KR100698885B1 - Sliding prevent device of sewage pipe - Google Patents

Abstract

A non-slip structure for a sewer pipe on a slope is provided to prevent breakage of a joint by fastening the sewer pipe installed in the slope to an anchor structure without slip. A non-slip structure(100) of a sewer pipe(130) includes an anchor projection(110) vertically protruded at both sides of the sewer pipe and provided with a first assembling bolt hole(111), a crescent anchor structure(120) made of concrete, and a pipe(300). The anchor structure has a sewer pipe groove(121) in which the sewer pipe is placed, second assembling bolt holes(123) formed at both sides of the sewer pipe groove, a pipe hole(125) formed in a lower part of the first assembling bolt hole, and a subsidence restricting plate(127) formed in a lower part of the sewer pipe groove. A thread groove(131) is formed outside the pipe to connect the anchor structures, and a nut(133) is mounted in the end of the pipe.

Description

Sliding prevent device of sewage pipe

1 is a side cross-sectional view showing the configuration of a sewage pipe installed on a conventional inclined surface,

Figure 2 is an exploded perspective view showing the configuration of the anti-skid facility structure of the slope sewer pipe according to the present invention,

3 is a perspective view showing the configuration of the anti-slip facility structure of the slope sewer pipe according to the present invention,

Figure 4 is a side view in the installation state of the anti-skid facility structure of the slope sewer pipe according to the present invention.

<Explanation of symbols on main parts of the drawings>

1: ground 110: anchor projection

120: anchor structure 121: sewer pipe groove

127: anti-sedimentation plate 130: pipe

The present invention relates to a non-slip facility structure of the inclined surface sewer pipe, and more particularly, to a non-slip facility structure of the inclined surface sewage pipe to prevent slipping of the joint portion is prevented from slipping.

In general, sewage pipes through which fluid flows are limited in length, and in order to have a desired length, a pipe and a pipe must be connected to each other by using joint means.

Such sewage pipes may differ from each foundation (sand or crushed stone and concrete foundation) in order to prevent pipe corrosion and sedimentation depending on the soil (divided into hard soil, ordinary soil, soft soil, and soft soil) at the location of construction. Construct in combination.

In other words, the sand or crushed stone in the longitudinal direction in accordance with the state of the soil in the dug soil, or the foundation PC concrete joints are installed after connecting the conduit to the upper joint, and then backfilled to achieve the construction.

However, when the conventional sewage pipe constructed in this way is installed on the inclined surface of the ground 1 as shown in FIG. 1, the joints 11 of the sewage pipe 10 are mutually connected due to the sliding phenomenon of the sewer pipe 10. Spaced apart, a large amount of fluid is leaked to the outside through the spaced apart, there is a problem that causes serious environmental pollution of surface water and groundwater due to leakage in the case of sewage or waste water.

The present invention is to solve the above problems, by fixing the sewer pipe installed on the inclined surface to the anchor structure to prevent the slip of the sewer pipe to prevent the structure of the inclined surface sewer pipe to prevent damage to the seam by sliding. The purpose is to provide.

Features of the present invention for achieving the above object,

An anchor protrusion protruding vertically from both sides of the sewer pipe installed on the inclined surface of the excavated ground and provided with a first fastening bolt hole; It is formed in a plate-like half-moon shape, the sewer pipe groove is formed on the upper surface is seated sewer pipe, the second fastening bolt hole is formed on a position corresponding to the first fastening bolt hole on both sides of the sewer pipe groove, 1 and an anchor structure in which a pipe hole is formed at the bottom of the fastening bolt hole; In the anti-slip facility structure of the inclined sewage pipe including a pipe passing through the pipe hole of the anchor structure and connected to the neighboring anchor structure, the anchor structure has a plate-type subsidence prevention plate at the bottom of the sewer pipe groove to prevent settlement It is characterized in that it is further formed.

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Hereinafter, with reference to the accompanying drawings, the configuration of the anti-slip facility structure of the slope sewer pipe according to the present invention will be described in detail.

