KR101930929B1 - Pillar member for c.i.p. retaining wall - Google Patents

Abstract

In the course of constructing an underground structure using a backfilling method, the present invention is installed between a CIP earth retaining wall and a horizontal member such as a wale installed to support the CIP earth retaining wall so that the back earth pressure of the CIP earth retaining wall can be safely transmitted to the concrete slab And an inner support plate contacting the outer surface of the horizontal member and an interval adjusting unit adjusting an interval between the outer support plate and the inner support plate. And a curved surface corresponding to an outer diameter of the CIP pile is formed on the front surface of the external support plate.

Description

PILLAR MEMBER FOR CI.P. RETAINING WALL}

The present invention relates to a supporting structure for an earth retaining wall, and more particularly, to a supporting structure for an earth retaining wall which is installed between a CIP earth retaining wall and a horizontal member such as a wale installed to support it, To a pillar member capable of safely transmitting a back earth pressure of the earth retaining wall to a concrete slab.

In the construction method of the earth retaining wall to prevent the collapse of the back of the excavation in the underground excavation, the method of CIP earth retaining wall can be applied to almost all ground without regard to the ground conditions. After completion of excavation, Because it can be constructed close to the site boundary because the retaining wall and the concrete wall can be constructed, it is applied in many places in the urban area.

In the method of constructing the CIP earth retaining wall, before the start of the excavation work, a perforation hole is formed by drilling to a predetermined depth using equipment such as Earth Auger at the boundary of the excavated soil, and a reinforced concrete structure is formed in the perforation hole, And the piles are continuously installed in the main thermal type to form the earth retaining wall.

In this case, since the back earth pressure acting on the earth retaining wall is much larger than that in the general case, the H-shaped steel is embedded in the CIP concrete at regular intervals to increase the stiffness of the retaining wall.

On the other hand, the backfilling method of the underground structure is to construct the wall of the perimeter of the underground structure to be constructed, to drill the column position of the underground structure to construct the column base and the steel column, Installation of the deck plate, installation of the slab reinforcement, and installation of the slab concrete are repeated in order from the upper layer to the lower layer.

During the backfilling process, the back earth pressure of the retaining wall is supported by the horizontal steel member and the reinforced concrete slab.

When the foundation is completed after the completion of the lowest level excavation, reinforced concrete outer wall is laid between the CIP masonry wall and the slab in a straight line manner, that is, from the lower layer to the upper layer together with the reinforced concrete portion of the column, .

Therefore, a support member for transmitting the earth pressure between the CIP earth retaining wall and the steel beam or the reinforced concrete slab is required until the outer wall of the reinforced concrete is walled up by the serration. As shown in FIG. 1, A gap 51 is provided between the wale 50 installed in the CIP concrete and the H-shaped steel 11 embedded in the CIP concrete and the gap between the CIP pile 10 and the wale 50 not filled with the H- A fitting member 52 such as a steel strip is inserted.

However, since the CIP pile 10 is formed by piercing the ground and pouring concrete thereinto as described above, the verticality of the CIP column 10 is not precise and its outer surface is uneven, The interval between the column 10 and the wale 50 is not constant throughout.

As described above, the spacing between the CIP pillars 10 is different from that of the welt 50, and the fitting 52 to be inserted into the CIP pillars 10 must be individually cut to fit the interval between the cipher pillars 50, The fitting member 52 must be welded and fixed to the wrist strap 50 in a state in which the fitting member 52 is held by a hand or a mechanism so that the fitting member 52 does not fall down. , And the hassle of such work can also lead to the construction of the bad.

KR 10-1673492 B1 KR 10-0982827 B1

The present invention has been made to solve the above-mentioned problems of the prior art, and it is an object of the present invention to provide a method of manufacturing a CIP pile, which can be used for various non- And it is an object of the present invention to provide a universal filler member.

It is another object of the present invention to provide a filler member that can be easily installed and removed, thereby reducing manpower and material costs.

According to a preferred embodiment of the present invention to solve the above-described problems, there is provided a CIP pile installed in a spacing space between a CIP pile constituting a CIP earth retaining wall and a horizontal member supporting the CIP pile, An inner support plate contacting the outer surface of the horizontal member, and an interval adjusting unit adjusting the gap between the outer support plate and the inner support plate. And a curved surface corresponding to an outer diameter of the CIP pile is formed on the front surface of the external support plate.

At this time, the spacing guide includes a first threaded rod coupled with the external support plate and having a female thread, a second threaded rod coupled with the internal support plate and having a female thread, and a second threaded rod connected to the first and second threaded rods And a rotation for adjusting the distance between the first screw rod and the second screw rod by rotation of the screw fastening system.

The inscribed support plate is temporarily fixed to the upper end of the inscribed support plate. The inscribed support plate is disposed downward in parallel with the inscribed support plate, and a clearance between the inscribed support plate and the inscribed support plate, And an adhesive pad for maximizing a ground contact area with the CIP pile may be further provided on the front surface of the external support plate.

