KR101496291B1 - Apparatus of regulation interval, Retaining Wall Structure and Method thereof - Google Patents

Abstract

The present invention relates to a retaining wall constructed by using an earth anchor and a panel and, more specifically, to a panel space control apparatus for a retaining wall structure capable of stably staking the panel by enabling to control the space for a cut slope, and a retaining wall structure and a retaining wall construction method using the same. The panel space control apparatus comprises: an anchor connecting portion which is connected to an end portion of the earth anchor embedded in the ground; a panel connecting portion which is connected to the panel; and a location control element which connects two connecting portions with each other, and which controls a relative location of the connecting portions, a relative fixing location of the end portion of the earth anchor for the anchor connecting portion, or a relative fixing location of the panel for the panel connecting portion. The panel space control apparatus for a retaining wall structure can control the space of the panel for the cut slope.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a retractable wall structure and a retaining wall structure,

The present invention relates to a retaining wall constructed by using an earth anchor and a panel, more particularly, to a panel spacing adjusting device for a retaining wall structure capable of stably laminating a panel by adjusting a distance of a panel relative to a incision slope, Retaining wall structure and retaining wall construction method.

A retaining wall is a wall formed to prevent collapse of a slope, a slope, a rock, and the like formed on a residential site and a roadside by the earth pressure or the storm. The retaining wall is constructed of brick or concrete, and the concrete retaining wall structure is widely used in consideration of the scale and convenience of construction.

The concrete retaining wall is provided so as to be relatively far away from the slope or the rock to be installed in order to secure the support base due to lack of flexibility and variability corresponding to the shape of slope and rock to be installed.

Due to such characteristics, the concrete retaining wall requires a lot of work space, and the post-filling work is relatively increased, so that the construction period is prolonged and the construction cost is increased. In addition, there is a disadvantage in that partial repair of the retaining wall occurs when the retaining wall is damaged.

A method of constructing a retaining wall by using a prefabricated panel and an earth anchor has been introduced to solve the above-mentioned problems of a concrete retaining wall. One example of such a retaining wall is disclosed in Korean Patent Registration No. 1021110 (hereinafter referred to as "prior art") under the name of 'unit panel assembled retaining wall structure and construction method thereof'.

According to the prior art, there is an advantage that the prefabricated panel can be easily constructed by using the cover and the mortar, but it is difficult to adjust the interval of the prefabricated panel to the incisal slope, so there is a limit to the stable construction of the prefabricated panels. In other words, if the verticality of the panel is reduced in the structure in which a plurality of prefabricated panels are stacked, the stability of the retaining wall structure is deteriorated. In the case where it is difficult to adjust the interval between the prefabricated panel and the incisive slope as in the prior art, Verticality is not easy to maintain.

Korean Registered Patent No. 1021110 (issued on March 14, 2011)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a panel spacing adjusting device for a retaining wall structure capable of stably stacking panels so that the interval between the panel and the incision slope can be adjusted, A retaining wall structure and a retaining wall construction method.

According to an aspect of the present invention, there is provided an apparatus for separating a panel for a retaining wall structure, comprising: an anchor connection part connected to an end of an earth anchor embedded in a ground; A panel connection to the panel; And position adjusting means for connecting the two connecting portions to each other and adjusting the relative position of the two connecting portions, the relative fixing position of the earth anchor end with respect to the anchor connecting portion, or the relative fixing position of the panel with respect to the panel connecting portion, So that the interval of the panel can be adjusted.

The position adjusting means includes: an interval adjusting bolt having both ends through the two connecting portions; A connection fixing nut which is screwed to the gap adjusting bolts from the outside of the two connecting portions to fix the two connecting portions to the space adjusting bolts; And an interval adjusting nut that is positionally movably screwed outside the gap adjusting bolt between the two connecting portions to control the relative positions of the two connecting portions.

The position adjusting means includes an anchor fixing nut screwed to the end portion of the earth anchor passing through the anchor connecting portion from the inside of the two connecting portions; A panel connecting bolt having one end fixed to the panel and the other end passing through the panel connecting portion; And a panel fixing nut screwed to the other end of the panel connecting bolt passing through the panel connecting portion from the inside of the two connecting portions.

