KR100663267B1 - Pipe support for being laid under the ground - Google Patents

Abstract

In the underground buried pipe support of the present invention, the curved support plate has a curvature corresponding to the curvature of the cylindrical pipe, the support member supports the curved support plate from the bottom, the outer member is coupled to the edge of the curved support plate and surrounds the side of the support member. . In addition, the support member is composed of a plurality of horizontal support plates and a plurality of vertical support plates are formed orthogonal to the horizontal support plates arranged at a predetermined interval, the vertical support plate is formed with a seating groove for seating the curved support plate pipe.

Water pipe, sewer pipe, pipe support, excavation

Description

Pipe support for being laid under the ground}

1 is a schematic front perspective view of a pipe laying for underground laying according to a first preferred embodiment of the present invention;

FIG. 2 is a schematic rear perspective view of the pipe pedestal of FIG. 1; FIG.

3 is a schematic perspective view showing a support member of the pipe support of FIG. 1;

Figure 4 is a schematic front perspective view of the underground pipe laying pedestal according to the second embodiment of the present invention;

5 is a schematic rear perspective view of the pipe pedestal of FIG. 3;

6 is a schematic view showing a state in which the pipe support of the present invention is buried underground; And

7 is a schematic view showing the prior art of embedding a pipe underground.

<Explanation of symbols for main parts of drawing>

100, 200: pipe support 110, 210: outer cover

120, 220: curved support plate 130, 230: horizontal support plate

140, 240: vertical support plate 141: seating groove

221: opening portion 231: closing portion

The present invention relates to a pipe pedestal, and more particularly to a pipe pedestal for underground embedding for stably supporting pipes such as sewer pipes buried underground.

Water pipes for supplying water and wastewater pipes for discharging various wastewaters are buried mainly underground.

As shown in FIG. 6, when laying pipes such as water pipes and wastewater pipes underground, the ground is excavated to a desired depth using equipment such as an excavator, and then a plurality of pipes are placed on the excavated portion of the ground. Afterwards, cover the excavation site again with dirt or the like through the backfill operation.

However, in the case of refilling, it is difficult to backfill the parts corresponding to "A" with the soil in the drawing, and even after finishing the refilling work, the ground is less filled in the "A" part even when the work is done with a roller or the like. It was impossible to fully compact the soil. In addition, when the underground soil is lost due to rainwater, considerable space is often created between the pipe and the soil.

For this reason, when a strong load is applied to the pipe, the pipe is pressed in an elliptical shape, and a portion where the plurality of pipes are coupled is deformed, and thus, a constant or waste water flowing through the pipe is often spilled into the soil.

In addition, since the ground which is excavated by an excavator and the pipe is installed is in a rough state due to the broken stone or the like, the pipe is often damaged when a strong load is applied to the pipe.

The present invention has been made to solve the above-mentioned problems of the prior art. It is an object of the present invention to provide a pipe support for underground embedding which can prevent the pipe from being damaged by loads applied from the ground or loss of adjacent soil by stably supporting the pipe embedded underground.

In order to achieve the above object of the present invention, the present invention includes a curved support plate having a curvature corresponding to the curvature of the cylindrical pipe, and a support member for supporting the curved support plate from below Provide a pedestal.

In addition, the present invention provides a curved support plate having a curvature corresponding to the curvature of the cylindrical pipe, a support member for supporting the curved support plate from below, and an outer cover coupled to the edge of the curved support plate and surrounding the side surface of the support member. It provides a pipe laying for underground embedding, characterized in that it comprises.

The support member may include a plurality of horizontal support plates disposed at predetermined intervals and a plurality of vertical support plates formed perpendicularly to the horizontal support plates, and having a seating groove in which the curved support plates are seated.

The front surface of the curved support plate is closed, and a plurality of gratings formed by the horizontal support plate and the vertical support plate may have its lower front surface open.

The curved support plate may have a plurality of openings formed therein, and the plurality of grids formed by the horizontal support plate and the vertical support plate may have a closed portion formed at a lower portion thereof corresponding to the opening portion.

The outer cover may have a sidewall perpendicular to the bottom surface.

The outer cover may be formed such that the side wall thereof is non-vertical to the bottom surface.

The curved support plate, the support member and the outer cover may be integrally formed.

