KR20160059275A - Assembly type protection wall device and, method for constructing conduit line using this same - Google Patents

Abstract

The present invention relates to an assembly type protection wall device for constructing an underground conduit line and a method for constructing an underground conduit line using the same, which can be quickly and easily constructed and used in a small-bore conduit line through miniaturization, weight lightening, and an assembly type structure. According to the present invention, an assembly type protection wall device for constructing an underground conduit line comprises: first and second wall support units (210, 310); first and second prop units (220, 320); and first and second frames made of a protection wall material (400), and symmetrically arranged in a portion to construct the conduit line.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a method of constructing a ground-

More particularly, the present invention relates to a securing system for underground pipeline construction, and more particularly, to a securing system for constructing an underground pipeline for constructing an underground pipeline for protecting a worker's safety by using a small- And a method of constructing the underground pipeline using the same.

Generally, the earthwork works for constructing pipelines (gas pipes, etc.) in the ground include the pile pile horizontal wall (H-PILE + soil wall) method, steel sheet pile method, SCW (SOIL CEMENT WALL) (CIP) method is widely used according to the construction conditions.

Among them, the H-PILE toothed wall method is installed by inserting the H-PILE at regular intervals by hitching or puncturing by an opening method, and then performing a trenching excavation work such as a ditch, To form a wall, and to form a retaining wall.

Meanwhile, in the conventional retaining structure for underground construction of a pipeline, a transverse brace is applied so that the facing retaining wall is not collapsed by the earth pressure.

A plurality of (or a plurality of and a plurality of) and a plurality of stages are installed at a certain interval from each other to support the earth retaining wall.

A plurality of braces for supporting these retaining walls are installed at a fixed interval of, for example, 4 m on the retaining walls.

However, in the case of constructing a small-diameter pipeline, since the depth of the pipeline construction part is not deep and many workers work with safety frustration, the pipeline is constructed without a safety facility. Even if a safety facility is installed, There are many cases in which pipelines are installed without safety facilities, and therefore there is a problem that safety accidents of workers due to the collapse of the ground frequently occur.

Korean Utility Model Registration No. 20-0416567

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems and it is an object of the present invention to provide a prefabricated earthmoving safety facility for construction of an underground pipe which protects the safety of workers by being quickly and easily constructed and used even in small- And an underground pipeline construction method using the same.

The prefabricated earthmoving safety installation for underground pipeline construction according to the present invention comprises a first and second wall supporting portions for supporting walls on one side in opposite walls of an underground pipe installation portion, A first and a second frame extending in a direction orthogonal to the support portion, and first and second frames made of an earth retaining material provided between a rear surface of the first and second wall supporting portions and a wall of the pipeline installation portion, The first and second support parts are assembled to each other while two or more supporting parts are supported by the wall of the pipeline construction part, and at least two or more of the first and second supporting parts are installed along the longitudinal direction of the pipeline installation part Is used.

The method for constructing an underground conduit using a prefabricated earth retaining facility for constructing an underground conduit according to the present invention includes a first step of constructing a groove-like conduit construction part by tearing a ground for the construction of a conduit in the ground; A first and second wall supporting portions for supporting walls on one side of the wall facing each other in the pipe installation portion; and a second wall supporting portion for supporting the first and second wall supporting portions, The first and second frames are formed on one side surface of the two-wall supporting portion and extend in a direction orthogonal to the wall supporting portion. The first and second frames are installed between the first and second frames and the wall of the pipe installation portion, A second step of installing the first and second frames and the assembly of the earth retaining material through a single operation; A third step of installing a pipeline on the bottom of the pipeline installation part and installing the pipeline on the bottom part of the pipeline installation while being protected by the prefabricated earth retaining safety facility for constructing the underground pipeline constructed through the second step; A fourth step of removing the prefabricated earthmoving safety facility for constructing the underground conduit installed in the second step after completing the construction of the conduit by the third step; And a fifth step of backing up the pipeline construction after the fourth step and arranging the road surface.

According to the prefabricated earthmoving safety facility for the construction of the underground pipeline according to the present invention and the underground pipeline construction method using the same, the safety facility can be used through the field prefabrication, so that the worker can assemble and install without using large equipment, It has the effect of safely protecting workers and pipelines.