The spacing adjustment of the prefabricated panel to the incision slope is achieved through the change of the relative position of the two connections through manipulation of the connection securing nut and spacing nut.

The retaining wall structure using the panel interval adjusting device of the present invention comprises: an earth anchor embedded in a ground; A panel stacked on the front side of the incision slope; And a panel interval adjusting device installed between the incision slope and the panel to connect the panel to the earth anchor and to adjust the interval of the panel with respect to the incision slope.

The panel gap adjusting device includes an anchor connecting portion connected to an end portion of an earth anchor embedded in the ground; A panel connection to the panel; And position adjusting means for adjusting the relative position of the two connecting portions, the relative fixing position of the earth anchor end with respect to the anchor connecting portion, or the relative fixing position of the panel with respect to the panel connecting portion.

The method for constructing a retaining wall using the panel interval adjusting device according to the present invention is characterized in that in the process of laminating and assembling a retaining wall structural panel with an interval in front of a incision sloping surface, an anchor and an anchor The distance of the panel relative to the incision slope is adjusted by changing the relative position of the connecting portion and the panel connecting portion, the change of the relative fixing position of the earth anchor relative to the anchor connecting portion, or the change of the relative fixing position of the panel with respect to the panel connecting portion.

A method for constructing a retaining wall using a panel spacing adjusting device according to the present invention comprises the steps of connecting panels at the ends of an earth anchor embedded in a ground by laminating the panels in front of the incision slopes using a panel gap adjusting device; Adjusting the interval of the panel with respect to the incision slope using the panel interval adjusting device; And filling and grouting the soil between the panel and the incision slope.

According to the present invention of the present invention, it is possible to precisely adjust the interval between the panel and the incision slope according to the panel gap adjustment device for retaining wall structure structure, and the retaining wall structure and retaining wall construction method using the same, thereby stably laminating the panel. In particular, it is possible to precisely control the verticality of the panel, thereby enabling a stable retaining wall.

In addition, according to the present invention, it is possible to apply a top down method for constructing a retaining wall from top to bottom as well as from a bottom to top construction, so that a construction method suitable for various situations such as a site situation can be selected and applied .

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are views showing an example of a retaining wall constructed using a panel interval adjusting device for a retaining wall structure according to the present invention. FIG.
3 is a view showing another example of a retaining wall constructed using a panel gap adjusting device for a retaining wall structure according to the present invention.
4 is a view showing a panel connected to an earth anchor using a panel gap adjusting device for a retaining wall structure according to the present invention.
5 is a perspective view showing a part of the constitution of a panel gap adjusting device for a retaining wall structure according to the present invention.
FIG. 6 is an exploded perspective view of FIG. 5; FIG.
Figs. 7 and 8 are views showing a state in which the interval between the incision slope and the panel is adjusted by using the position adjusting means. Fig.
9 is a view showing an example of a process of constructing a retaining wall using a panel gap adjusting device for a retaining wall structure according to the present invention.
10 is a process diagram showing an example of a process of constructing a retaining wall using a panel gap adjusting device for a retaining wall structure according to the present invention.
11 is a view showing another example of a process of constructing a retaining wall using a panel gap adjusting device for retaining wall structure according to the present invention.
12 is a process chart showing another example of a process of constructing a retaining wall by using a panel gap adjusting device for a retaining wall structure according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings, in which a panel interval adjusting device for a retaining wall structure, a retaining wall structure and a retaining wall construction method using the same are described in detail. For reference, the scope of the panel in the present invention is not limited to a panel formed at a certain size in a factory but also includes various types of natural stones and artificial stones.

FIG. 1 and FIG. 2 are views showing an example of a retaining wall constructed using a panel gap adjusting device for a retaining wall structure according to the present invention.