In addition, the pipe pedestal of the present invention may further include a predetermined probe means to easily probe the embedding position from the ground.

Hereinafter, with reference to the accompanying drawings will be described in detail with respect to the underground pipe laying pedestal according to the preferred embodiments of the present invention.

First Example

Figure 1 is a schematic front perspective view of the underground pipe laying pedestal according to the first embodiment of the present invention. FIG. 2 is a schematic rear perspective view of the pipe pedestal of FIG. 1. 3 is a schematic perspective view illustrating a support member of the pipe support of FIG. 1.

As shown, the pipe pedestal 100 includes a curved support plate 120 for supporting the pipe 10 shown in dashed lines.

The curved support plate 120 preferably has a curvature substantially the same as the curvature of the pipe 10.

In addition, the curved support plate 120 is supported by the grid support member consisting of a horizontal support plate 130 and a vertical support plate 140, the lower portion.

Horizontal support plate 130 is formed at a predetermined interval, the height is different depending on the position to be formed. That is, the height of the support plate located in the center is smaller than the support plate located in the outer portion. For this reason, the lower surface of the curved support plate 120 can be supported as if wrapped enough in the longitudinal direction with the said space | interval.

The vertical support plate 140 is formed at predetermined intervals orthogonal to the horizontal support plate 130, and a circular seating groove 141 having a curvature corresponding to the curvature of the curved support plate 120 is formed. In addition, both sides are formed to be inclined. For this reason, the lower surface of the curved support plate 120 can be supported as if wrapped enough in the said space | interval at said space | interval. In this embodiment, both sides of the vertical support plate 140 is formed to be inclined, but may be formed vertically.

An outer cover 110 is formed on sidewalls of the horizontal support plate 130 and the vertical support plate 140 to protect the support plates 130 and 140 from the outside.

The outer cover 110 has a trapezoidal shape whose sidewalls have a predetermined slope. Therefore, when the excavated ground on which the pipe pedestal 100 is installed is filled with soil or the like, the back portion of the pipe pedestal 100 is smoothly made.

In addition, the inside of the outer cover 110 is provided with a probe means such as a reinforcing pipe 111 so that the position of the pipe pedestal 100 can be easily probed with a predetermined probe on the ground.

2nd Example

4 is a schematic front perspective view of the underground pipe laying pedestal according to the second embodiment of the present invention, Figure 5 is a schematic rear perspective view of the pipe pedestal of FIG.

As shown, the pipe pedestal 200 includes a curved support plate 220 for supporting the pipe 10 shown in dashed lines.

The curved support plate 220 has a curvature substantially the same as the curvature of the pipe 10.

In addition, the curved support plate 220 is supported by the lower portion of the grid support member consisting of a horizontal support plate 230 and the vertical support plate 240.

In addition, the curved support plate 220 is formed on the surface of the opening portion 221 having a predetermined width long in the longitudinal direction is formed.

The horizontal support plates 230 are formed at predetermined intervals, and the heights are different depending on the positions at which they are formed. That is, the height of the support plate located in the center is smaller than the support plate located in the outer portion. For this reason, the lower surface of the curved support plate 220 can be supported as if wrapped enough in the longitudinal direction with the said space | interval.

The vertical support plate 240 is formed at a predetermined interval orthogonal to the horizontal support plate 230, a circular seating groove 241 of the curvature corresponding to the curvature of the curved support plate 220 is formed. In addition, both sides are formed to be inclined. For this reason, the lower surface of the curved support plate 220 can be supported as if it fully wraps at the above intervals in the lateral direction. In this embodiment, both sides of the vertical support plate 240 is formed to be inclined, but may be formed vertically.

In addition, the closing portion 231 is formed at a position corresponding to the opening portion 221 formed in the curved support plate 220 in the grid space formed by the horizontal support plate 230 and the vertical support plate 240. By forming the closing part 231, even if the pipe pedestal 200 is installed on a non-solid ground, the problem that the pipe pedestal 200 falls down due to the load applied from the upper side does not occur. In addition, by forming the opening portion 221 and the closing portion 231 correspondingly, the pipe pedestal 200 can be molded at a time in the mold.

