KR20140108506A - Retaining Wall with Self-standing Concrete Panel, and Constructing Method of such Retaining Wall - Google Patents

Abstract

The present invention relates to a retaining wall with a self-standing concrete panel and a method for constructing the same wherein a plurality of self-standing main panels each has a bottom plate and a portion coming into contact with a slope to stand by itself and utilize the weight of backfill soil filled into rear side thereof as a resisting moment for overturn, and an interlocking panel is disposed between the neighboring self-standing main panels to support the soil pressure on the rear sides thereof, thus providing stable slope reinforcing effects and making the standardization of the panels to be easy to improve the economical efficiency and constructability thereof. According to the present invention, the retaining wall includes a plurality of self-standing main panels (1) disposed in a horizontal direction thereof to allow an anchor (3) to be passed therethrough and fixedly embedded into the ground in a direction toward a slope (200), wherein each self-standing main panel (1) includes a floor plate (11), a vertical plate (10), and a slope contacted portion (12) having a slant back surface contacted with the slant surface of the slope (200), so that a backfill material is filled between the back surface of the vertical plate (10) and the slope (200).

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a retaining wall using self-supporting main panels and a construction method thereof,

The present invention relates to a retaining wall for reinforcing slopes and a method of constructing the same. More specifically, the present invention relates to a retaining wall for reinforcing slopes and a method of constructing the slopes by providing a self- And the interlocking panel which is disposed between the self-supporting main panels and supports the back earth pressure, if necessary, thereby exhibiting a stable slope reinforcement effect And a "method for constructing such a retaining wall" and a "retaining wall using a self-supporting type main panel" in which the panel is easily standardized and the economical efficiency and workability are greatly improved.

Japanese Unexamined Patent Application, First Publication No. Hei 6-17435 discloses a conventional technique for constructing a retaining wall for slope reinforcement using a concrete panel manufactured by a precast method. In reinforcing a slope (slope) using a concrete panel, as the amount of anchor reinforcement (supporting force to be reinforced by the anchor member) to be installed on the slope increases, the amount of the anchor installation work and the amount of the anchor itself required is increased , The construction cost is increased accordingly. Therefore, in order to reduce the construction cost and construct the retaining wall economically, it is desirable to minimize the amount of reinforcement of the anchor to a degree necessary for preventing and stabilizing the slope.

In the case of the concrete panel using retaining wall according to the related art, since a concrete panel having no bottom plate is used, a very large amount of anchor reinforcement is required for self-standing of the concrete panel itself. Therefore, in the prior art, the amount of anchor reinforcement required for the overall retaining wall construction is determined by the amount of anchor reinforcement necessary for self-sustaining of the concrete panel itself, regardless of the prevention of slope motion and stability, A problem of deteriorating the image quality is caused.

In case of precast concrete panel, it is factory-produced by using mold formwork. Because it takes a lot of cost to manufacture mold formwork, it is possible to standardize the size of the panel if possible and to use such standardized, This is advantageous for cost reduction and economical construction.

However, depending on the site conditions, the amount of anchor reinforcement required to prevent slope failure and stability may be smaller than the amount of anchor reinforcement required for self-supporting installation of the panel itself. In order for the panel to be self-supporting while supporting the earth pressure, at least one anchor should be reinforced on one panel. The anchor reinforcement amount necessary for slope prevention and stability may be small depending on the field situation so that the interval at which the anchors are installed in the lateral direction (the direction in which the side surfaces of the panel are connected) may be larger than the lateral width of the panel 1 . In such a case, if the anchors are arranged with a wide interval in the lateral direction in accordance with the amount of anchor reinforcement necessary for preventing slope motion and ensuring stability, there arises a problem that panels that are not reinforced by the anchors are generated. Therefore, even if the required spacing between the anchors is greater than the lateral width of the panel due to the small amount of anchor reinforcement required to prevent slope failure and stability, one panel must be reinforced with one anchor, It is inevitable that the number of anchors larger than the anchor reinforcement amount required for securing is arranged at a narrower interval than that required in the transverse direction. If the anchors are disposed at a narrower interval than the actual required, the anchors are installed more than the necessary anchor reinforcement amount, and unnecessary costs are further increased, resulting in a problem that the economical efficiency of construction is deteriorated.