Conventional supports are installed and a method of inserting a soil plate between the struts is eliminated, so that it is easy to handle (logistics) and it is possible to construct by manpower.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view of a prefabricated earthmoving safety installation for underground conduit construction according to Embodiment 1 of the present invention; FIG.
Fig. 2 is a front view of the installation state of a prefabricated earthmoving safety facility for underground pipeline construction according to Embodiment 1 of the present invention. Fig.
3 is a plan view of an installation state of a prefabricated earthmoving safety facility for underground pipeline construction according to Embodiment 1 of the present invention.
FIG. 4 is a view showing a folded state of a strut part applied to a sandwich type earthmoving safety installation for underground pipeline construction according to the first embodiment of the present invention. FIG.
FIGS. 5A and 5B are views showing examples in which a near-field material is applied to a prefabricated earthmoving safety facility for underground conduit construction according to Embodiment 1 of the present invention; FIG.
6 is an illustration of an alignment means applied to a prefabricated earthmoving safety installation for underground conduit construction according to Embodiment 1 of the present invention;
7A to 7D are views showing an example of a soil retaining structure applied to a sandwich type earth retaining safety facility for underground conduit construction according to Embodiment 1 of the present invention.
FIG. 8 is a front view showing an example in which a strut part applied to a sandwich type earthmoving safety installation for underground pipeline construction according to the first embodiment of the present invention is moved; FIG.
FIG. 9 is a perspective view of a sandwich type earthmoving safety facility for underground pipeline construction according to Embodiment 2 of the present invention; FIG.
10 is a perspective view of a sandwich type earthmoving safety facility for underground pipeline construction according to Embodiment 3 of the present invention.

≪ Example 1 >

As shown in FIGS. 1 to 3, the assembled earth retaining safety facility 100 for underground pipeline construction according to the present embodiment is installed in a pipeline installation part 1, which is formed so as to open upward in the ground, A frame supporting the left and right walls of the pipeline installation part 1 by securely supporting the pipeline installation part 1 and a frame provided between the frame and the wall of the pipeline installation part 1 to prevent collapse of the pipeline installation part 1 and invasion of the soil And a plurality of pipes are installed in a line in the pipeline installation part 1 along the direction of the pipeline 2 to be used.

The frame has the same configuration, that is, one type of frame is arranged symmetrically and assembled in the field, and will be referred to as a first frame 200 and a second frame 300. FIG.

The earth retaining material 400 is installed in the first and second frames 200 and 300 and the first and second frames 200 and 300 are installed in the channel construction part 1 and then the first and second frames 200 and 300, It is possible to install both of them between the walls of the construction part 1.

First, the first and second frames 200 and 300 will be described in detail.

The first and second frames 200 and 300 are respectively connected to the first and second wall supporting portions 210 and 310 and the first and second wall supporting portions 210 and 310 for supporting the wall of the pipeline installation portion 1, The first and second support parts 220 and 320 support the first and second wall supporting parts 210 and 310.

Since the first and second frames 200 and 300 have the same configuration, a specific configuration will be described taking the first frame 200 as an example and the second frame 300 will have the same format as the first frame 200, Quot;

The first wall supporting portion 210 and the first supporting portion 220 can be formed of various materials such as a pipe, a circular pipe, an angle, and a beam.

The first wall supports 210 may include at least two vertical walls 211 (shown as two in the figure) spaced apart from one another by preferably a certain distance from each other, two or more stages connecting the vertical walls 211 (Shown in three-tier in the figure).

Since the first wall supporting portion 210 is a frame having a hole, the earth retaining member 400 is installed on the rear surface of the first wall supporting portion 210, so that the retaining function of the piping construction portion 1 is possible.

The vertical base 211 may be supported at the bottom of the pipe installation portion 1 or may be inserted and fixed in the ground, so that a sharp fusing portion may be provided for increasing the fixing force.

The first strut 220 may include at least one upper strut 221 and a second upper stratum 222 connected to one of the vertical frame 211 and the horizontal frame 212 of the first frame 210, (223) formed at the other end of the upper and lower struts (221, 222) to connect the upper and lower struts (221, 222).

The interconnection layer 223 can also serve as a connection between the interconnection layer 323 of the second strut 320.

At least one of the first struts 220 may be applied depending on the size of the first wall support 210, and two or more struts 220 may be applied to secure the first struts 220. May be disposed at both ends in the longitudinal direction of the first wall supporting portion 210, as shown in the drawing, but are not limited thereto.

The upper and lower struts 221 and 222 and the connection link 223 may not be separated from each other.