Figure 2 is an exploded perspective view showing the configuration of the anti-slip facility structure of the slope sewer pipe according to the present invention, Figure 3 is a combined perspective view showing the configuration of the anti-slip facility structure of the slope sewer pipe according to the present invention, Figure 4 is a present invention It is a side view in the installation state of the anti-skid facility structure of a slope sewer pipe. In FIG. 4, the structure which overlaps with FIG. 1 attaches | subjects the same code | symbol, and the duplicate description is abbreviate | omitted.

2 to 4, the non-slip facility structure 100 of the inclined surface sewage pipe according to the present invention is composed of an anchor protrusion 110, an anchor structure 120, and a pipe 130.

First, the anchor protrusion 110 is formed of the same material as the sewer pipe 10 and integrally formed at both sides thereof, is formed to protrude vertically, the first fastening bolt hole 111 is provided.

In addition, the anchor structure 120 is formed in a plate-like plate shape of the concrete material, the sewage pipe groove 121 is formed on the upper surface of the sewer pipe 10 is formed, the first fastening bolts on both sides of the sewer pipe groove 121 The second fastening bolt hole 123 is formed at a position corresponding to the hole 111, and the pipe hole 125 is formed at the lower end of the first fastening bolt hole 111. Here, the anchor structure 120 is further formed on the bottom of the sewer pipe groove 121, the anti-sedimentation plate 127 in the form of a plate to prevent settlement.

In addition, the pipe 130 penetrates the pipe hole 125 of the anchor structure 120 and connects with the neighboring anchor structure 120 at one end thereof with a screw groove 131 formed thereon, and the nut 133 at the other end thereof. Is installed.

Hereinafter, the operation of the anti-slip facility structure of the slope sewer pipe according to the present invention will be described in detail with reference to the accompanying drawings.

First, after excavating the ground (1) along the inclined surface of the road, embankment excavation so that the anchor structure 120 is seated.

Then, the lower portion of the anchor structure 120 and the anti-sedimentation plate 127 is seated. At this time, the foundation concrete 140 may be poured on the ground.

In this state, the sewer pipe 10 is seated in the sewer pipe groove 121 of the anchor structure 120, and the first fastening bolt hole 111 of the anchor protrusion 110 and the second fastening bolt hole of the anchor structure 120 are provided. The sewer pipe 10 is fixed to the anchor structure 120 by fastening the fastening bolt 101 to the 123.

Then, the sewer pipe 10 adjacent to the joint 11 of the sewer pipe 10 is inserted and connected, and fixed to the anchor structure 120 in the same manner as described above.

Then, the pipe 130 is inserted between the pipe hole 125 and the pipe hole 125 of the anchor structure 120 and then fixed using the nut 133.

When the assembly installation is completed, the burnished ground (1) is backfilled.

Therefore, an anchor structure is installed on the bottom of the sewer pipe to fix the sewer pipe, and the sewer pipe can be prevented from being pushed by fixing the anchor structure and the anchor structure through a pipe, thereby preventing the joint from being damaged.

According to the non-slip facility structure of the inclined surface sewer pipe of the present invention configured as described above, by fixing the sewer pipe installed on the inclined surface to the anchor structure, there is an advantage that can prevent the joint portion from being damaged by the sliding by preventing the slip of the sewer pipe.

While the invention has been shown and described with respect to particular embodiments, it will be appreciated that the invention can be variously modified and modified without departing from the spirit or the scope of the invention as provided by the following utility model claims. It will be clear to those skilled in the art that they can easily know.

Claims (2)

An anchor protrusion protruding vertically from both sides of the sewer pipe installed on the inclined surface of the excavated ground and provided with a first fastening bolt hole; It is formed in a plate-like half-moon shape, the sewer pipe groove is formed on the upper surface is seated sewer pipe, the second fastening bolt hole is formed on a position corresponding to the first fastening bolt hole on both sides of the sewer pipe groove, 1 and an anchor structure in which a pipe hole is formed at the bottom of the fastening bolt hole; In the non-slip facility structure of the sloped sewer pipe including a pipe passing through the pipe hole of the anchor structure and connected to the neighboring anchor structure, The anchor structure, An anti-slip facility structure of an inclined sewage pipe, characterized in that the plate-shaped subsidence prevention plate is further formed on the lower end of the sewer pipe groove to prevent settlement. delete

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