On the other hand, a method of increasing the transverse width of the panel in accordance with the transverse spacing between wide anchors can be considered. However, this means that panels having new shapes and sizes must be re-manufactured, and expensive molds must be reworked And consequently, the cost for constructing the retaining wall is increased, resulting in a problem that the construction economical efficiency is very low. In other words, in the prior art, the size of the concrete panel required varies according to the site conditions, and each time a different sized mold form is required, the manufacturing cost of the mold formwork is greatly increased, The cost and the overall retaining wall construction cost are increased, so that the economical efficiency of the construction is deteriorated.

Particularly, when conveying a concrete panel using a vehicle or the like, there is a limitation on the size and scale of the conveyable concrete panel. As the lateral spacing between the anchors increases, the lateral width of the panel is arbitrarily increased. have.

As described above, in the conventional art, there is a disadvantage that it can not flexibly cope with the field situation where the lateral installation interval of an anchor actually required varies depending on the field.

Japanese Patent Application Laid-Open No. 6-17435 (published on Jan. 25, 1994).

The present invention has been developed to overcome the problems and limitations of the prior art as described above. Specifically, in the construction of the retaining wall using the precast concrete panel, the concrete panel can be self-supported, It is an object of the present invention to provide a retaining wall and a method of constructing the retaining wall which can improve the economical efficiency and the constructability of the retaining wall by minimizing the amount of anchor reinforcement to be installed on the slope, .

In order to accomplish the above object, according to the present invention, a plurality of self-supporting type main panels are disposed in a lateral direction at a position where the ground and slopes are horizontally arranged, and the anchors penetrate the self- And an outer end of the anchor is tension-fixed to the self-supporting main panel; The self-supporting type main panel includes a bottom plate placed on the ground, a plate member supporting the earth pressure, and a vertical plate integrally and vertically disposed on an upper surface of the bottom plate and formed with through holes through which the anchor passes, And a slope rear face having a sloped back face which is brought into close contact with an inclined surface of the slope, and a back filler is filled between the back face and the slope face of the slip face.

Further, in the present invention, there is provided a method of constructing a retaining wall as described above, comprising the steps of: providing a bottom plate placed on the ground; a pivoting plate formed of a plate member supporting the earth pressure and vertically arranged integrally on the top plate, And a slope contact portion provided on the back surface of the slip plane and having a sloped back face that is in close contact with a sloped surface of the slope is installed at a position where the ground and the slope are horizontally arranged horizontally horizontally ; And a step of fixing an outer end of the anchor to the self-supporting type main panel by tensioning and fixing the anchor through the self-supporting type main panel through the self-supporting type main panel and filling the space between the back surface and the slope of the self- A method for constructing a retaining wall is provided.

In the retaining wall and the construction method of the present invention as described above, in the construction in which a plurality of self-supporting type main panels are provided, the self-supporting type main panels are arranged with a spacing in the lateral direction; The interlocking panel having a plate-shaped concrete member and a concave stepped portion formed on both lateral sides of the self-supporting type main panels is positioned so that the concave stepped portion of the interlocking panel, It is possible to fit over the back edge of the main panel.

In the retaining wall and the construction method of the present invention as described above, the slope contact portion may consist of a plate member which is continuous to the back surface direction end portion of the bottom plate and is bent upwards so as to be in close contact with an inclined surface of the slope, The slope contact portion may be formed by increasing the thickness of the plate so that the end face of the bottom plate in the back surface of the slip plate corresponds to the sloped back face of the slope contact portion. Further, in the self-sustaining type main panel according to the present invention, the auxiliary wall may be integrally provided between the continuous board and the bottom board on the front surface of the continuous board.

In the retaining wall according to the present invention, the self-supporting main panel is provided with the bottom plate, so that the panel can be self-supporting independently, and thus the panel can be easily installed, and the efficiency of the retaining wall construction is greatly increased.

