KR102316738B1 - A space support device for CIP retaining wall temporary facility structure - Google Patents

Abstract

The present invention relates to a gap support device for a temporary CIP retaining wall, and more particularly, to increase the convenience of construction regardless of the size of the gap between the CIP column and the wale, and to increase the efficiency of reuse. It's about support.
To this end, in the CIP retaining wall temporary facility including the CIP column, which is constructed as a column type, and installed to be supported on the CIP column along the construction direction of the CIP column, the CIP retaining wall is in close contact with the CIP column and the wale, respectively, and the length while sliding between each other A pair of bodies configured to be variable; an elastic means installed between the pair of bodies and providing an elastic force for pushing the pair of bodies to each other; and a restraining means for restraining sliding between the pair of bodies, wherein, among the pair of bodies, a sliding groove having an opening opening toward one side is formed in one body, and the other body is formed with a slider for varying the overall length while moving straight on the sliding groove, and the restraining means includes: a plurality of coupling portions formed to communicate with the sliding groove in the longitudinal direction of the body; a fastening part formed in the other body; and a restraining pin for restricting movement between the bodies through the coupling part and the fastening part, wherein the body forms a support piece in close contact with the CIP pillar or wale, respectively, and the elastic means is the support piece Doedoe configured to be interposed therebetween, the support piece is formed with a support protrusion protruding toward the opposite support piece, and the elastic means is provided as a leaf spring and is supported by being caught between the support protrusions on one side of the body, Among the support pieces, the support piece in close contact with the CIP pillar forms an arc-shaped close contact groove, and the curvature of the close contact groove is formed gradually from the upper part to the lower part of the support piece. provides

Description

A space support device for CIP retaining wall temporary facility structure

The present invention relates to a gap support device for a temporary CIP retaining wall, and more particularly, a CIP retaining wall that can flexibly respond to the size of the irregular gap between the CIP column and the wale, increase the efficiency of the bearing capacity of the wale, and increase the reuse effect. It relates to a gap support device for a temporary wall installation.

In general, to construct an underground structure in civil engineering or building work, the ground is excavated and the underground space is used. . In particular, in the underground excavation work for constructing large-scale underground structures in a limited space in downtown areas, stability of the surrounding ground must be prioritized. It is essential to review, and the selection of a retaining wall construction method occupies a very important part in the construction plan.

The retaining wall is constructed by various methods according to the size of the earth pressure acting on the excavation surface, site conditions, the type of structure to be constructed, the construction method, etc. Concrete Pile) method, underground continuous wall method, sheet pile method, etc. At this time, since the retaining wall is installed perpendicularly to the excavated surface to support the ground, there is a risk of collapsing due to earth pressure when the excavated depth is greater than a certain depth.

Among the above retaining wall construction methods, the construction method of the CIP retaining wall is as follows. In the CIP retaining wall construction method, a drilling hole is formed by drilling to a predetermined depth using equipment such as an earth auger at the boundary of the excavation ground before the start of excavation work, and then a reinforced concrete structure is formed in the drilling hole to form a reinforced concrete structure in the ground. The CIP column is constructed, and the CIP column is continuously constructed in a main column type to construct a temporary retaining wall as shown in FIG. 1 . At this time, in deep excavation work or in the ground with a high groundwater level, the back earth pressure on the retaining wall is much greater than in the general case, so H-beams are buried inside the CIP concrete at regular intervals to increase the rigidity of the retaining wall.

The CIP retaining wall temporary facility consists of a wale 20 installed horizontally along the CIP pillar 10 constructed to support the excavation surface of the ground, and a brace 30 supporting the wale 20. The wale 20 and the beotimbo 30 mainly use an H-beam member, and a plurality of stiffeners 21 are installed in the wale 20 to reinforce the rigidity of the wale 20 . In addition, the beotimbo 30 is installed across the excavated ground so that both ends are provided to support the wale 20, respectively.

On the other hand, in the process of constructing the CIP column 10 in a column manner, the horizontality of the plurality of CIP columns 10 generates an error. That is, when the constructed CIP column 10 is viewed in a plan view, the CIP columns 10 are not arranged on a straight line. Accordingly, there is a problem in that there is a gap at different intervals between the CIP pillar 10 and the wale 20, so that it is difficult to perform the roles of the wale 20 and the beotimbo 30 to the maximum. In order to solve this problem, a member capable of compensating for the clearance space is required, and in the prior art, a reinforcing member 40 of wood that can be provided relatively easily as shown in FIG. ) and interposed between them. However, the reinforcing member 40 of wood is difficult to provide sufficient rigidity, there is a problem that the reuse utilization is not high due to loss or the like. In particular, inconvenient and cumbersome problems such as having to provide wooden reinforcement members 40 of various sizes due to the formation of different gaps between the CIP pillar 10 and the wale 20 are caused.

