KR102615780B1 - fabricated culvert of box type - Google Patents

Abstract

The present invention relates to a box-type prefabricated culvert, and more specifically, to a box-type prefabricated culvert that can be firmly installed on the foundation layer and is easy to construct.
The box-type prefabricated culvert of the present invention includes a body in the form of a square box with a passage formed inside, a front lip formed on the front of the body and protruding outward from the body, and a front lip protruding from the front of the front lip along the edge of the passage. A front protrusion formed, a rear lip formed on the rear of the body and protruding outward from the body, a rear entrance groove formed along the edge of the passage and formed on the rear of the rear lip and into which a coupling protrusion can be inserted, and the body. It is provided with a side rib that is formed on the lower side of the side and connects the front lip and the rear lip.

Description

Fabricated culvert of box type}

The present invention relates to a box-type prefabricated culvert, and more specifically, to a box-type prefabricated culvert that can be firmly installed on the foundation layer and is easy to construct.

In general, culverts are concrete structures used as sewer pipes, drain pipes, agricultural water pipes, water intake pipes, power conduits, communication conduits, or utility conduits. In the past, construction was done by pouring and curing concrete on site.

However, recently, in order to shorten the construction period and economical construction, construction can be completed simply by transporting the precast culvert pre-fabricated in the factory to the site and assembling the culvert on site, as disclosed in Korea Registered Utility Model No. 20-0261918. Many methods are in use.

The above precast type culvert is effective in complex urban construction as it has a fast construction speed and can be backfilled immediately after construction, solving problems such as inconveniences caused during construction, obstruction of traffic flow, and unnecessary waste of time. Since it is produced in a factory under strict quality control, the quality is uniform, and since high-strength concrete is used, it has several advantages, such as improving the durability of the structure.

Despite the above advantages, prefabricated culverts have weak connection areas, which causes problems with the connection areas opening up.

Republic of Korea Registered Utility Model No. 20-0261918: Prefabricated culvert structure for sewerage in soft ground

The present invention was created to improve the above problems, and its purpose is to provide a box-type prefabricated culvert that can be firmly installed on the foundation layer, increases the bonding force between connection parts, and is easy to construct.

The box-type prefabricated culvert of the present invention for achieving the above object includes a body in the form of a square box with a passage formed therein; a front lip formed on the front of the body and protruding outward from the body; a front protrusion protruding from the front of the front lip and formed along an edge of the passage; a rear lip portion formed on the rear of the body and protruding outward from the body; a rear entrance groove formed along the edge of the passage and inserted into the rear of the rear lip, into which the front protrusion can be inserted; a side rib formed on a lower side of the body and connecting the front lip and the rear lip; A front grouting groove is formed on the front of the front lip in the form of a square picture frame to surround the outside of the front protrusion, and a front grouting groove is formed on the back of the rear lip part in the form of a square picture frame to surround the outside of the rear inlet groove. A rear grouting groove is formed to correspond to the groove.

It further includes a support unit installed on the side rib to support the body to the base layer.

The support unit is inserted into a mounting hole formed in the side rib and embedded in the foundation layer, and includes a support pile having an open top and a thread formed on an inner circumferential surface, and an expansion part formed on the upper part of the support pile and extending outside of the support pile. and a pressure rod having a thread formed on the outer peripheral surface so that it can be inserted into the inside of the support pile and screwed together, a head portion formed on the upper part of the pressure rod, and a plurality of side holes penetrating the side of the support pile in the horizontal direction. It is inserted into each of the side holes, and one end facing the outside of the support pile is formed sharply, and the other end facing the inside of the support pile is formed to protrude in a cone shape from the lower part of the pressure rod and an expansion arm formed to be inclined. When the pressure rod moves downward, it is provided with a pressure cone portion that pushes the expansion arm toward the outside of the support pile and causes the expansion arm to protrude to the outside of the support pile.

It is further provided with a steel wire member installed through the front lip portion and the rear lip portion.

As described above, the box-type prefabricated culvert of the present invention can be firmly installed on the foundation layer, increases the bonding force between connection parts, and is easy to construct.