Particularly, in the above-mentioned self-standing main panel of the present invention, there is provided a slope contact portion which is in close contact with a slope, thereby effectively preventing the slope collapse by covering the slope contact portion of the slope, The slope can be made steeper than before, and as a result, the cut amount and the back-fill amount for the slope can be reduced, and the air and the construction cost can be reduced accordingly. Furthermore, there is an advantage that the stability of the retaining wall is greatly increased by the construction of the bottom plate and the slope-side contact portion.

Further, according to the present invention, it is possible to minimize the amount of anchors installed according to the amount of anchor reinforcement required for the activity and stability of the slope, and to normalize the self-sustaining main panel to a predetermined size, thereby improving the economical efficiency of the retaining wall construction It has the advantage of being able to. When the self-sustaining main panel is standardized as described above, it becomes possible to transport the vehicle using a general vehicle without using a special vehicle, thereby preventing an increase in transportation costs.

Further, in the present invention, an interlocking panel is disposed between self-supporting main panels capable of self-sustaining, and the anchor members installed on the self-sustaining main panels are simultaneously tensioned to maintain the stability of the panels by back- Therefore, the force in the slant direction by the anchor member acts simultaneously between the neighboring panels, thereby making the flat surfaces between the panels easy to match with each other, and the tension of the anchor member can be adjusted to a designed amount So that it is very easy to introduce them together.

FIG. 1 and FIG. 2 are schematic perspective views showing different directions in which a single-layer retaining wall is formed by an independent-type main panel and an interlocking panel according to an embodiment of the present invention.
FIGS. 3 and 4 are schematic perspective views showing different views of an embodiment of the self-supporting main panel used for constructing the retaining wall shown in FIG.
5 is a schematic cross-sectional view along line BB in Fig.
6 is a schematic cross-sectional view showing a state in which the retaining wall shown in FIG. 3 is installed on a slope;
7 is a schematic perspective view of a self-supporting main panel according to another embodiment of the present invention.
8 is a schematic cross-sectional view along line CC of Fig.
FIG. 9 is a schematic perspective view showing an embodiment of an interlocking panel used for constructing the retaining wall shown in FIG. 1. FIG.
10 is a schematic perspective view showing a state in which retaining walls according to the present invention are installed in multiple stages.
11 is a schematic cross-sectional view showing a state in which the retaining walls according to the present invention are installed in multiple stages.
Fig. 12 is a schematic view showing a force acting relationship such as a conduction moment and the like in the self-sustaining main panel according to the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the accompanying drawings. Although the present invention has been described with reference to the embodiments shown in the drawings, it is to be understood that the technical idea of the present invention and its essential structure and operation are not limited thereby.

1 and 2 are schematic perspective views showing different views of a single-wall retaining wall formed by a self-supporting main panel 1 and an interlocking panel 2 according to an embodiment of the present invention. Are shown. Figs. 3 and 4 are schematic perspective views showing different views of an embodiment of the self-supporting main panel 1 used for constructing the retaining wall shown in Fig. 1, and Fig. 5 Sectional view taken along line BB of FIG. Fig. 6 is a schematic cross-sectional view showing a state in which the retaining wall shown in Fig. 3 is installed on a slope. For reference, in describing the present invention in this specification, the direction in which the retaining wall faces the slope 200 is referred to as "back surface ", and the opposite direction is referred to as" front ".

The retaining wall 100 according to the present invention has a plurality of self-supporting main panels 1 arranged in the width direction (lateral direction) of the retaining wall, and the anchors 3 penetrate the self- And the outer end of the anchor (3) is fixed in tension on the front face of the self-supporting type main panel (1). As shown in the drawings, in the present invention, the self-supporting type main panels 1 are arranged at intervals in the lateral direction as required, and the interlocking panels 2 are disposed at the lateral intervals between the self- It can also be deployed.