Of course, as shown in Fig. 2, although the reinforcing member 40 of the concrete material is provided, the reinforcing member 40 of the concrete material is not easy to handle, it is difficult to reuse, and each of the reinforcing members 40 of the concrete material easily responds to the gaps of different sizes. I have a problem that is difficult to do.

Republic of Korea Patent Registration No. 10-1516777

The present invention has been devised to solve the above problems, and an object of the present invention is to provide a gap support device for a temporary CIP retaining wall so that it can be constructed while easily responding according to the size of the gap between the CIP column and the wale. will be.

In order to achieve the above object, the present invention is a CIP retaining wall temporary facility including a wale installed to be supported on the CIP column along the construction direction of the CIP column, and the CIP column is constructed in a column-type manner. A pair of bodies configured to be in close contact with each other and to be variable in length while sliding; an elastic means installed between the pair of bodies and providing an elastic force for pushing the pair of bodies to each other; and a restraining means for restraining sliding between the pair of bodies, wherein, among the pair of bodies, a sliding groove having an opening opening toward one side is formed in one body, and the other body is formed with a slider for varying the overall length while moving straight on the sliding groove, and the restraining means includes: a plurality of coupling portions formed to communicate with the sliding groove in the longitudinal direction of the body; a fastening part formed in the other body; and a constraint pin for restricting movement between the bodies through the coupling part and the fastening part, wherein the body forms a support piece in close contact with the CIP pillar or the wale, respectively, and the elastic means is the support piece Doedoe configured to be interposed therebetween, the support piece is formed with a support protrusion protruding toward the opposite support piece, and the elastic means is provided as a plate spring and is supported by being caught between the support protrusions on one side of the body, Among the support pieces, the support piece in close contact with the CIP pillar forms an arc-shaped close contact groove, and the curvature of the close contact groove is formed gradually from the upper part to the lower part of the support piece. provides

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The gap support device for a temporary CIP retaining wall according to the present invention can respond easily regardless of the size of the gap between the CIP column and the wale, thereby increasing the convenience of construction. That is, the gap support device for the CIP retaining wall temporary facility is configured to have a variable length, and since the variable length can be fixed through a restraining means, it can be easily interposed in the gap between the CIP column and the wale.

In addition, since the gap support device for the CIP retaining wall temporary facility has elastic force through the elastic means and can be varied in length, there is an effect of increasing the convenience of work for adjusting the length of the gap support device for the CIP retaining wall temporary facility. That is, the gap support device for the CIP retaining wall temporary facility can respond naturally depending on the size of the gap between the CIP column and the wale. it can be

1 and 2 are photographs showing the construction of a gap support device for CIP retaining wall temporary construction according to the prior art.
3 is an exploded perspective view showing a gap support device for CIP retaining wall construction according to a preferred embodiment of the present invention.
Figure 4 is a perspective view showing a gap support device for CIP retaining wall construction according to a preferred embodiment of the present invention.
5 is a plan view showing a temporary CIP retaining wall installation in which a gap support device for CIP retaining wall construction is constructed according to a preferred embodiment of the present invention.
6 is an exploded perspective view showing a gap support device for CIP retaining wall construction according to another embodiment of the present invention.
7 is a plan view showing a temporary CIP retaining wall installation with a gap support device for CIP retaining wall temporary construction according to another embodiment of the present invention.
8 is a perspective view showing a modified example of the body constituting the gap support device for CIP retaining wall construction according to the present invention.

The terms or words used in the present specification and claims are not to be construed as limited in their ordinary or dictionary meanings, and on the principle that the inventor can appropriately define the concept of the term in order to best describe his invention. It should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Hereinafter, with reference to the accompanying Figures 3 to 5 will be described with respect to the clearance support device for CIP retaining wall construction (hereinafter referred to as 'play support device') according to a preferred embodiment of the present invention.

The gap support device can maximize the efficiency of the support force of the wale 20 and the brace 30 while flexibly responding to the size of the gap between the CIP pillar 10 and the wale 20.

As shown in FIG. 3 , the clearance support device includes a body 100 , an elastic means 200 , and a restraining means 300 .

The body 100 is configured to support each of the band 20 and the CIP pillar 10 , and is disposed between the band 20 and the CIP pillar 10 . The body 100 is provided as a separate pair and is made of highly durable metal. In order to help the understanding of the description, the body 100 supported by the wale 20 is referred to as a first body 110 , and the body 100 supported by the CIP pillar 10 is referred to as a second body 120 .