The panel 10 is assembled and molded to a predetermined size in a factory, and is generally stacked vertically on the base portion 20, stacked in the up, down, left, and right directions. The ground anchor 40 is embedded in the ground 30 and the panel 10 is connected to the earth anchor 40 using the panel interval adjusting device 100 installed between the incision slope 50 and the panel 10 . In the process of stacking the panel 10, the soil is burnt between the panel 10 and the cut slope 50. An ecological natural stone or an artificial stone may be attached to the front surface of the panel 10. It is possible to precisely adjust the interval of the panel 10 with respect to the incision slope 50 through the panel interval adjusting device 100 so that the verticality of the panel 10 can be stably maintained. The incision sloping surface 50 may be a sloped shape as shown in FIG. 1 or a vertically sloped shape as shown in FIG.

3 is a view showing another example of a retaining wall constructed using the panel gap adjusting device for a retaining wall structure according to the present invention.

The panel 10 may be a natural stone or an artificial stone as well as being molded to a certain size in a factory. When a retaining wall is constructed using a natural stone or an artificial stone, it is not laminated vertically to the base portion 20 like a panel that can be assembled with each other, but is stacked in a stepwise manner as shown in FIG. It is possible to stably stack the natural stones or the artificial stones by adjusting the interval between the natural stones and the artificial stones with respect to the incision slopes 50 through the panel interval adjusting device 100. [ Other components are the same as in Figs. 1 and 2 except that the panel 10 uses natural or artificial stones.

FIG. 5 is a perspective view showing a part of the panel interval adjusting apparatus for the retaining wall structure according to the present invention, and FIG. 6 is a perspective view showing the panel spacing adjusting apparatus for the retaining wall structure of FIG. Fig.

The panel gap adjusting device 100 according to the present invention can securely connect the panel 10 to the earth anchor 40 and precisely adjust the interval of the panel 10 with respect to the incision slope 50. [ The panel interval adjusting device 100 includes an anchor connecting portion 110, a panel connecting portion 120, and a position adjusting means.

The anchor connecting portion 110 is connected to the end portion of the earth anchor 40 and is formed with an anchor penetrating hole 111 through which the end portion of the earth anchor 40 is threadedly inserted. A plurality of spacing adjusting bolt through holes 112 are formed spaced apart from each other while being threadedly engaged with spacing adjusting bolts 130 to be described later. At the end of the earth anchor 40, a thread is formed.

The panel connecting portion 120 is connected to the panel 10 through a panel connecting bolt (to be described later). The panel connecting portion 120 is formed with a connecting bolt through hole 121 through which the end portion of the panel connecting bolt is screwed, A plurality of spacing adjusting bolt through holes 122 are formed spaced apart from each other around the connecting bolt through hole 121 so that the plurality of spacing adjusting bolts 130 can be slidably moved without being screwed.

The position adjusting means includes an interval adjusting bolt 130, a connecting portion fixing nut 140, a spacing adjusting nut 150, an anchor fixing nut 160, a panel connecting bolt 170 and a panel fixing nut 180.

A plurality of spacing adjusting bolts 130 are provided and both ends of the spacing adjusting bolts 130 pass through the spacing adjusting bolt through holes 112 and 122 formed in the two connecting portions 110 and 120, respectively. The two connections 110 and 120 are spaced as their relative positions are changed on the spacing bolts 130 resulting in the adjustment of the spacing between the incision slopes 50 and the panel 10. [

One end of the gap adjusting bolt 130 passes through while screwing the gap adjusting bolt through hole 112 of the anchor connecting part 110 and the connecting part fixing nut 140 is screwed from the outside of the anchor connecting part 110. When the fastening state of the connecting portion fixing nut 140 is maintained, the anchor connecting portion 110 is maintained in a state of being fastened to the end portion of the earth anchor 40 without changing its position.

The other end of the gap adjusting bolt 130 slides through the gap adjusting bolt through-hole 122 of the panel connecting portion 120 without being screwed. Accordingly, when the fastening state of the gap adjusting nut 150 and the connecting portion fixing nut 140 is changed, the fastening position of the panel connecting portion 120 on the gap adjusting bolt 130 can be changed.

The connection part fixing nut 140 is closely attached to the connection parts 110 and 120 at the outer sides of the connection parts 110 and 120 to fix the connection positions of the connection parts 110 and 120. Particularly, the connecting portion fixing nut 140 is involved in changing the fastening position of the panel connecting portion 120.