First, the self-sustaining main panel 1 will be described in detail with reference to Figs. 3 to 6. Fig. The self-supporting type main panel 1 according to the embodiment of the present invention shown in Figs. 3 to 6 comprises a bottom plate 11 placed on the ground and a plate member supporting the earth pressure, And a slope contact part 12 formed on a back surface of the slip plate 10 and closely attached to a sloped surface of the slope 200. [ The self-supporting main panel 1 is a concrete member, which can be pre-manufactured in the factory in a precast manner and installed in the field. A through hole 14 is formed in the back face plate 10 in the back face direction so that the anchor 3 is inserted into the through hole 14 to penetrate the self supporting type main panel 1 in the direction of the slope face 200 .

The slope contact portion 12 is a portion having an inclined back surface tilted in accordance with an inclined angle of the slope 200, that is, a slope of the slope, wherein the self-supporting type main panel 1 is disposed in front of the slope 200 The slope contact portion 12 is brought into close contact with the surface of the slope surface 200 to cover the slope surface 200. In the embodiment shown in Figs. 1 to 6, the slope-side contact portion 12 is a plate member which is continuous to the back-direction-direction end portion of the bottom plate 11 and is bent upwards so as to be in close contact with the inclined surface of the slope 200, Lt; / RTI > However, the slope contact portion 12 may be configured in another form. 7 is a schematic perspective view of a self-supporting main panel 1 according to another embodiment of the present invention, and FIG. 8 is a schematic cross-sectional view along line CC of FIG. 6, The end surface in the back surface direction of the bottom plate 11 on the back surface of the softened plate 10 may be a shape corresponding to the inclined back surface of the slope adhered portion 12 as shown in Fig. That is, the thickness of the bottom plate 11 is increased to form the slope-side fitting portion 12 together.

Although not shown in the drawings, in the self-sustaining main panel 1 of the present invention, a bottom wall (reinforcing rib) is integrally provided between the sliding plate 10 and the bottom plate 11 on the front surface of the sliding plate 10 It is possible. The plurality of sub-walls may be provided at intervals in the lateral direction.

In order to construct the retaining wall of the present invention, a plurality of self-standing main panels 1 are arranged in the lateral direction. As described above, the retaining wall of the present invention may have a configuration in which the interlocking panel 2 is disposed between the self-supporting main panels 1 when necessary. That is, the self-sustaining main panels 1 are arranged at intervals in the lateral direction, and the interlocking panels 2 can be arranged at the lateral intervals between the self-supporting main panels 1. [ Fig. 9 is a schematic perspective view showing an embodiment of the interlocking panel 2 used for constructing the retaining wall shown in Fig. As shown in Fig. 8, the interlocking panel 2 is a plate-shaped concrete member, and on both lateral sides of the interlocking panel 2, there is formed a concave stepped portion 21 extending to the back edge of the self- The concave stepped portion 21 of the interlocking panel 2 is brought into close contact with the rear edge of the lateral edge of the self-supporting main panel 1 between the two adjacent self-supporting main panels 1, And the free standing main panel 1 is engaged with both sides of the free standing main panel 1 in the transverse direction.

In order to construct the retaining wall 100 of the present invention having such a structure, first, a slope forming operation for forming a slope 200 is performed by horizontally arranging the ground along the boundary line on which the retaining wall will be installed, and then cutting the slope. At this time, the slope 200 is formed so as to have a slope corresponding to an angle at which the slope-side fitting portion 12 of the self-sustaining main panel 1 is inclined. A plurality of self-supporting main panels 1 are arranged on the ground horizontally arranged in front of the slopes 200 formed as described above. The interlocking panel 2 is disposed at a lateral distance between the self-supporting main panels 1, and the interlocking panel 2 is provided with the recessed step (s) of the interlocking panel 2, So that the interlocking panel 2 and the self-sustaining main panel 1 are engaged with each other so that the portion 21 covers the back edge of the self-supporting main panel 1 existing on both lateral sides. The self-supporting main panel 1 and the interlocking panel 2 are manufactured at the factory and then transported to the site and installed as above. When the self-sustaining main panel 1 is installed, the slope-side contact portion 12 is brought into close contact with the slope 200 to cover the slope 200. [

