FIGS. 4 and 5. Balls 22 are formed, respectively, and in the center of the PC strand wire inserting holes 22 of the first concrete culvert A and the second concrete culvert B, a rectangular PC strand wire fastening hole 23 communicating therewith is provided. As shown in the figure, the PC stranded wire fastening hole 23 of the first concrete culverter (A) begins and passes through the PC stranded wire insertion hole 22 of the third concrete culverter (C). The PC stranded wire 20 is provided up to the hole 23, and the PC stranded wire 20 can be tightened as shown in FIG. 7 to increase the clamping force in the longitudinal direction.

The present invention is formed to form a staggered and staggered shape of the coupling portion of the large concrete culvert, it is possible to maintain the bonding force by simultaneously acting the fastening force in the vertical direction and the longitudinal direction using the PC strand inclined therebetween. In addition, due to the difference between the shape of the inner coupling portion and the outer coupling portion, it is possible to prevent the internal fluid from leaking to the outside and the inflow of the fluid from the outside. In addition, the upper culvert and the lower culvert should be exactly the same, there is an advantage that can be produced using the same mold, through which there is an effect that can increase productivity and field work efficiency.

Claims (5)

It is divided into an upper culvert 2 having a cross-sectional shape of the X-shaped section and a lower culvert 3 having a cross-sectional shape of the X-shaped section, and the lower surface of each upper vertical wall 4 of the upper culvert 2 and the lower culvert Culvert coupling portions are formed on the upper surface of each lower vertical wall (5) of (3), The culvert engaging portion is formed on the outer side of the engaging portion and has a horizontal plane long in the longitudinal direction, the outer engaging portions 8 and 9, and formed inside the engaging portion and protrudes beyond the outer engaging portions 8 and 9, Projections 12, 13 having a horizontal surface in the longitudinal direction, and longitudinally horizontal surfaces on the opposite side of the projections 12, 13 in the longitudinal direction and recessed than the outer engaging portions 8, 9; Consists of the inner engaging portion (10, 11) formed of the depressions (14, 15) and the inclined surface (16, 17) connecting the protrusions (12, 13) and the depressions (14, 15), PC strand wire insertion hole from the lower part of the protrusion 13 of the lower culvert 3 to the upper part of the protrusion 12 of the upper culvert 2 through the center of the lower slope 17 and the center of the upper slope 16 18) is formed, and the lower portion of each protrusion 13 of the lower culvert 3 is formed with a PC strand wire fastening hole (19) in communication with the inner passage 21 and the PC strand wire insertion hole 18 of the culvert Concrete culvert. The concrete culvert according to claim 1, wherein the inner coupling portion (10, 11) and the outer coupling portion (8, 9) are attached with a water stop material (24) long on each coupling portion surface. According to claim 1 or 2, wherein the PC strand wire insertion hole 22 in the longitudinal direction in the center of the upper side wall 6 and the lower side wall 7 of the upper culvert 2 and the lower culvert 3 The concrete culvert is formed, the PC strand wire fastening hole 23 is formed in communication with the center of the PC strand wire insertion hole (22). It is divided into an upper culvert 2 having a cross-sectional shape of the X-shaped section and a lower culvert 3 having a cross-sectional shape of the X-shaped section, and the lower surface of each upper vertical wall 4 of the upper culvert 2 and the lower culvert Culvert coupling portions are formed on the upper surface of each lower vertical wall (5) of (3), The culvert engaging portion is formed on the outer side of the engaging portion and has a horizontal plane long in the longitudinal direction, the outer engaging portions 8 and 9, and formed inside the engaging portion and protrudes beyond the outer engaging portions 8 and 9, Projections 12, 13 having a horizontal surface in the longitudinal direction, and longitudinally horizontal surfaces on the opposite side of the projections 12, 13 in the longitudinal direction and recessed than the outer engaging portions 8, 9; Consists of the inner engaging portion (10, 11) formed of the depressions (14, 15) and the inclined surface (16, 17) connecting the protrusions (12, 13) and the depressions (14, 15), PC strand wire insertion hole from the lower part of the protrusion 13 of the lower culvert 3 to the upper part of the protrusion 12 of the upper culvert 2 through the center of the lower slope 17 and the center of the upper slope 16 18) concrete culverts formed. It is divided into an upper culvert having a ┏┓-shaped cross section and a lower culvert having a ┖┛-shaped cross section, and a culvert coupling portion is formed on a lower surface of each upper vertical wall of the upper culvert and an upper surface of each lower vertical wall of the lower culvert. Yes, but The culvert engaging portion has an inner engaging portion formed in the inner side of the engaging portion and has a horizontal plane long in the longitudinal direction, and a protrusion formed on the outer side of the engaging portion and protruding from the inner engaging portion and having a horizontal surface in the longitudinal direction. And an outer engaging portion formed on an opposite side of the projection in the longitudinal direction and recessed than the inner engaging portion and having a horizontal surface in the longitudinal direction and an inclined surface connecting the projection and the depression, A PC strand wire insertion hole is formed from the lower portion of the lower culvert protrusion to the upper portion of the protrusion of the upper culvert passing through the center of the lower sloping surface and the center of the upper sloping surface. Concrete culvert formed with fastening holes for PC strand wire communicating with the insertion hole.