The first body 110 constitutes one side of the clearance support device, and includes a first support piece 111 and a fixing protrusion 112 . The first support piece 111 is a portion supported by the wale 20, and preferably has a rectangular shape having a flat surface. Since the wale 20 is usually provided as an H-beam, it is preferable that the first support piece 111 be provided in a rectangular shape to increase the support efficiency by increasing the contact area with the wale 20. A support protrusion 111a is formed on one side of the first support piece 111 . The support protrusion 111a is configured so that the elastic means 200 to be described later can be supported between the pair of bodies 100 , and is preferably formed on the upper and lower portions of the first support piece 111 . The fixing protrusion 112 is configured to adjust the length with the second body 120 , and is formed to protrude outward from the first support piece 111 . The fixing protrusion 112 is preferably formed to be biased toward one side of the first support piece 111 . This is to enable the elastic means 200 to be described later to be disposed on the first support piece 111 . That is, the fixing protrusion 112 is formed eccentrically on one side of the first support piece 111 rather than the center of the first support piece 111 . The fixing protrusion 112 forms a hollow sliding groove 112a. The sliding groove 112a is configured to allow a slider of the second body 120 to be described later to move, and one side of the sliding groove 112a forms an open opening 112b.

The second body 120 constitutes a gap support device together with the first body 110 , and supports the CIP column 10 . The second body 120 includes a second support piece 121 and a slider 122 . The second support piece 121 is in close contact with the CIP column 10 and forms an arc-shaped adhesion groove 121a so as to be in close contact with the CIP column 10 effectively. Since the CIP column 10 is formed in a cylindrical shape, it is preferable that one surface of the second support piece 121 is formed in an arc shape rather than a flat surface. Support protrusions 121b formed on the first support piece 111 are also formed at upper and lower portions of the second support piece 121 . The slider 122 is inserted into the sliding groove 112a of the first body 110, and is formed so as to move straight on the sliding groove 112a. That is, the length of the gap support device is variable through the movement of the slider 122 on the sliding groove 112a. The slider 122 is also biased toward one side of the second support piece 121 to secure a space on the second support piece 121 to provide the position of the elastic means 200 .

The elastic means 200 provides an elastic force in the variable length of the clearance support device. That is, through the elastic action of the elastic means 200, the gap support device can respond flexibly according to the size of the gap between the wale 20 and the CIP column 10. In addition, the elastic means 200 also serves to temporarily assemble the gap support device before it is completely fixed through the restraining means (300). That is, the elastic means 200 is to temporarily assemble the first body 110 and the second body 120 with an elastic force between the wale 20 and the CIP pillar 10 . The elastic means 200 is preferably provided as a leaf spring as shown in FIG. 3 . The leaf spring 200 is disposed on the outside of the fixing protrusion 112 and the slider 122 as shown in FIG. 4 , and both ends of the leaf spring 200 are the first body 110 and the second body 120 . The support protrusions 111a and 121b formed on each are supported.

The restraining means 300 serves to fix the variable length of the play support device through the movement of the slider 122 on the sliding groove 112a. As shown in FIG. 3 , the restraining means 300 includes a coupling part 310 , a fastening part 320 , and a restraining pin 330 . The coupling part 310 is formed in the fixing protrusion 112 and is formed in plurality in the longitudinal direction of the fixing protrusion 112 . The coupling part 310 is formed through the outside of the fixing protrusion 112 and the sliding groove 112a. The fastening part 320 is formed in the slider 122 and is formed in one or more longitudinal directions of the slider 122 . It is preferable that the fastening part 320 is formed in plurality for the fineness of varying the length of the gap support device. The restraining pin 330 serves to restrain the position of the slider 122 moved on the sliding groove 112a. The constraint pin 330 may be formed with a diameter that can pass through the coupling part 310 and the coupling part 320 .

Hereinafter, the operation of installing the gap support device having the above configuration between the CIP column 10 and the wale 20 will be described.

As shown in FIG. 5, the CIP column 10 is constructed in a columnar manner. As described above, there is a gap between the CIP pillar 10 and the wale 20, and the operator installs the gap support device in the gap space. To this end, the operator inserts the slider 122 of the second body 120 into the sliding groove 112a of the first body 110 to reduce the overall length of the clearance support device, and then places it in the clearance space. At this time, the elastic means 200 is in a contracted state. The operator releases the elastic force of the elastic means 200 that has been contracted. At this time, the elastic means 200 pushes the slider 122 of the second body 120 on the sliding groove 112a of the first body 110 while being restored. Thereafter, the second body 120 is pushed out and blocked by the CIP pillar 10 to stop the movement. That is, in this state, the gap support device is interposed between the CIP pillar 10 and the wale 20 by the elastic force of the elastic means 200 . It is understandable that the length of the gap support device according to this action may vary depending on the size of the gap between the CIP column 10 and the wale 20, as shown in FIG. 5 . Thereafter, the operator passes the coupling part 310 of the fixing protrusion 112 and the fastening part 320 of the slider 122 using the restraining pin 330 to control the movement of the slider 122 on the sliding groove 112a. bind Accordingly, the installation of the gap support device is completed, and it is possible to increase the efficiency of the support force of the wale-shaped CIP column 10 through the gap support device.