After the self-supporting main panel 1 is disposed and the interlocking panel 2 is additionally disposed as described above, the panel is moved to a position at which the panel can maintain stability A primary backfill operation in which a primary backfill material 201 such as a rubble is filled in the rear surface of the flexible printed circuit board 10 up to a height and an anchors 3 are disposed through the self-supporting type main panel 1 in a slope direction, An anchor installation work for embedding one end portion of the main body 3 in the ground is carried out. At this time, the other end of the anchor 3 is exposed in front of the self-supporting main panel 1. When the interlocking panel 2 is provided, the backing material is filled on the back surface of the self-sustaining main panel 1 and the interlocking panel 2 is also filled with the backing material in the same manner.

After the anchor 3 is disposed, an anchor tensioning operation is performed in which the other end of the anchor 3 existing on the front surface of the self-sustaining main panel 1 is pulled to introduce tension to fix it on the front surface of the self- A second backfill operation is performed to fill an additional secondary backfill material 203 such as a gravel-like material in a space between the back surface of the pivoting plate 10 and the slope surface 200 above the primary backfill material 201. Of course, when performing the primary backfilling operation and the secondary backfilling operation as described above, not only the back surface of the self-supporting type main panel 1 but also the back surface of the interlocking panel 2 is coated with the primary backfill material 201 and the secondary backfill material 203). The secondary backfill material 203 filled in the back surface of the retaining wall 100 by the secondary backfill operation provides a place where trees and the like can be planted. The nonwoven fabric 202 may be disposed between the primary backfill material 201 and the secondary backfill material 203 as needed.

In this way, the retaining wall 100 according to the present invention is constructed. In the present invention, the retaining wall 100 can be installed in multiple stages.

10 and 11 are a schematic perspective view (FIG. 10) and a schematic sectional view (FIG. 11) showing a state in which retaining walls according to the present invention are installed in multiple stages. As shown in the drawing, the slopes 200 can be formed in multiple stages, and the retaining walls according to the present invention can be sequentially formed at each stage.

The self-supporting main panel 1 constituting the retaining wall 100 according to the present invention is provided with the bottom plate 11 placed on the ground, So that the work for installing the panel becomes very easy and the efficiency of construction of the retaining wall is greatly increased.

Particularly, in the self-sustaining main panel 1 of the present invention, there is a slope contact portion 12 which is in close contact with the slope 200, and the slope of the slope 200 is efficiently The inclination of the slope 200 can be made steeper than that of the previous one. If the inclination of the slope 200 is accelerated, the amount of cut and backfill with respect to the slope is reduced, and the air and the construction cost can be reduced accordingly.

Above all, the construction in which the bottom plate 11 and the slope-side fitting portion 12 are present in the self-sustaining main panel 1 of the present invention exerts an effect of greatly increasing the stability of the retaining wall. Fig. 10 is a schematic view showing the force acting relationship such as the conduction moment and the like in the self-sustaining main panel 1. Fig. As shown in the figure, in the self-sustaining main panel 1 of the present invention, there is a bottom plate 11 and a slope-side fitting portion 12, and a backfill is present on the bottom plate 11 and the slope- The tension of the backfill and the slope 200 of the slope 200 can be prevented from being applied to the bottom plate 11 and the slope contact portion 12 in a state before the tension of the anchor 3 is fixed, So that the retaining wall 100 can be maintained in a very stable state. That is, a phenomenon may occur in which the retaining wall tends to be turned in the front direction by the back earth pressure. In the present invention, the resistance moment is exerted by the weight W of the back-filling material multiplied by the horizontal length to the end of the slope- , The retaining wall 100 exhibits a large resistance against the conduction, thereby maintaining a very stable state.

In addition, when the slope contact portion 12 is present in the self-sustaining main panel 1, the horizontal earth pressure acting on the self-sustaining main panel 1 from the ground becomes small in the height section in which the slope- Not only the overall horizontal earth pressure acting on the retaining wall is reduced but also the conduction and the actuation force thereof are greatly reduced. Therefore, the scale of the retaining wall can be reduced as much as that, and the retaining wall can be constructed economically.

