KR101297832B1 - Angle controlling apparatus of retaining wall block and construction method thereof - Google Patents

Abstract

The present invention relates to a retaining wall block, the retaining wall structure comprising a plurality of retaining wall blocks provided adjacent to a cut slope and an anchor for fixing the retaining wall block to the cut slope, wherein the retaining wall structure supports the retaining wall block. Insertion rod coupled through; And the insertion rod is inserted into the end of the fastening tube having a support end that is in close contact with the cut slope; includes the inclined upper portion of the retaining wall block by adjusting the angle of the retaining wall block so as to reduce the space between the retaining wall block and the cut slope The present invention relates to an angle control device for a retaining wall block having an advantage of reducing construction period and cost since the soil amount of concrete and fill portion can be reduced, and a method of constructing a retaining wall block using the same.

Description

Angle controlling apparatus of retaining wall block and construction method

The present invention relates to a retaining wall block, and more particularly, to an angle control apparatus of a retaining wall block that can be adjusted to reduce the space between the retaining wall block and the cut slope by forming an inclination angle during construction of the retaining wall block.

In general, the retaining wall is constructed to prevent the collapse of the cut surface such as the cut slope, and means a structure that supports the earth pressure acting on the cut surface.

In general, a retaining wall is a wall that prevents soil from collapsing by resisting earth pressure, and prevents the slope of the soil cut or piled up from falling down due to the pressure of the soil. Say the wall for.

These retaining walls form formwork with rebars and panels to cut soil from construction areas or fill valleys and lower areas in mountainous areas. In addition, after the concrete is poured into the form, it is generally constructed by filling the soil and crushed stone on the rear surface thereof. However, the retaining wall of such reinforced concrete is not preferable in terms of cost and air due to molding and curing, and also to allow mechanical stress. May not be easy to secure.

In order to solve the above problems, Korean Patent Registration No. 10-1023660 has shown a retaining wall using an anchor and a concrete panel, but the retaining wall structure also has a shape of the retaining wall that is vertical and straight, so that the gap adjustment between the retaining wall and the cut surface is difficult. It becomes impossible to control the amount of backfilled concrete filled in the gap and the amount of soil that forms the fill layer on the upper part thereof, thereby increasing the construction period and cost.

In addition, the vertical and straight retaining wall structure is monotonous to the external exposed surface, thereby reducing aesthetics.

Republic of Korea Patent Registration No. 10-1023660

The present invention has been made to solve the above problems, the space between the retaining wall block and the cut slope by inclining the top of the retaining wall block toward the cut slope cut in accordance with the angle adjustment of the angle control device of the retaining wall block during construction of the retaining wall block. It is to provide an angle control device of the retaining wall block that can reduce the amount of soil in the backfill concrete and fill by adjusting the angle of the retaining wall block to reduce this.

The angle control device of the retaining wall block of the present invention as a means for solving the above problems is to support the earth pressure of the cut slope consisting of a plurality of retaining wall block is installed adjacent to the cut slope and the anchor fixing the retaining wall block to the cut slope. A retaining wall structure, comprising: an insertion rod coupled through the retaining wall block; And a fastening tube having the support rod inserted into the insertion rod and having an end thereof in close contact with the cut slope.

At this time, the insertion rod is formed with a screw thread on the outer circumference and is provided with two nuts screwed to the screw thread is arranged to fasten by placing the retaining wall block between the two nuts and one end of the rotating handle is configured to be pin coupled The fastening pipe is tubular in shape and has a thread corresponding to a thread formed on the outer circumference of the insertion rod at the inner circumference thereof, and is screwed with the insertion rod, and the support end is formed with a plurality of fixing projections toward the cut slope. to be.

In addition, at least one long hole is formed in a side of the insertion rod and two support pins are inserted in the long hole, and the support pins are disposed between the retaining wall block and the nut, respectively, between the support pin and the retaining wall block. It is characterized in that the two supporting plates are formed.

In addition, an inclined surface is formed on the bottom surface of the retaining wall block, and when the retaining wall block is installed, the retaining wall block is inclined toward the cut surface side by the inclined surface.

On the other hand, the ground on which the retaining wall block is installed is characterized in that the foundation bottom portion is further made of concrete having the shape of the cross-section "b".