On the other hand, the elastic means 200 is provided as a coil spring, it may be located in the sliding groove (112a). This is presented as another embodiment of the present invention, and will be described with reference to FIGS. 6 and 7 . Prior to the description, the same components as in the preferred embodiment are denoted by reference numerals, and detailed descriptions thereof will be omitted.

The fixing protrusion 112 is formed in the center of the first support piece 111 . Since the elastic means 200 is located in the sliding groove 112a, there is no need to provide a space in which a separate elastic means 200 is installed. The elastic means 200 is provided as a coil spring 210 and is located in the sliding groove 112a. In the clearance support device configured as described above, the slider 122 is elastically supported inside the sliding groove 112a, and the operator supports the clearance between the CIP column 10 and the wale 20 in a state in which the length of the clearance support device is contracted. position the device. After that, when the elastic force of the coil spring 210 is restored, the first body 110 is supported by the wale 20 and the second body 120 is supported by the CIP pillar 10 . The operator restricts the movement of the slider 122 on the sliding groove 112a by passing the coupling portion 310 of the fixing protrusion 112 and the fastening portion 320 of the slider 122 using the restraining pin 330 . . Accordingly, the installation of the clearance support device is completed, and it is possible to increase the efficiency of the support force of the CIP column 10 of the wale 20 through the clearance support device.

Meanwhile, the curvature of the arc constituting the close contact groove 121a of the second support piece 121 may be formed differently in the height direction of the second support piece 121 . As shown in FIG. 8 , the curvature of the contact groove 121a is gradually reduced from the upper part of the second support piece 121 to the lower part. As described above, as the curvature of the contact groove 121a is formed differently in the height direction of the second support piece 121 , it can effectively correspond to the diameter of the CIP column 10 .

As described so far, the gap support device for CIP retaining wall temporary facilities according to the present invention can respond flexibly to the size of the gap between the CIP column 10 and the wale 20 using the elastic means 200, and the reuse of to increase efficiency. That is, the gap support device for the CIP retaining wall temporary facility can easily respond to various gaps between the CIP pillar 10 and the wale 20, and can increase the storage utilization, so that the efficiency of reuse can be increased.

Although the present invention has been described in detail with respect to the described embodiments, it is apparent to those skilled in the art that various modifications and variations are possible within the scope of the technical spirit of the present invention, and it is natural that such variations and modifications belong to the appended claims.

100: body 110: first body
111: first support piece 111a: support projection
112: fixing protrusion 112a: sliding groove
120: second body 121: second support piece
121a: close contact groove 121b: support protrusion
122: slider 200: elastic means
210: coil spring 300: restraint means
310: coupling part 320: fastening part
330: restraint pin

Claims (5)

In the CIP retaining wall temporary facility, the CIP column is constructed in a columnar type and includes a wale installed to be supported on the CIP column along the construction direction of the CIP column,
A pair of bodies each closely attached to the CIP pillar and the wale, and configured to be variable in length while sliding between them;
an elastic means installed between the pair of bodies and providing an elastic force for pushing the pair of bodies to each other; and
Constraining means for constraining sliding between the pair of bodies: Containing,
A sliding groove having an opening opening toward one side is formed in any one of the pair of bodies,
A slider is formed on the other body to vary the overall length while moving straight on the sliding groove,
The restraint means,
a coupling portion formed in plurality to communicate with the sliding groove in the longitudinal direction of the one body;
a fastening part formed in the other body; and
Containing a constraint pin for restricting movement between the bodies through the coupling part and the fastening part;
Each of the body forms a support piece in close contact with the CIP pillar or wale, and the elastic means is configured to be interposed between the support pieces,
A support protrusion is formed on the support piece to protrude toward the opposite support piece, and the elastic means is provided as a leaf spring and is supported by being caught between the support protrusions on one side of the body,
Among the support pieces, the support piece in close contact with the CIP pillar forms an arc-shaped close contact groove, and the curvature of the close contact groove is formed gradually from the upper part to the lower part of the support piece. .
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