Meanwhile, the retaining wall 100 of the present invention may have a configuration in which the interlocking panel 2 is disposed between the self-supporting main panels 1, and the following very useful effect is exhibited through such a configuration.

As described above, it is desirable to minimize the anchor reinforcement amount to the extent necessary for preventing and stabilizing the slope in the retaining wall using the panel. That is, it is preferable that the anchor reinforcement amount required for self-standing and stabilization of the panel is made smaller than the anchor reinforcement amount required for preventing and stabilizing the slope. However, the amount of anchor reinforcement required to prevent and stabilize the slope depends on the situation of the retaining wall installation site such as the earth pressure and water pressure of the sliced slope. Therefore, the amount of anchor reinforcement required for self- In order to make it smaller than the anchor reinforcement amount required for stabilization, it is necessary to adjust the size of the panel in accordance with the situation of the retaining wall installation site.

For example, when the ground of the slope is relatively stable, the anchor reinforcement amount required for preventing and stabilizing the slope is small, so that the anchor installation interval in the lateral direction is small, while the lateral width of the panel, It is necessary to install the anchors individually on each panel in order to secure the self-standing and stability of the panel, which may result in an increase in anchor reinforcement amount required for the panel installation. In this case, the amount of anchor reinforcement required for the construction of the retaining wall is determined by the amount of anchor reinforcement required for self-standing and stability of the panel, regardless of the stability of the slope, and accordingly, the anchor reinforcement amount is increased accordingly, It will be done. To solve this problem, it is necessary to reduce the size of the panel. Since the panel is manufactured using the mold die in the factory, a new mold die is required to produce an additional small panel. However, it takes a lot of cost to produce molds.

In order to manufacture panels of various sizes, it takes a lot of time to prepare the mold formers. Therefore, it is desirable to normalize the panel for constructing the retaining wall so that the size of the panel is constant. Particularly, since there is a limitation on the size of the panels that can be loaded on the vehicle for transportation, it is not possible to enlarge the panels as much as desired, and in the case of the large panels, special vehicles must be mobilized for transportation, The panel for constructing the retaining wall needs to be standardized to a certain size.

However, as described above, in the prior art, the amount of anchor reinforcement required for self-sustaining and stabilizing the panel according to the field conditions is sometimes larger than the anchor reinforcement amount required for slope operation and stability. In this case, The size of the panel must be changed according to the needs of the site, so that it is impossible to standardize the panel. Therefore, it has been very difficult to construct an economical retaining wall suitable for the situation in the field.

In contrast, in the present invention, the retaining wall is constructed using the self-supporting main panel 1 having a structure in which the panel can self-stand independently, and the interlocking panel 2 is inserted and arranged between the self- The retaining wall is constructed by the construction. Therefore, even if a lateral installation distance of the anchors is greater than the lateral width of the self-sustaining main panel 1, the amount of anchor reinforcement required for the activity and stability of the slope varies depending on the field conditions, The size of the interlocking panel 2 and the spacing of the interlocking panels 2 are adjusted so that the size of the panel 1 is maintained as it is and the anchors are provided on each self- sustaining main panel 1, It is possible to minimize the amount of the anchors installed according to the anchor reinforcement amount. Therefore, according to the present invention, the self-sustaining main panel 1 can be standardized to a predetermined size, thereby saving the cost required to variously provide the mold form, thereby improving the economical efficiency of the retaining wall construction It has advantages. That is, in the present invention, it is possible to produce a self-supporting main panel 1 in a large quantity by using a standardized mold die instead of a die mold having various sizes, and thus the manufacturing cost of the die mold can be greatly reduced As a matter of course, it is possible to reduce manufacturing cost through production of a large-sized factory of the self-sustaining main panel (1), which is standardized, and furthermore, it is possible to transport by using a general vehicle without mobilizing special vehicles. It is possible to prevent an increase in cost.