In addition, a method of constructing a retaining wall block using the angle control device of the retaining wall block includes: a) forming an inclined slope by cutting the incision to be installed inclined and leveling the floor horizontally; b) perforating the cut slope to insert and anchor the anchor in the drill hole; c) installing a retaining wall block; d) adjusting and fixing the angle of the retaining wall block using the angle control device according to any one of claims 1 to 4; e) placing concrete between the retaining wall block and the cut slope; f) removing the angle control device; And g) forming a fill layer on the poured concrete.

At this time, the base bottom portion is formed in step c) and the retaining wall block is mounted on the top thereof.

In addition, after the step f) is characterized in that it further comprises the step of integrating the retaining wall block and the cut slope by introducing a tensile force to the retaining wall block by tensioning the anchor.

The angle control device of the retaining wall block of the present invention as described above, and the method of constructing the retaining wall block using the same is incision based on the angle control of the angle control device is configured so that the insertion rod and the fastening tube can be adjusted in length when the retaining wall block is constructed. By tilting the top of the retaining wall block toward the cut surface, it is possible to reduce the amount of soil in the backfilled concrete and the fill area by adjusting the angle of the retaining wall block so as to reduce the space between the retaining wall block and the cut slope. There is an advantage.

In addition, the exterior of the retaining wall block is formed three-dimensionally has the advantage of providing a stylish appearance.

1 is a perspective view showing an example in which the angle control device of the retaining wall block according to the present invention is applied to the retaining wall block.
Fig. 2 is a side sectional view of Fig. 1; Fig.
Figure 3 is an exploded perspective view of the angle control device of the retaining wall block according to the present invention.
Figure 4 is a view showing an embodiment of the angle control device of the retaining wall block according to the present invention.
5 is a view showing an example in which the base bottom portion is applied to the angle control device of the retaining wall block according to the present invention.
6a to 6i are schematic views showing a construction method of the retaining wall block using the angle control device of the retaining wall block according to the present invention.

In describing the present invention, the term or word used in the present specification and claims is based on the principle that the inventor can appropriately define the concept of the term in order to best describe the invention of his or her own. It should be interpreted as meanings and concepts corresponding to the technical idea of

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

1 is a perspective view showing an example in which the angle control device of the retaining wall block according to the present invention is applied to the retaining wall block, Figure 2 is a side cross-sectional view of Figure 1, Figure 3 is an exploded angle of the angle control device of the retaining wall block according to the present invention Perspective view. In addition, Figure 4 is a view showing an embodiment of the angle control device of the retaining wall block according to the present invention, Figure 5 is a view showing an example in which the base bottom is applied to the angle control device of the retaining wall block according to the present invention and Figures 6a to Figure 6i is a schematic diagram showing the construction method of the retaining wall block using the angle control device of the retaining wall block according to the present invention.

The retaining wall block 10 applied to the angle control device 100 of the retaining wall block 10 according to the present invention is an upper part of the retaining wall block 10 toward the cut slope S excavated and cut during construction as a precast concrete retaining wall. By adjusting the angle of the retaining wall block 10 so as to reduce the space between the retaining wall block 10 and the cut slope (S) is characterized in that it is configured to reduce the amount of soil in the backfill concrete and fill.

First, as shown in FIGS. 1 and 2, the angle control device 100 of the retaining wall block 10 is disposed so that the retaining wall block 10 installed adjacent to the cut slope S is spaced apart from the cut slope S by a predetermined distance. The retaining wall by combining the retaining wall block 10 and the head of the anchor 20 cured on the ground of the cut slope S after the angle adjustment and fixing of the retaining wall block 10 through the angle control device 100 is disposed thereafter. The block 10 and the ground can be integrated.

Specifically, the retaining wall block 10 according to the present invention is composed of the first through hole 12, the second through hole 14 and the inclined surface 16, the first through hole 12 is the retaining wall block 10 ) Is formed in the center of the second through hole 14 is formed one or more than the first through hole 12 and the inclined surface 16 is formed on the bottom surface of the retaining wall block 10, the retaining wall block The back surface of (10), that is, the length of the surface facing the cut surface (S) is short so that the retaining wall block 10 is formed to be inclined.

The anchor 20 is tensioned through the first through-hole 12 after the angle adjustment and fixing of the retaining wall block 10 through the angle control device 100, the first through-hole 12 is formed The front of the retaining wall block 10 is configured to be firmly fixed to the head of the anchor 20 by providing an anchor fixing groove 18, such as a square. At this time, the shape of the head of the anchor 20 is preferably formed in a square or the like so as to correspond to the anchor fixing groove 18 is configured to be stable stress distribution acts on the retaining wall wall when the anchor 20 is tensioned.