Therefore, the box-type prefabricated culvert of the present invention can be usefully used for sewer pipes, drain pipes, agricultural water pipes, water intake pipes, power conduits, and communication conduits.

1 is a perspective view showing a combined state of a box-type prefabricated culvert according to an example of the present invention;
Figure 2 is a front cross-sectional view of the box-type prefabricated culvert of Figure 1;
Figure 3 is a side cross-sectional view of the box-type prefabricated culvert of Figure 1;
Figure 4 is an exploded perspective view of a box-type prefabricated culvert according to another example of the present invention;
Figure 5 is a front cross-sectional view of the box-type prefabricated culvert of Figure 4;
Figure 6 is a front cross-sectional view showing the operation of Figure 5.

Hereinafter, a box-type prefabricated culvert according to a preferred embodiment of the present invention will be described in detail.

The box-type prefabricated culvert of the present invention is a concrete structure used for purposes such as sewer pipes, drain pipes, agricultural water pipes, water intake pipes, power conduits, and communication conduits. The box-type prefabricated culvert of the present invention is assembled and constructed in such a way that a plurality of it is continuously coupled in the front and rear directions.

Referring to FIGS. 1 to 3, the box-type prefabricated culvert 1 according to an example of the present invention includes a body 10 in the shape of a square box with a passage 11 formed therein, and a front surface of the body 10. A front lip portion 20 that protrudes outward from the body 10, a front protrusion 21 that protrudes from the front of the front lip portion 20 and is formed along the edge of the passage 11, and a front lip portion 20 that protrudes outward from the body 10. A rear lip portion 30 formed at the rear and protruding outward of the body 10, a rear inlet groove 31 formed along the edge of the passage 11 and inserted into the rear of the rear lip portion 30, and A side rib 40 is formed on the lower side of the body 10 and connects the front lip 20 and the rear lip 30.

The body 10 has a square box shape. The body 10 has a square passage 11 formed therein. The front of the body 10 becomes the entrance to the passage 11, and the rear of the body 10 becomes the exit of the passage 11.

The front lip portion 20 is formed on the front of the body 10. The front lip portion 20 protrudes outward from the body 10. For example, the front lip 20 is formed to protrude outward from the top and both left and right sides of the body 10.

A front protrusion 21 is formed to protrude from the front of the front lip 20. The front projection 21 is formed along the entrance edge of the passage 11. The front projection 21 has a square shape.

A front grouting groove 23 in the shape of a square picture frame is formed on the front of the front lip 20. The front grouting groove 23 is formed to surround the outside of the front projection 21.

The rear lip portion 30 is formed on the rear side of the body 10. The rear lip portion 30 protrudes outward from the body 10. For example, the rear lip portion 30 is formed to protrude outward from the top and both left and right sides of the body 10. This rear lip portion 30 has a shape corresponding to the front lip portion 20.

A rear inlet groove 31 is formed on the rear side of the rear lip portion 30. The rear inlet groove 31 is formed along the exit edge of the passage 11. The rear inlet groove 31 has a square shape.

The rear inlet groove 31 is formed to correspond to the front protrusion 21. The front protrusion 21 may be inserted and coupled to the rear inlet groove 31. When the front protrusion (21) is inserted and coupled to the rear inlet groove (31), a sealant for waterproofing may be applied, or a separate watertight packing may be installed between the rear inlet groove (31) and the front protrusion (21). .

A rear grouting groove 33 in the shape of a square picture frame is formed on the rear side of the rear lip portion 30. The rear grouting groove 33 is formed to surround the outside of the rear entry groove 31. The rear grouting groove 33 is formed to correspond to the front grouting groove 23.

The side ribs 40 are formed on the lower left and right sides of the body 10, respectively. The side ribs 40 are formed to connect the front lip 20 and the rear lip 30. The strength of the body 10 can be greatly improved by the side ribs 40.

When assembling a plurality of box-type prefabricated culverts (10) by combining them in the front and rear direction, the rear lip portion (30) of the front prefabricated culvert (10) abuts the front lip portion (20) of the box-type prefabricated culvert (10) located at the rear. In this case, the front protrusion (21) is inserted into the rear inlet groove (31). And the rear grouting groove 33 and the front grouting groove 23 face each other to form a space into which the grouting material is injected. Mortar can be used as a grouting material.