The length of the pillar member of the present invention can be adjusted so that it can be applied not only to the space between the CIP pile and the horizontal member having various sizes but also to various surface shapes of the CIP pile due to the occurrence of the construction error. .

In addition, since the pillar member of the present invention can be freely fixed to the horizontal member even when it is not clamped between the CIP pile and the horizontal member, installation and removal operations are very easy, thereby improving the workability and minimizing the workforce So that the member can be recycled and the air can be shortened and the construction cost can be reduced.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of an earth retaining wall structure showing a state in which a fitting (filler member) according to the prior art is installed.
2 is a perspective view of a pillar member according to an embodiment of the present invention.
3 is an exploded perspective view of the pillar member.
4 is a cross-sectional view for explaining a perspective view of a pillar member provided with a tight fitting bar and a state in which the tight fitting pads are operated) according to another embodiment of the present invention.
5 is a perspective view and a cross-sectional view of a pillar member provided with a temporary fixing means according to another embodiment of the present invention.
6 is a perspective view and a cross-sectional view showing a state in which the pillar member provided with the temporary fixing means is self-supporting and temporarily fixed to the horizontal member.
7 is a perspective view and a cross-sectional view showing a state in which a filler member provided with the temporary fixing means is pressed and fixed between a CIP earth retaining wall and a horizontal member.
8 is a perspective view showing each embodiment of a swivel base provided on the pillar member of the present invention.
9 is a cross-sectional view of a pillar member of another embodiment of the present invention including a correction means for a construction error portion of the CIP pile 210 and an example using the same.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, in order to obscure or obscure the technical idea of the present invention due to the detailed description of the known structure in describing the present invention, the description of the structure of the above known structure will be omitted.

FIG. 2 is a perspective view of a pillar member 100 according to an embodiment of the present invention, and FIG. 3 is an exploded perspective view for explaining each configuration of the pillar member 100.

The pillar member 100 of the present invention is installed in the spacing space S between the CIP pile 210 constituting the CIP earth retaining wall 200 and the horizontal member 300 supporting the CIP pile 210 As shown in FIGS. 2 and 3, the outer support plate 110, the inner support plate 120, and the gap guide 130 for integrating the outer support plate 110 and the inner support plate 120 are integrated.

Here, the horizontal member 300 is located at the outer end of the slab and is installed in the longitudinal direction of the CIP earth retaining wall 200 so that the back earth pressure of the CIP retaining wall 200 can be supported by the action of the slab And the wristband mentioned in the prior art is also included in the horizontal member 300. [

The outer support plate 110 of the pillar member 100 is in contact with the outer surface of the CIP pile 210 and has a curved surface corresponding to the outer diameter of the CIP pile 210. The CIP pile 210, So that the load of the rear earth pressure transmitted through the rear surface of the vehicle can be efficiently accommodated.

  In addition, two or more supporting bars 111 may be installed on the front surface of the outer supporting plate 110 formed in the curved surface in the longitudinal direction.

4 (a) is a perspective view showing a circumscribed support plate 110 provided with a fastener 111, FIG. 1 (b) is a perspective view showing a state in which the fastener 111 is operated Fig.

Since the CIP pile 210 to which the external support plate 110 is brought into contact is constructed by placing the concrete in the perforation hole formed in the ground as described above as well as the dimension of the cross section according to the scale of the underground structure and the like, Depending on this position, it may have a different curvature.

The cushion 111 is made of an elastic material and is installed at both ends of the outer support plate 110 to fill a gap between the outer surface of the CIP pile 210 and the outer support plate 110, The pillar member 100 of the present invention can stably support the CIP pile 210.

The inner supporting plate 120 of the pillar member 100 transmits the earth pressure of the back surface of the CIP earth retaining wall 200 transferred through the spacing guide 130 to the slab in contact with the outer surface of the horizontal member 300, And has the same flat surface as the outer surface of the horizontal member 300.

The inner support plate 120 is fixedly attached to the outer surface of the horizontal member 300 by the operation of a gap guide 130 described later or before the horizontal member 300 The pillar member 100 can be easily installed.

5 to 7 illustrate an embodiment in which the temporary fixing means is provided on the inner support plate 120. FIG. 5 is a perspective view and a cross-sectional view of the pillar member 100 provided with the temporary fixing means, and FIG. 7 illustrates a process of installing the filler member 100 between the CIP earth retaining wall 200 and the horizontal member 300 using the provisional fixing means described above and FIG. 7 shows a state in which the pillar member 100 is pressed and fixed between the CIP sheathing wall body 200 and the horizontal member 300 by operating the interval adjusting member 130, which will be described later, Are perspective views and cross-sectional views, respectively, of the state of Fig.

The provisional fixing means may be used to fix the filler member 100 until the pillar member 100 is tightly fixed between the CIP pile 210 and the horizontal member 300 by the interval adjusting member 130, The pillar member 100 is caused to stand by itself until the pillar member 100 is removed in a state where the pillar member 100 is separated from the CIP pile 210 by acting on the guide 130, It is most preferable to provide a hooking hole 121 at the upper end of the inner support plate 120 as shown in FIG. 5, 100 as a temporary fixing means.