In addition, it is preferable that the upper and lower struts 221 and 222 are assembled to the first wall supporting part 210 so as to be disassembled through fixing brackets and fastening means. This is because the first wall supporting portion 210 and the first supporting portion 220 have a very large volume because they are in an orthogonal direction, which is disadvantageous in handling (storage, transportation, etc.) and in logistics costs. As another method for solving this, as shown in FIG. 4, the first strut 220 can be folded by connecting the first wall support 210 with a hinge (hinge) 230. 4, the first strut 220 is attached to the first wall supporting part 210 to reduce the volume thereof, and the virtual strand is deployed as shown in FIG. 2 when used.

The upper and lower struts 221 and 222 are configured to uniformly support the first wall supporting portion 210 to provide a large supporting force against the earth pressure. At this time, the optimal position of the lower strut 222 is structurally different from that of the duct 2 In order to solve this problem, the lower strut 222 is arranged to be inclined upward.

The first and second frames 200 and 300 having the above-described structure are disposed symmetrically in the pipe installation part 1 as shown in FIG. 2, and are arranged so that the first and second support parts 220 and 320 are arranged in a line. The first and second supporting portions 220 and 320 adjacent to each other are coupled to each other through the binding means 500 to integrate the first and second frames 200 and 300 together. The binding means 500 may include a fixing bracket shared by the first and second support portions 220 and 320, and a fastener fastened to the fixing bracket and the first and second support portions 220 and 320. That is, by integrating the first and second frames 200 and 300, it is possible to effectively prevent collapse of the ground by securing a large support rigidity with respect to the earth pressure.

As shown in FIGS. 5A and 5B, the first and second frames 200 and 300 can prevent collapse of the pipe installation part 1 in the installation structure and protect the pipe line and the worker. However, The bottom part of the vertical bands 211 and 311 of the first and second frames 200 and 300 includes the near entry materials 213 and 313 inserted into the bottom of the pipeline construction part 1.

The near-field material (213, 313) can be used in various products such as H beam, square pipe, steel pipe.

5A is a sectional view showing a state in which the near-field members 213 and 313 extend from the vertical belts 211 and 311, FIG. 5B is a sectional view of the vertical belts 211 and 311, (In this case, it is also possible to omit the brace).

The near-field members 213 and 213 are assembled through fasteners at the bottom of the vertical bases 211 and 311 at the construction site or fixed to the vertical bases 211 and 311 at the factory.

In order to improve the assemblability of the first and second frames 200 and 300, alignment means are further applicable.

The aligning means is constituted by the alignment groove 224 and the alignment protrusion 324 so as to easily fasten the binding means 500 and of course the alignment groove 224 and the alignment protrusion 324 can be reversed in position.

As another example, the alignment means may be an alignment groove formed opposite to the first and second support portions 220 and 320, and an alignment band inserted into the alignment groove.

According to such alignment means, the fastening operation of the binding means 500 can be easily and quickly performed by aligning the positions of the first and second frames 200 and 300 in a line.

6A, 6B, 6C, 6C, 6D, 6D, 6D, 6D, 6D, 6D, 6D, 6D, 6D and 6D, 6d) can be used. A plurality of sheet files and sheets can be used by being interlocked and overlapped, and the geosynthetic fibers and the mesh are fixed in tension to the first and second wall supports 210 and 310 of the first and second frames 200 and 300 Is preferably used.

The geosynthetic fibers are collectively referred to as fiber materials and synthetic resin materials, and are preferably products that prevent penetration of water and fine particles. Examples thereof include nylon, aramid fiber and conjugated fiber having excellent tensile strength.

The first and second struts 220 and 320 may be configured to be displaced to the first and second wall supports 210 and 310. As shown in FIG. 8, the first and second support members 210 and 310, And the first and second support parts 220 and 320 are slidably mounted on the support parts 214 and 314.

The supporting rails 214 and 314 are not limited to those shown in the drawings, but may be configured in various shapes such as a groove opening toward the upper portion.

When the first and second supporting parts 220 and 320 are configured to be movable, the first and second supporting parts 220 and 320 can be disposed at optimum positions to firmly reinforce the piping installation part 1, The workability is very excellent by moving the first and second supporting portions 220 and 302 to a position where the installation of the pipeline 2 is not interfered with, and then constructing the pipeline 2.

The prefabricated earthmoving safety system 100 of the present embodiment is made of aluminum so that it can be lightened and thus can be handled by a worker without using large equipment, and is not limited to aluminum.

Also, protrusions and grooves for interlocking are formed in the vertical belts 211 and 311 disposed at both ends of the first and second frames 200 and 300, respectively, so that the assembled earth retaining safety assemblies 100 are assembled through the assembly of the protrusions and the grooves, Also, the construction can be facilitated.