The gap adjusting nut 150 is screwed to the gap adjusting bolt 130 between the two connecting portions 110 and 120 and one end of the gap adjusting nut 150 is in close contact with the inner surface of the panel connecting portion 120, Do not change. The panel connecting portion 120 is fixed on the gap adjusting bolt 130 by closely fitting the connecting portion fixing nut 140 and the gap adjusting nut 150 on both sides of the panel connecting portion 120. On the contrary, when the connecting portion fixing nut 140 is loosened, the panel connecting portion 120 can be moved to the side of the panel assembly 10, and the interval adjusting nut 150 is rotated in one direction to move toward the anchor connecting portion 110 The panel connecting portion 120 can be moved to the incision slope side.

The anchor fixing nut 160 is screwed to the end of the earth anchor 40 on the inner surface of the anchor connection part 110 and is brought into close contact with the inner surface of the anchor connection part 110 to connect the anchor connection part 110 to the earth anchor 40 ).

The panel connecting bolt 170 is for connecting the assembled panel 10 to the panel connecting part 120. One end of the panel connecting bolt 170 penetrates through the connecting bolt through hole 121 of the panel connecting part 120 while screwing the connecting bolt through hole 121, And is screwed to the panel connecting nut 190 inserted and fixed to the panel.

The panel fixing nut 180 is screwed to an end of the panel connecting bolt 170 on the inner surface of the panel connecting part 120 and is in close contact with the inner surface of the panel connecting part 120 to thereby connect the panel connecting part 120 to the panel connecting bolt 170).

7 and 8 are views showing a state in which the interval between the incision slope and the panel is adjusted using the position adjusting means.

7 (a), the gap adjusting nut 150 is rotated in one direction to move toward the anchor connecting part 110, and the panel connecting part 120 is moved toward the incision sloping surface 50 as shown in FIG. 7 (b) The panel 10 is moved toward the incision sloping surface 50 by tightly fitting the connection portion fixing nut 140 to the outer surface of the panel connection portion 120 as shown in FIG. Position. The panel 10 is moved in accordance with the degree of positional movement of the gap adjusting nut 150 screwed to the gap adjusting bolt 130 so that the minute gap between the panel 10 and the incision slope 50 can be adjusted .

The connecting part fixing nut 140 is moved to the panel 10 position as shown in FIG. 8A and the panel connecting part 120 is moved to the panel 10 side as shown in FIG. The panel 10 is brought into close contact with the panel connecting portion 120 while the interval adjusting nut 150 is rotated in the other direction toward the panel 10 as shown in FIG. 50). The panel 10 is moved according to the position of the connection nut fixing screw 140 which is screwed to the gap adjusting bolt 130 so that the minute gap between the panel 10 and the incision slope 50 can be adjusted .

FIG. 9 is a view showing an example of a process of constructing a retaining wall using a panel interval adjusting device for a retaining wall structure according to the present invention, and FIG. 10 is a process drawing showing an example of a process of constructing a retaining wall using a panel interval adjusting device for a retaining wall structure to be.

In order to construct the retaining wall, the incision slope 50 is formed by excavating or cutting the ground, and the earth anchor 40 is buried in the ground 30 (S10).

Subsequently, foundation concrete is laid on the front bottom of incision slope 50 to form foundation 20 (S20).

Next, the panel 10 is connected to the end of the ground anchor 40 embedded in the ground using the panel space adjusting device 100 while stacking the panel 10 on the base 20 (S30).

The interval between the panel 10 and the incision slope 50 is precisely adjusted by adjusting the panel interval adjusting device 100 so that the vertical degree of the panel 10 is maintained while stacking the panels 10 at step S40.

After adjusting the distance between the panel 10 and the incision slope 50, the gaps between the panel 10 and the incision slope 50 are filled with glaze (S50).

By repeating the steps S30 to S50, the construction of the retaining wall is completed. In the case where a retaining wall is constructed by using a natural stone or an artificial stone instead of the panel 10 as shown in the drawing, the same process is applied.