An outer cover 210 is formed on sidewalls of the horizontal support plate 230 and the vertical support plate 240 to protect the support plates 230 and 240 from the outside.

The outer cover 210 has a trapezoidal shape whose sidewalls have a predetermined slope. Therefore, when the excavated ground on which the pipe pedestal 200 is installed is filled with soil or the like, the back portion of the pipe pedestal 200 is smoothly made.

In addition, the inside of the outer cover 210 is provided with a probe means such as a reinforcing pipe 211 so that the position of the pipe pedestal 200 can be easily probed with a predetermined probe on the ground.

In the above-described embodiments, the pipe pedestals 100 and 200 are formed in a trapezoidal shape, but may be formed in a rectangular shape. In addition, the pipe pedestal (100, 200) can be manufactured to have a seating groove of various sizes according to the diameter of the pipe to be seated and mass production is possible.

In addition, the pipe pedestal (100, 200) is a waste such as fly ash generated during the anthracite combustion of the coal-fired power plant, waste such as slag generated during the steelmaking process in the steel mill, waste waste such as waste zeolite used and used as a catalyst in the refinery It is formed by mixing and melting waste synthetic resins that are thrown away from farms and factories. Therefore, the pipe pedestal (100, 200) is much stronger in tensile, bending, impact strength than that made of ordinary synthetic resin.

6 illustrates a state in which the pipe pedestal according to the above-described embodiment is embedded underground.

As shown, the pipe pedestal (100, 200) is installed on the ground well excavated. At this time, the plurality of pedestal (100, 200) may be installed as long as the desired length in the longitudinal direction.

After installing the pipe pedestal (100, 200) in the desired position on the ground, the pipe 10 is seated on the pipe pedestal (100, 200), and the excavated site with soil (30) or the like.

At this time, since the side walls of the pipe pedestal (100, 200) is inclined or vertical, backfilling by soil or the like is easily and smoothly performed.

In the above, the underground pipe laying base of the present invention has been described with reference to preferred embodiments of the present invention, but it is apparent to those skilled in the art that modifications, changes, and various modifications can be made without departing from the spirit of the present invention.

According to the underground pipe laying base of the present invention, it is possible to prevent the various pipes buried underground from being damaged from the loss of soil due to load or rainwater applied to the ground.

In addition, refilling the excavated basement facilitates backfilling around the pipe base.

In addition, the soil can be sufficiently compacted around the pipe support and the pipe, so that the ground can be prevented from collapsing after the compaction work.

In addition, since the pipe pedestal is formed by mixing and melting various wastes, it is possible to significantly reduce manufacturing costs while preventing resource conservation and environmental pollution.

Claims (9)

delete delete delete A curved support plate having a curvature corresponding to the curvature of the cylindrical pipe; A support member for supporting the curved support plate from below; And Is coupled to the edge of the curved support plate and includes an outer cover surrounding the side of the support member, The support member may include a plurality of horizontal support plates disposed at predetermined intervals and a plurality of vertical support plates formed perpendicular to the horizontal support plates, and having a seating groove in which the curved support plates are seated. And a plurality of grids closed by the horizontal support plate and the vertical support plate, the lower front of which is opened. A curved support plate having a curvature corresponding to the curvature of the cylindrical pipe; A support member for supporting the curved support plate from below; And Is coupled to the edge of the curved support plate and includes an outer cover surrounding the side of the support member, The support member includes a plurality of horizontal support plates disposed at predetermined intervals and a plurality of vertical support plates formed perpendicularly to the horizontal support plates, and having a seating groove in which the curved support plates are seated. And a plurality of gratings formed by the horizontal support plate and the vertical support plate, the closing portion being formed at a lower portion corresponding to the opening portion. 6. The underground pipe laying pedestal according to claim 4 or 5, wherein the outer cover has a side wall formed perpendicularly to the bottom surface. 6. The underground pipe laying pedestal according to claim 4 or 5, wherein the outer cover has a side wall formed non-perpendicular to the bottom surface. According to claim 4 or 5, The curved support plate, the support member and the outer cover is an underground embedding pipe pedestal, characterized in that formed integrally. 6. The underground pedestal pipe pedestal according to claim 4 or 5, wherein the pedestal further includes a predetermined probe means such that the embedding position is probable from the ground.

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