Also, in order to further reduce the volume, the first and second frames 200 and 300 may be divided into two or more pieces, respectively, and used by assembling at a construction site. Herein, A folding expression is also possible.

The construction method of the construction method using the prefabricated earth retaining safety facility for the underground pipe construction according to the present embodiment is as follows.

(S10) Formation of piping construction part.

The pipeline installation part 1 is opened to the upper side in the ground by using the equipment such as an excavator according to the design of the pipeline.

(S20) Installation of prefabricated earthmoving safety facilities.

The first and second frames 200 and 300 are assembled on the ground and then installed in the piping installation 1; the first and second frames 200 and 300 are installed in the piping installation 1 without being assembled, And the earth retaining material 400 can be fixed to the first and second frames 200 and 300 and can be integrally operated or can be integrally constructed through the construction of the first and second frames 200 and 300 It can also be installed later.

For example, the first and second frames 200 and 300 (which are not coupled with the cladding material 400) are assembled on the ground and then inserted into the piping construction part 1.

An earth retaining material (400) is inserted between the first and second frames (200, 300) and the wall of the channel construction part (1).

(S30) Construction of pipeline.

It is possible to install the assembled safety facility 100 along the path of the pipeline construction unit 1 and to install the pipeline 2 after the assembled safety facility 100 is installed over the entire section of the pipeline construction unit 1 Or the pipeline 2 can be installed while installing only a part for pipeline construction.

A space is formed between the first and second supporting portions 220 and 320 of the assembled safety facility 100 and the pipeline 2 is inserted through the space to be seated on the bottom of the pipeline installation portion 1, 2) to construct the pipeline (2).

When the first and second struts 220 and 320 are movable, the first and second struts 220 and 320 are moved to secure the insertion space of the channel 2 so that the channel 2 can be easily inserted, After the insertion of the pipeline 2 is completed, the first and second strut parts 220 and 320 are moved to the optimum positions to support the pipeline installation part 1.

(S40).

After completing the construction of the pipeline (2), the pipeline construction part (1) is returned.

(S50) Prefabricated safety facility demolition.

It is preferable that the first and second frames 200 and 300 are removed after the earth retaining material 400 is lifted first and the first and second frames 200 and 300 are separated in order to facilitate demolition, (200, 300) are lifted one by one and demolished.

≪ Example 2 >

As shown in FIG. 9, the assembled earth retaining safety facility 100 for underground pipeline construction according to the present embodiment is removably coupled between the first and second support portions 220 and 320 of the first and second frames 200 and 300 Which is different from the first embodiment in that it is used in conformity with the size of the piping construction part 1 including the space control part 600 which is provided with the space control part 600.

The spacing adjuster 600 is detachably connected to the first and second struts 220 and 320 at both sides to increase the distance between the first and second wall supports 210 to adjust the gap. , Angle, and beam.

The first and second wall supports 210 and 310 are connected to the earth retainer 400 and the wall of the duct installation part 1 by a finer spacing adjustment, The first and second supporting members 610 and 620 are detachably coupled to the first and second supporting portions 220 and 320 of the first and second frames 200 and 300, And an interval adjuster 630 for adjusting the distance between the first and second supports 610 and 620.

The gap adjusting member 630 can be used as a turnbuckle or a screw support.

The pipeline construction method using the present embodiment is the same as the construction method of the first embodiment described above, so a detailed description thereof will be omitted.

≪ Example 3 >

As shown in FIG. 10, the assembled earth retaining safety facility 100 for the underground pipeline construction according to the present embodiment is characterized in that it can be conveniently and safely transported to a place where the pipeline 2 is installed, after completion of use do.

A conveying rail 215 is preferably formed on the upper surface of the horizontal lines 212 and 312 disposed at the uppermost position among the horizontal lines 212 and 312 of the first and second frames 200 and 300, 216 are installed.

For example, when the pipeline 2 is installed after the first to fourth assembled safety facilities 100-1, 100-2, 100-3, and 100-4 are installed, the first assembled safety facility 100-1 When the construction work of the pipeline 2 is completed, the first assembly type safety facility 100-1 is lifted and the roller 216 is mounted on the transportation rail 215 of the second assembly type safety facility 100-2, Or pulls it along the second to fourth assembled safety facilities (100-2, 100-3, 100-4) to the next installation position. The first assembled safety facility 100-1 is inserted into the next installation position.

The assembled safety facility 100 is lightweight and can be carried by a small number of workers by being transported even with a small force by the rotation of the roller 216.