In addition, the retaining wall block 10 is configured as a pentagonal shape in which the shape of the longitudinal section protrudes toward the front surface as shown to induce a stable stress distribution in the retaining wall block 10 to achieve a structural stability, and the conventional It is configured to improve the aesthetics of the retaining wall structure by providing a three-dimensional feeling that can escape the flat retaining wall shape.

In particular, the retaining wall block 10 is a corner portion in contact with the cut slope, that is, the lower surface of the front surface is formed, the angle control operation of the retaining wall block 10 through the angle control device 100 will be described in detail below Based on the curved structure, ease of operation can be given.

Hereinafter, the angle control device 100 configured to control the angle of the retaining wall block 10 will be described in detail with reference to FIG. 3.

The angle control device 100 according to a preferred embodiment of the present invention passes through the retaining wall block 10 installed on the ground as described above so that a partial region is coupled to the retaining wall block 10 and the other end is supported on the cut slope S. Then, it is possible to control the inclination angle of the retaining wall block 10 by adjusting the length of the angle control device 100, the insertion rod 110 and the fastening pipe 120 is provided as a configuration to enable such a length adjustment do.

The insertion rod 110 is a rod shape as a whole and is disposed through the second through-hole 14 of the retaining wall block 10, the thread 111 is formed on the outer periphery and the two screw threaded to the thread 111 Two nuts 112 are provided, in which the retaining wall block 10 is disposed between the two nuts 112, and then by pressing on both sides of the retaining wall block 10 by tightening each nut 112. Insertion rod 110 is able to be integrated with the retaining wall block 10. Further comprises a rotary knob 113 is coupled to one end of the insertion rod 110 to rotate the rotary knob 113 during construction The insertion rod 110 is configured to interlock.

In addition, the fastening pipe 120 is formed in a hollow inside the tubular shape and the inner periphery of the screw thread 121 corresponding to the thread 111 formed on the outer periphery of the insertion rod 110 is formed, Insertion rod 110 is formed on the periphery of the thread 111 is coupled to the length of the inner circumference of the fastening pipe 120 through a screwing method. In addition, the end of the fastening pipe 120 is configured with a support end, the support end is formed by a plurality of mounting protrusions 122 facing the cut slope (S), the support end is supported on the cut slope (S) The angle control device 100 can be prevented from slipping.

As described above, the angle control apparatus 100 according to the present invention is configured to be rotatable in a state in which the insertion rod 110 installed through the retaining wall block 10 is coupled with the retaining wall block 10. The insertion rod 110 is screwed to the fastening pipe 120 end is supported on the cut slope (S) is the length of the angle control device 100 is extended and reduced as the left and right rotation of the insertion rod 110 In this case, the retaining wall block 10 which is integral with the insertion rod 110 may be able to adjust the angle as the length of the angle control device 100 is extended and reduced.

On the other hand, a variety of configurations can be applied as a means for rotating the insertion rod 110, in the present embodiment as shown as an example, the construction by configuring the rotary knob 113 is pin coupled to the insertion rod 110 By rotating the rotary knob 113, it is possible to adjust the length of the angle control device 100 and thereby control the angle of the retaining wall block 10.

In addition, the insertion rod 110 and the retaining wall block 10 have two nuts 112 to allow the insertion rod 110 and the retaining wall block 10 to be integrally operated while allowing the insertion rod 110 to rotate when fastened. The bearing 117 may be interposed between the retaining wall block 10 and the retaining wall block 10 by a nut 112 that is rotated and tightened on the front and rear surfaces of the retaining wall block 10, respectively. In addition to preventing wear of the surface of the 10, it is a means for removing the friction force generated between the nut 112 and the retaining wall block 10 during the rotation of the insertion rod (100).

Specifically, the bearing 117 is in close contact with the nut 112 and the other side is in close contact with the retaining wall block 10 while the insertion rod 100 is inserted into the inner hollow as shown in FIG. 4. Based on the configuration of the bearing 117, the nut 112 and the retaining wall block 10 are firmly coupled, but the rotation control of the insertion rod 110 can be free.

Various types of bearings may be applied in the present invention, but the preferred bearing types shown in the present embodiment include the first outer ring 117-1, the inner ring 117-2, and the second outer ring 117-as shown. It is preferable that a bearing 117 composed of 3) be applied, so that the inner ring 117-2 having a plurality of balls is disposed between the first outer ring 117-1 and the second outer ring 117-3. The rotational directions of the first outer ring 117-1 and the second outer ring 117-3 can be configured without affecting each other.