FIG. 11 is a view showing another example of a process of constructing a retaining wall using a panel interval adjusting apparatus for a retaining wall structure according to the present invention, and FIG. 12 is a process drawing showing another example of a process of constructing a retaining wall using a panel interval adjusting apparatus for a retaining wall structure to be.

As shown in FIGS. 9 and 10, the retaining wall may be constructed from the bottom to the top with the incision slope fully formed, but the TOP DOWN method in which the retaining wall is constructed from the top to the bottom without completely forming the incision slope Construction can be done.

In order to construct the retaining wall by the top down method, first, the ground is first excavated or cut to a certain depth from the top to form a incision slope, an earth anchor 40 is inserted into the ground 30, (S100).

Next, the panel 10 is installed in front of the incision slope 50, the panel 10 is connected to the end of the earth anchor 40 buried in the ground using the panel interval adjusting device 100, The distance between the panel 10 and the incision slope 50 is precisely adjusted by operating the apparatus 100 (S110).

After the interval of the panel 10 is adjusted, a grouting process is performed between the panel 10 and the cut slope 50 (S120). When grouting is performed, concrete or mortar is filled between the incision slopes 50 and the panel 10, so that the panel 10 is firmly fixed to the incision slopes 50 while hardening them. After the grouting, the cannon is removed (S130).

The primary assembly of the panel 10 is completed through the above process.

Subsequently, the secondary assembly of the panel 10 is performed by performing a second excavation or cutting operation at a predetermined depth from the first excavated bottom surface, and then performing the same steps as described above. The panel 10 which is firstly assembled in the second excavation or cutting operation is firmly fixed to the incision slope 50 through the panel interval adjusting device 100 and the grouting so that even if the second excavation or cutting is performed, The assembled panel 10 remains in an installed state without being collapsed.

By repeating the above process, the construction of the retaining wall is completed.

While the present invention has been shown and described with reference to certain exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the scope of the appended claims.

For example, although not shown in the drawing, the end portions of the panel connecting bolts or the earth anchors may be formed so as to be slidably passed through rather than through a threaded connection with the connecting portions. So that the connecting portion is fixed to the panel connecting bolt and the earth anchor. In this case, relative positional movement of the connection portion with respect to the earth anchor or relative positional movement of the panel with respect to the connection portion can be achieved by unscrewing or tightening the fixing nut located on both sides of the connection portion. With such a locating structure, the distance between the panel and incision slope can be precisely adjusted eventually.

10: Panel 20: Foundation
30: Ground 40: Earth anchor
50: incision slope 60: jiggle
100: Panel space adjusting device 110: Anchor connection
120: panel connecting part 130: interval adjusting bolt
140: connecting portion fixing nut 150: interval adjusting nut
160: anchor fixing nut 170: panel connecting bolt
180: Panel fixing nut 190: Panel connecting nut

Claims (8)

An anchor connection portion connected to an end portion of the earth anchor embedded in the ground where the incision slope is formed;
A panel connection to the panel; And
And a connecting nut fixing screw which is screwed to the gap adjusting bolts from the outside of the two connecting portions and fixes the two connecting portions to the gap adjusting bolts, And position adjusting means having a spacing nut that is positionally movably screwed to the outside of the bolt and controls a relative position of the two connecting portions,
The distance between the panel and the incision slope can be adjusted by adjusting the relative position of the two connection portions, the relative fixing position of the earth anchor end portion with respect to the anchor connection portion, or the relative fixing position of the panel with respect to the panel connection portion. Retaining wall structural panel spacing device. delete The method according to claim 1,
The position adjustment means,
An anchor fixing nut screwed to an end portion of an earth anchor passing through the anchor connection portion from the inside of the two connection portions;
A panel connecting bolt having one end fixed to the panel and the other end passing through the panel connecting portion; And
And a panel fixing nut screwed to the other end of the panel connecting bolt passing through the panel connecting portion from the inside of the two connecting portions. delete delete delete Connecting the panel to the end of the earth anchor embedded in the ground using the panel spacing adjusting device according to claim 1 or 3 while laminating the panel in front of the incision slope;
Adjusting the interval of the panel with respect to the incision slope using the panel interval adjusting device; And
And filling and sanding the slab between the panel and the incision slope. delete

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