Meanwhile, the present invention may further include a steel wire member 5 installed penetrating the front lip portion 20 and the rear lip portion 20.

The steel wire member (5) is inserted into the front through-hole (25) of the front lip portion (20) and then drawn out into the rear through-hole (35) of the rear connection portion (30), or through the rear through-hole (35) of the rear connection portion (30). After being inserted, it can be pulled out into the front through-hole 25 of the front connection part 20.

Wire rope can be used as the steel wire member (5). Since the steel wire member 5 passes through the rear grouting groove 33 and the front grouting groove 23, it is fixed by the grouting material injected between the rear grouting groove 33 and the front grouting groove 23. This steel wire member (5) serves to firmly bind two or more box-type prefabricated culverts.

The box-type prefabricated culvert 10 of the present invention described above has a large bottom area and can be stably supported on the foundation layer 100. In addition, the box-type prefabricated culvert (1) of the present invention is combined in a structure in which the front protrusion (21) of the front lip portion (20) and the rear inlet groove (31) of the rear lip portion (30) are engaged, so that the connection portion is formed when the ground settles. What can happen can be prevented as much as possible.

Meanwhile, as another example, the present invention may further include a support unit made of metal to firmly support the body on the base layer.

Referring to Figures 4 and 6, the support unit is inserted into the mounting hole 45 formed in the side rib 40 and embedded in the foundation layer 100, and includes a support pile 50 with an open top and threads formed on the inner peripheral surface. , an expansion portion 55 formed on the upper part of the support pile 50 and extending to the outside of the support pile 50, and a pressure rod having a thread formed on the outer peripheral surface so that it can be inserted into the inside of the support pile 50 and screwed together. (60), a head portion 65 formed on the upper part of the pressure rod 60, a plurality of side holes 51 penetrating the side of the support pile 50 in the horizontal direction, and side holes 51 It is provided with an expansion arm 70 inserted into each, and a pressure cone portion 63 formed to protrude in a cone shape at the lower part of the pressure rod 60.

The support pile 50 has a cylindrical shape with an open top and an empty interior. The lower part of the support pile 50 is formed sharply so that it can be easily embedded into the foundation layer 100. The support pile 50 is inserted into the mounting hole 45 and embedded in the foundation layer 100. It is preferable that the support pile 50 is press-fitted into the mounting hole 45.

A reduced diameter portion 53 is formed on the inner lower portion of the support pile 50. The reduced diameter portion 53 protrudes toward the inside of the support pile 50 to reduce the inner diameter of the support pile 50. Due to the reduced diameter portion 53, the inner diameter of the lower side of the support pile 50 is reduced, but the thickness of the side increases.

A screw thread is formed on the inner peripheral surface of the support pile 50. No threads are formed in the reduced diameter portion 53.

An expansion portion 55 is formed at the top of the support pile 50. The outer diameter of the expansion portion 55 is formed to be larger than the outer diameter of the support pile 50 and extends out of the support pile 50. When driving the support pile 50 into the support layer 100 using a tool, deformation of the support pile 50 can be prevented by the expansion part 55.

A thread is formed on the outer peripheral surface of the pressure rod (60). The compression rod 60 is inserted into the support pile 50 and screwed to the support pile 50.

A head portion 65 is formed on the upper part of the compression rod 60. The head portion 65 may have a hexagonal shape. The head portion 65 makes it easy to rotate the compression rod 60 using a tool.

The side hole 51 is formed to penetrate the side of the support pile 50 in the horizontal direction. The side hole 51 is formed in the reduced diameter portion 53. Four side holes 51 are formed at 90-degree intervals. In contrast, two or three may be formed at regular intervals.

The expansion arm 70 is installed by inserting into the side hole 51. The diameter of the expansion arm 70 is smaller than the diameter of the side hole 51. Therefore, the expansion arm 70 can be moved horizontally while inserted into the side hole 51.

One end of the expansion arm 70 is formed sharply. The pointed end faces the outside of the support pile (50). The other end of the expansion arm 70 is inclined to form an inclined surface 71. The other inclined end faces the inside of the support pile (50).