Therefore, the first outer ring 117-1 is fixed in close contact with the nut 112 and the second outer ring 117-3 is in close contact with the retaining wall block 10, so as to rotate the insertion rod 100 The control of the angle control device 100 whose length is adjusted can be facilitated, and as described above, the angle control device 100 and the retaining wall block 10 are more firmly controlled while the rotation control of the insertion rod 100 is easy. It can be combined.

At this time, the inner diameter of the bearing 117 is larger than the outer diameter of the insertion rod 110 and the outer diameter of the bearing 117 is preferably configured to be larger than the inner diameter of the second through-hole 14 of the retaining wall block 10.

Meanwhile, when the insertion rod 110 and the retaining wall block 10 are fastened, the insertion rod 110 can be rotated while the insertion rod 110 and the retaining wall block 10 are integrally configured to allow the rod to be integrally operated. ), The support pin 115 and the support plate 116 may be further provided, specifically one or more long holes 114 on the side of the insertion rod 110 is formed with a thread 111 on the outer periphery, as shown in FIG. ) Is formed to penetrate and the support hole 115 is inserted into the long hole 114.

The support pin 115 is a coupling means of the insertion rod 110 and the retaining wall block 10, if only the nut 112 is tightened in front and rear, the insertion rod 110 for adjusting the length of the angle control device 100. Rotating the nut 112 coupled to the insertion rod 110 may damage the surface of the retaining wall block 10 which is in contact with the nut 112, and is a means for preventing this.

As shown, the two holes 114 are formed to extend back and forth, respectively, in a state in which a part is included in the width range of the retaining wall block 10, and the nut 112 is tightened to closely contact the retaining wall block 10. FIG. When the support pin 115 is configured to be inserted between the front and rear surfaces of the retaining wall block 10 and each nut 112.

By doing so, the insertion rod 110 and the retaining wall block 10 are firmly fixed, and the insertion rod 110 and the retaining wall block 10 are reduced in a fixed state to reduce the cross-sectional area of the insertion rod 110. It can be free and also to facilitate the release of the nut 112 when the angle control device 100 is removed later.

In the present exemplary embodiment, two long holes 114 are formed, but in the present invention, one long hole 114 may be formed to further extend forward and backward in the width range of the retaining wall block 10.

Meanwhile, as shown, a support plate 116 is further configured between the support pin 115 and the retaining wall block 10. The support plate 116 is a plate structure in which a hollow is formed. There is no larger than the outer diameter of the insertion tube.

As described above, when the support pin 115 having a small cross-sectional area and the retaining wall block 10 are directly contacted with the nut 112, the surface of the retaining wall block 10 may be worn. By arranging between the pins 115 and the retaining wall block 10, the cross-sectional area of the retaining wall block 10 is damaged when the nut 112 for tightening the insertion rod 110 and the retaining wall block 10 is tightened. It is also possible to prevent the rotation of the insertion tube easily.

Hereinafter, an example in which the base bottom portion 200 is further configured on the bottom surface on which the retaining wall block 10 according to the present invention is installed will be described with reference to FIG. 6.

The base bottom part 200 is made of concrete, which can be manufactured by precast or site casting, and prior to installing the retaining wall block 10, the base bottom part 200 is disposed on the ground arranged horizontally, and the base bottom part is provided. The retaining wall block 10 is installed on the 200.

When the retaining wall block 10 is installed directly on the ground, the strength of the ground is not uniform, so that the load is concentrated on one side lower portion of the retaining wall block 10 so as to prevent displacement, deformation, etc. of the retaining wall block 10. It is a means.

Specifically, the retaining wall block 10 is formed in the shape of the cross section "b" at this time is configured so that the surface is bent to protrude toward the front.

In this case, the front side in the entire specification defines a direction toward the retaining wall block 10 in the retaining wall block 10 and the cut slope S.

Semi-circular grooves 202 are formed on the horizontal surface of the base bottom portion 200, which is a surface on which the bottom surface of the retaining wall block 10 is seated, and extends in the transverse direction of the base bottom portion 200, and the bottom of the retaining wall block 10 is formed. The surface is formed so that the semi-circular projections 17 corresponding to the grooves 202 is formed so that the projections 17 of the retaining wall block 10 are inserted into the grooves 202 of the base bottom portion 200.