The hooking bail 121 is formed so as to be parallel to the inner supporting plate 120 so as to form a gap Δ between the inner supporting plate 120 and the horizontal supporting member 300, It is preferable that the fastening portion 121a having a screw hole is formed at the upper end portion so as to be easily replaced and the fastening portion 121a is fastened to the internal support plate 120 by screwing.

As described above, the hooking member 121 can be replaced with a standard corresponding to various thicknesses of the horizontal member 300, thereby making it possible to use the pillar member 100 widely.

The spacing guide 130 installed between the outer support plate 110 and the inner support plate 120 can adjust the interval between them so that the pillar member 100 is fixedly fixed between the CIP pile 210 and the horizontal member 300 A first screw bar 131 coupled to the external support plate 110 and a second screw bar 132 coupled to the internal support plate 120. The first screw bar 131 and the second screw bar 131 are coupled to each other, And a rotating table 133 which rotates in a screw-fastening manner with respect to each of the second screw rods 132. [

One end of each of the first screw rod 131 and the second screw rod 132 is provided with internal threads 131a and 132a and the both ends of the rotation shaft 133 are fastened to the internal threads 131a and 132a And a male screw 133a.

At this time, the female threads 131a and 132a of the first threaded rod 131 and the second threaded rod 132 are formed in opposite directions and the first threaded rod 131 and the second threaded rod 131 The second threaded rod 132 moves toward or away from each other and the gap between them is adjusted.

8 (a) and 8 (b), the center of the swivel arm 133 is formed into a polygonal cross-sectional shape, or the swivel arm 133 is provided with a tool groove 134, So that the work can be planned.

The other ends of the first screw bar 131 and the second screw bar 132 without the female screws 131a and 132a are coupled to the outer support plate 110 and the inner support plate 120, respectively.

On the other hand, the CIP pile 210 directly installed in the perforation hole of the ground may not have the same plane with respect to the vertical direction. For example, the verticality may not be exactly the same, and there may be a portion which protrudes or protrudes depending on the perforation state of the perforation hole.

Since the external supporting plate 110 contacting the above-mentioned construction error portion of the CIP pile 210 can not secure a sufficient grounding area, the stress transmission to the back earth pressure of the CIP earth retaining wall 200 can not be clearly transmitted.

Therefore, according to another embodiment of the present invention, correction means is provided to maximize the grounding area of the irregular vertical surface of the CIP pile 210 as described above, so that stress transmission by the pillar member 100 can be clearly performed.

9A is a perspective view of the pillar member 100 provided with such a correction means and FIG. 9B is a sectional view of an example of a case where the pillar member 100 is used as a construction error portion of the CIP pile 210 to be.

The correction means is configured such that the external support plate 110 is pin-coupled (P) so as to be vertically rotatable with respect to the first screw thread 131 of the rotation table 133.

Therefore, the pillar member 100 maintains a horizontal state between the CIP earth retaining wall 200 and the horizontal member 300, and the construction error such as the verticality of the CIP pile 210 constituting the CIP earth retaining wall 200 The stress is not distorted due to eccentricity with respect to the axial direction of the pillar member 100. In addition,

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the scope of the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious that it will be possible to carry out various modifications thereof. It is therefore intended that such modifications are within the scope of the invention as set forth in the claims.

100; A pillar member 110; Outer support plate
111; Tight base 120; Internal support plate
121; A foot bed 121a; The fastening portion
130; Spacing guide 131; The 1st Nasa Bong
131a, 132a; Female screw 132; The second nasa bong
133; A swivel 133a; Male thread
134; Tool groove 200; CIP Walls
210; CIP pile 300; Horizontal member

Claims (5)

The CIP pile 210 is installed in a spaced space S between the CIP pile 210 constituting the CIP earth retaining wall 200 and the horizontal member 300 supporting the CIP pile 210,
An outer support plate 110 contacting the outer surface of the CIP pile 210 and an inner support plate 120 contacting the outer surface of the horizontal member 300 and a gap between the outer support plate 110 and the inner support plate 120 (130).
The inscribed support plate 120 is fixed to the upper end of the inscribed support plate 120 by screwing and is disposed parallel to the inscribed support plate 120 and is disposed between the inscribed support plate 120 and the horizontal member 300, Is provided with a temporary fixing means composed of a hooking bed (121) configured to form a gap (DELTA)
Wherein the front surface of the outer support plate (110) is provided with two or more pieces of elastic cushion (111) of elastic material provided in a vertical direction with a curved surface corresponding to the outer diameter of the CIP pile (210) Filler member for retaining wall. The method according to claim 1,
The gap adjusting member 130 is coupled to the external support plate 110 and includes a first screw thread 131 provided with a female thread 131a and a second screw thread 132 coupled to the internal support plate 120, The first threaded rod 131 and the second threaded rod 132 are rotated by the threaded fastening method with respect to the first threaded rod 131 and the second threaded rod 132, And a swivel (133) for adjusting the interval of the pillar member. delete delete delete

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