The pressure cone portion 63 is formed to protrude from the lower part of the pressure rod 60. The pressure cone portion 63 is formed in a cone shape whose diameter gradually decreases as it goes downward. Accordingly, the side surface of the pressurizing cone portion 63 is formed to be inclined. The side inclination angle of the pressurizing cone portion 63 and the inclination angle of the inclined surface 71 of the expansion arm 70 are the same.

When the head portion 65 is rotated using a tool, the pressure rod 60 gradually moves downward and the pressure cone portion 63 enters between the expansion arms 70. When the pressure cone portion 63 enters between the expansion arms 70, the side of the pressure cone portion 63 and the inclined surface 71 of the expansion arm 70 contact each other. When the pressure cone portion 63 continues to move downward, the expansion arm 70 is pushed toward the outside of the support pile 50 by the pressure cone portion 63. Accordingly, as clearly shown in FIG. 6, the sharp end of the expansion arm 70 protrudes outward from the support pile 50 and is embedded in the foundation layer 100.

In this way, the support pile 50 can be firmly fixed to the foundation layer 100 by protruding a plurality of expansion arms 70 out of the support pile 50. In particular, it is useful when the foundation layer is a concrete layer. After forming a perforated hole in the concrete layer, inserting the support pile into the perforated hole, and then rotating the pressure bar, the expansion arm can protrude out of the support pile and be firmly fixed by being embedded in the concrete layer.

Above, the present invention has been described with reference to one embodiment, but this is merely illustrative, and those skilled in the art will understand that various modifications and equivalent embodiments are possible therefrom. Therefore, the true scope of protection of the present invention should be determined only by the attached registration claims.

10: body 11: passage
20: Front lip 23: Front grouting groove
30: Rear lip 33: Rear grouting groove
40: side rib

Claims (4)

A body in the shape of a square box with a passage formed inside;
a front lip formed on the front of the body and protruding outward from the body;
a front protrusion protruding from the front of the front lip and formed along an edge of the passage;
a rear lip portion formed on the rear of the body and protruding outward from the body;
a rear entrance groove formed along the edge of the passage and inserted into the rear of the rear lip, into which the front protrusion can be inserted;
a side rib formed on a lower side of the body and connecting the front lip and the rear lip;
A front grouting groove is formed on the front of the front lip in the form of a square picture frame to surround the outside of the front protrusion, and a front grouting groove is formed on the back of the rear lip part in the form of a square picture frame to surround the outside of the rear inlet groove. A rear grouting groove is formed to correspond to the groove,
It further includes a support unit installed on the side ribs to support the body to the foundation layer,
The support unit is inserted into the mounting hole formed in the side rib and embedded in the foundation layer, and includes a support pile with an open top and a thread formed on the inner peripheral surface, and the support pile is designed to reduce the inner diameter of the lower side of the support pile and increase the thickness of the side. A compressor having a reduced neck formed on the inner lower part of the support pile, an expansion part formed on the upper part of the support pile and extending outward of the support pile, and a thread formed on the outer peripheral surface so that it can be inserted into the inside of the support pile and screwed together. A rod, a head portion formed on the upper part of the compression rod and having a hexagonal shape, a plurality of side holes formed in the reduced diameter portion and penetrating the side of the support pile in the horizontal direction, and a horizontal movement that is inserted into each of the side holes. This is possible, and one end facing the outside of the support pile is formed sharply, and the other end facing the inside of the support pile has an expansion arm formed with an inclined surface, and a pressure cone portion that protrudes in a cone shape at the lower part of the pressure rod and has a slanted side. Equipped with
The inclined surface of the expansion arm and the side surface of the pressurizing cone portion have the same inclination angle,
When the head portion is rotated, the pressure rod moves downward and the side of the pressure cone portion contacts the inclined surface of the expansion arm to push the expansion arm outward of the support pile, thereby moving the expansion arm horizontally to support the support pile. A box-type prefabricated culvert characterized by protruding outward. delete delete The box-type prefabricated culvert according to claim 1, further comprising a steel wire member installed to penetrate the front lip portion and the rear lip portion.

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