1: conduit construction part, 2: conduit
100: Prefabricated earthmoving safety facility, 200,300: 1st and 2nd frames
210, 310: first and second wall supports, 211, 311:
212,312: Line width, 213,313:
214, 314: supporting rail, 220, 320:
221, 222, 321, 322: Upper and lower side support, 223, 323: Connection
224: alignment groove, 324: alignment projection
400: earth retaining material, 500: binding means
600:

Claims (12)

A first and a second wall supporting portions for supporting walls on one side of opposite walls of the pipe conduit installation portion in the ground, a first and second supporting portions formed on one side of the first and second wall supporting portions and extending in a direction orthogonal to the wall supporting portion, The first and second frames made of an earth retaining material installed between a rear surface of the first and second wall supporting portions and a wall of the pipeline installation portion are symmetrically arranged in the pipeline construction portion, Wherein the first and second support parts are assembled to each other while being supported by the wall of the installation part, and two or more of the first and second support parts are installed along the longitudinal direction of the pipe installation part so as to be used in succession. . [3] The safety system as claimed in claim 1, further comprising a gap adjusting member detachably coupled between the first and second supporting portions of the first and second frames. [3] The apparatus of claim 2, wherein the gap adjusting member comprises first and second supports detachably coupled to the first and second support portions of the first and second frames, And a gap adjusting member for adjusting the distance between the supporting members. The wall supporting unit according to any one of claims 1 to 3, wherein the wall supporting portions of the first and second frames include at least one vertical base supported at the bottom of the pipe installation portion at the bottom, two vertical walls arranged in a direction orthogonal to the vertical base Wherein the frame is formed in the form of a frame through a horizontal line. [7] The apparatus of claim 4, wherein the first and second strut parts of the first and second frames are formed at one side of one of the first and second struts connected to one of a vertical band and a horizontal band of the first and second frames, And the connection between the adjacent supporting parts and the connecting part to be assembled with the other supporting parts adjacent to each other. [7] The apparatus of claim 5, wherein the first and second strut parts of the first and second frames are formed between two struts having different heights and between the strands connecting the two struts, Wherein the first and second frames are inclined upwards from the first and second frames so as to support the first and second frames without interfering with the channel installed in the channel installation part. [7] The apparatus as claimed in claim 5, wherein the horizontal frame of the first and second frames is formed on an upper portion of the vertical frame, a transport rail is formed on an upper surface of the vertical frames, Wherein the facility is lifted to the top of the neighboring prefabricated earthmoving security facility and then moved along the rail after being mounted on the lateral rails of the prefabricated earthmoving security facility adjacent to the rolling elements of the vertical stand. Prefabricated earthmoving safety facility. [7] The apparatus according to claim 5, further comprising a near entrance member formed at a bottom of the vertical stand of the first and second frames and inserted into the ground of the conduit construction unit, wherein the near entrance member is inserted into the vertical member, Wherein the first and second portions are formed in an elongated shape. [6] The security system according to claim 5, wherein the earth retaining material is at least one selected from a flat plate, a concave-convex plate, a geosynthetic fiber, and a mesh. [6] The security system according to claim 5, wherein the first and second support members are foldably connected to the first and second wall support members through a hinge or are assembled in the field. [7] The apparatus of claim 5, wherein the first and second frames have a trapezoidal rail, wherein the first and second frames are movable along the trapezoidal rail Which is characterized by the fact that it is installed in the underground pipeline. A first step of constructing a channel-shaped channel installation part (1) by tearing the ground for the construction of the channel (2) in the ground;
The assembly-type earth retaining safety system (100) for constructing an underground channel according to claim 1 is installed in the pipeline construction part constructed through the first step, and the first and second The first and second frames are formed on one side of the wall supporting portions 210 and 310 and the first and second wall supporting portions, respectively. The first and second supporting portions 220 and 320 extend in a direction orthogonal to the wall supporting portion. A second step of installing the earth retaining material 400 between the first and second frames and the wall of the pipe installation part or installing the assemblies of the first and second frames and the earth retaining material through a single operation;
A third step of installing a pipeline on the bottom of the pipeline installation part and installing the pipeline on the bottom part of the pipeline installation while being protected by the prefabricated earth retaining safety facility for constructing the underground pipeline constructed through the second step;
A fourth step of removing the prefabricated earthmoving safety facility for constructing the underground conduit installed in the second step after completing the construction of the conduit by the third step;
And a fifth step of collecting the road surface after the fourth step and backing up the pipeline construction part. The method for constructing the underground pipeline using the prefabricated earth retaining safety facility for the construction of the underground pipeline.

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