As shown in FIG. 2, when the retaining wall block 10 is seated on the base bottom 200 based on the semicircular fastening structure formed to correspond to each other, the retaining wall block 10 may be positioned to provide an accurate placement reference. In addition, when the angle control of the retaining wall block 10 can be smoothly controlled with a small force.

Meanwhile, in the present invention, the construction method of the retaining wall block 10 using the angle control device 100 of the retaining wall block 10 is also provided. Hereinafter, the retaining wall block according to the present embodiment will be described with reference to FIGS. 6A to 6I. The construction method of 10) is explained.

First, to cut the inclined site to be inclined to be inclined to form a cut slope (S) by leveling the floor so that the retaining wall block 10 is seated.

A perforated hole is formed in the cut cut surface S, and the anchor 20 is inserted into the perforated hole to fix it. At this time, by injecting and curing the cement paste in the hole, it is possible to add a fixing force to the anchor (20).

Thereafter, the retaining wall block 10 is seated on the horizontally arranged bottom surface, wherein the bottom surface 200 described above with reference to FIG. 5 may be disposed on the bottom surface of the recess 202 of the base bottom portion 200. Since the projections 17 of the retaining wall block 10 are seated, the angle adjustment of the retaining wall block 10 can be easily performed.

Then, the retaining wall block 10 is installed in the retaining wall block 10 is fixed to the retaining wall block 10 after adjusting the angle so as to maintain a constant interval with the cut slope (S).

When the fixing of the retaining wall block 10 is completed, the concrete is poured between the retaining wall block 10 and the cut slope S. At this time, as shown in FIG. 6F, the casting of the concrete is higher than the position at which the anchor 20 is disposed. It is preferable that the angle control device 100 is poured lower than the position where it is disposed. This is to ensure the ground anchoring force of the anchor 20 and to easily remove the angle control device 100 by doing so.

After the cast concrete is cured and the ground anchoring force of the anchor 20 is secured, the angle control device 100 may be removed, and then the retaining wall block 10 and the step slope may be integrated. That is, as shown in Figure 6h by using a tensioning device or the like to tension the anchor 20 is inserted into the cut slope (S) to combine the head of the anchor 20 and the retaining wall block 10, retaining wall block ( The retaining wall block 10 can be more firmly fixed by introducing the tensile force of the anchor 20 into the retaining wall block 10 and the cut slope S.

Thereafter, the soil is deposited on top of the poured concrete layer to form a fill layer. At this time, the fill layer may be planted in consideration of natural beauty.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

10: retaining wall block 12: the first through hole
14: second through hole 16: inclined surface
17: projection 18: anchor fixing groove
20: anchor 100: angle control device
110: insertion rod 111,121: thread
112: nut 113: rotation knob
114: long hole 115: support pin
116 support plate 117 bearing
122: fixing protrusion 200: foundation bottom

Claims (5)

In the retaining wall structure for supporting the earth pressure of the cut slope consisting of a plurality of retaining wall blocks provided adjacent to the cut slope and an anchor for fixing the retaining wall block to the cut slope,
An insertion rod coupled to the retaining wall block; And
The insertion rod is inserted into the end of the fastening tube having a support end in close contact with the cut slope; including,
The retaining wall block
A slope is formed on the bottom
Angle control device of the retaining wall block, characterized in that the curved surface is formed in the corner portion in contact with the horizontal surface of the cut slope.
The method of claim 1,
The insertion rod is
A screw thread is formed on the outer circumference and pins are coupled to one end of the rotary knob. The nut is provided with two nuts screwed to the screw thread, and the retaining wall block is disposed between the nuts.
The fastening pipe is
Retaining wall block, characterized in that the tubular shape is formed on the inner periphery of the thread corresponding to the thread formed on the outer periphery of the insertion rod is screwed with the insertion rod and the support end is formed with a plurality of fixing projections toward the cut slope Angle control device.
The method of claim 2,
An angle control device for the retaining wall block, wherein a bearing is disposed between the two nuts and the retaining wall block.
delete a) cutting the incision to be inclined to be inclined and leveling the floor to form a cut slope;
b) perforating the cut slope to insert and anchor the anchor in the drill hole;
c) installing a retaining wall block;
d) adjusting and fixing the angle of the retaining wall block using the angle control device according to any one of claims 1 to 3;
e) placing concrete between the retaining wall block and the cut slope;
f) removing the angle control device;
g) Construction method of the retaining wall block using the angle control device of the retaining wall block comprising the step of forming a fill layer on the cast concrete.

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