On the other hand, in the prior art, the panels constituting the retaining walls are individually operated, and an operation for anchoring one anchor member to each panel must be performed. Accordingly, when the retaining wall is constructed according to the related art, a force in a slope direction is applied to the panel in which the anchor member is tension-fixed, but no force is applied to the neighboring panel, There is a problem that the plane between the panels does not form a flat plane, so that there is a problem that face matching does not occur, which makes it difficult to introduce the designed tension force of the anchor member.

However, according to the present invention, an interlocking panel is disposed between self-sustaining main panels capable of self-sustaining, and the anchoring members provided on the self-supporting main panels are simultaneously tensioned to maintain the stability of the panels by back- Therefore, the force in the slant direction by the anchor member acts simultaneously between the neighboring panels, thereby making the flat surfaces between the panels easy to match with each other, and the tension of the anchor member can be adjusted to a designed amount So that it is very easy to introduce them together.

1: Stand-alone main panel
2: Interlocking panel
3: Anchor
10: Opening plate
11: bottom plate
12: Slope-
100: retaining wall
200: slope

Claims (7)

A plurality of self-supporting type main panels 1 are arranged in a lateral direction at a position where the horizontally arranged ground and the slope 200 are in contact with each other, and the anchors 3 penetrate the self-supporting type main panel 1 in a slope direction, And the outer end of the anchor (3) is tension-fixed to the self-supporting main panel (1);
The self-supporting type main panel 1 includes a bottom plate 11 placed on the ground and a plate member supporting the earth pressure so as to be integrally and vertically arranged on the top surface of the bottom plate 11, And a slope contact part (12) provided on a rear surface of the slidable plate (10) and having an oblique back face which is in close contact with an inclined surface of the slope (200) Wherein a back filler is filled between a back surface of the softened plate (10) and the slope (200).
The method according to claim 1,
A plurality of self-supporting main panels (1) are arranged at intervals in the lateral direction;
The interlocking panel 2, which is made of a plate-shaped concrete member and has concave stepped portions 21 on both lateral sides thereof, is positioned in the lateral gap between the self-supporting main panels 1, 2 of the self-supporting main panel 1 are joined to each other across the back edge of the self-supporting main panel 1 existing on both lateral sides thereof.
3. The method according to claim 1 or 2,
Characterized in that the slope contact portion (12) is composed of a plate member which is continuous to the back surface direction end portion of the bottom plate (11) and is bent upwards so as to come into close contact with the inclined surface of the slope surface (200).
3. The method according to claim 1 or 2,
The slope contact portion 12 is formed by increasing the thickness of the bottom plate 11 so that the end face in the back face direction of the bottom plate 11 from the back face of the slip face plate 10 faces the inclined back face of the slope face fitting portion 12 Wherein the retaining wall is formed in a corresponding shape.
3. The method according to claim 1 or 2,
Characterized in that a wall is integrally provided on the front surface of the continuous plate (10) in the self-supporting type main panel (1) between the continuous plate (10) and the bottom plate (11).
(14) which is integrally and vertically arranged integrally on the upper surface of the bottom plate (11) and which is formed of a plate member for supporting the earth pressure and on which the anchor (3) passes, is formed on the bottom plate And a slope contact part (12) provided on a back surface of the slip surface (10) and having a sloped back surface which is in close contact with an inclined surface of the sloped surface (200) Installing a plurality of slabs in a horizontal direction and a slab surface (200) in contact with each other; And
The anchor 3 is embedded in the ground through the self-supporting type main panel 1 in the oblique direction and the outer end of the anchor 3 is tension-fixed to the self-supporting type main panel 1, And filling the space between the back surface of the slope (200) and the slope (200) with a backfill material.
The method according to claim 6,
In providing a plurality of self-supporting main panels 1,
The self-supporting main panels 1 are arranged at intervals in the lateral direction;
The interlocking panel 2, which is made of a plate-shaped concrete member and has concave stepped portions 21 on both sides in the lateral direction, is positioned in the lateral gap between the self-supporting type main panels 1, 2) are arranged so as to be engaged with and joined to the back edge of the self-supporting main panel (1) existing on both lateral sides of the recessed step portion (21).

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