KR102285192B1 - A Eco-friendly retain wall structure - Google Patents

Abstract

An eco-friendly retaining wall structure is disclosed. The retaining wall structure includes a retaining wall body formed along a rock wall or cutout, a base support block continuously disposed on the ground below the retaining wall body along the rock wall or cutout, and a base support block from the base support block to the ground below the retaining wall body. A retaining wall support part having a plurality of island support blocks spaced apart from the cut-off side and discontinuously disposed along the rock wall or along the cut-off point, and a plurality of first connecting members connecting the plurality of island support blocks and the base support block. characterized. The retaining wall structure of the present invention can promote the stability of the retaining wall structure by effectively distributing the load of the stucco part and the load of the filling soil, and it is possible to save work time and construction materials for the support structure.

Description

{A Eco-friendly retain wall structure}

The present invention relates to an environmentally friendly retaining wall structure formed on a rock wall or cut-off site.

Retaining wall structures are formed on rock walls or incisions. Retaining wall structures are made of natural stone, artificial stone, brick, concrete, etc. Patent No. 10-0657773's "Environment-friendly retaining wall structure and its construction method" describes an environmentally friendly retaining wall structure by placing stucco stone on the vertical slope of a rock wall, incision, or filling ground and then planting landscaping trees and plants. has been disclosed. The retaining wall structure is filled with infill soil after piling up the stucco wall part composed of a number of stucco connected to each other and fixed on the foundation concrete installed on the rock wall or the ground of the cut-off site high on the foundation concrete. At this time, the higher the stucco part, the wider the width of the foundation concrete can be to sufficiently support the load of the stucco wall part and the infill soil. In the field, it is common to design the width of the foundation concrete to be about 55~65% of the height of the stucco.

However, the width of the foundation concrete is designed to be 55~65% of the height of the stucco, and the amount of backfill is relatively large and the backfill load is relatively increased. may occur. Moreover, if the width of the foundation concrete is widened, the cost of reinforcing bars and ready-mixed concrete increases rapidly and the construction time increases.

An object of the present invention is to solve the above-mentioned conventional problems, and to provide an environmentally friendly retaining wall structure capable of stably supporting a retaining wall, reducing the cost of reinforcing bars and ready-mixed concrete, and reducing construction time.

An eco-friendly retaining wall structure for achieving the above-described object is provided. The retaining wall structure includes a retaining wall body formed along a rock wall or cutout, a base support block continuously disposed on the ground below the retaining wall body along the rock wall or cutout, and a base support block from the base support block to the ground below the retaining wall body. A retaining wall support part having a plurality of island support blocks spaced apart from the cut-off side and discontinuously disposed along the rock wall or along the cut-off point, and a plurality of first connecting members connecting the plurality of island support blocks and the base support block. characterized. According to such a retaining wall structure, it is possible to support more stably by distributing and supporting the load of the retaining wall body to the base support block and a plurality of island support blocks, and the base support block can be made constant regardless of the height of the retaining wall main body. , it is possible to reduce the use and construction time of rebar and ready-mixed concrete.

Since the first connecting member includes a reinforcing bar having one end supported on the base support block and the other end being reinforced on the island support block, the process of welding the first connecting member to the base support block and the plurality of island support blocks may be omitted. can

The plurality of island support blocks extend downward and include lower fixing members inserted into the ground, thereby effectively fixing the island support blocks to the ground.

The retaining wall body includes a stucco wall part composed of a plurality of stucco stones disposed at a predetermined distance from the rock wall or the incision site, and a filling part filling the gap between the stucco wall part and the rock wall or the incision site, wherein the stucco wall part comprises the By being located within the width of the base support block, the load of the stucco part can be supported by concentration with the base support block.

The retaining wall body includes a plurality of rear supports that are spaced apart from the stucco and are discontinuously disposed along the rock wall or cutout, and a second connecting member connecting the rear support and the stucco, so that the stucco is a rock wall or It can increase the resistance against the force away from the incision.

It is preferable that the interval of the first connecting member be narrower than the interval of the second connecting member.

The retaining wall structure according to an embodiment of the present invention can stably support the retaining wall even when the height of the retaining wall body increases, reduce the cost of rebar and ready-mixed concrete, and reduce construction time.

1 is a cross-sectional view showing a cross section of a retaining wall structure according to a first embodiment of the present invention, and
2 is a view showing a retaining wall support of a retaining wall structure according to a first embodiment of the present invention;
3 is a diagram showing a displacement vector of a retaining wall structure according to a first embodiment of the present invention;
4 is a view showing a retaining wall support of a retaining wall structure according to a second embodiment of the present invention;
5 is a view showing a retaining wall support of a retaining wall structure according to a third embodiment of the present invention;
6 is a view showing a cross-section of a retaining wall structure according to a fourth embodiment of the present invention, and
7 is a plan view showing the rear support of the stucco of the retaining wall structure according to the fourth embodiment of the present invention.

Hereinafter, the retaining wall structure 1 according to embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view showing a cross section of a retaining wall structure 1 according to a first embodiment of the present invention. As shown, the retaining wall structure 1 includes a retaining wall body 100 and a retaining wall support 200 .

The retaining wall body 100 includes a stucco wall unit 110 disposed on the front surface at a predetermined distance to a rock wall or a cutout (hereinafter referred to as 'rock wall 10'), and between the stucco wall unit 110 and the rock wall 10 . It includes a plurality of grid-like geogrids 130 disposed in the height direction of the filling portion 120 and the filling portion 120 of the.

The stucco part 110 is configured by stacking a plurality of stucco stones 112-1 to 112-4 on the front side. Stucco stone (112-1~112-4) is constructed based on Onyangseok, and if unavoidable, it can be replaced with Boryeongseok and Ganghwaseok. In principle, the size of the stucco stone (112-1~112-4) is to use and construct a blast stone of 1.5M or more. Of course, the stucco (112-1 to 112-4) may be applied to bricks, artificial stone, or the like. Stucco (112-1 to 112-4) includes a plurality of coupling anchors 114 for mutual coupling. The coupling anchor 114 includes an anchor bolt for coupling with the set anchor integrated into the stucco. The coupling anchor 114 is integrated by penetrating one end of the set anchor after drilling (10 cm in depth) in the stucco with a drill. At this time, the penetration portion is coated with epoxy to prevent rainwater inflow. When connecting stucco and stucco, connect anchor bolts to the set anchors of each stucco by arc welding. At this time, in order to facilitate welding, it is given priority to arrange welding up and down, and the welding length is calculated separately according to the diameter and tensile force of the applied anchor bolt. After joining anchor 114, the welding part is coated with epoxy to prevent corrosion. The lowermost stucco (112-1 to 112-4) placed on the base support block 210 of the retaining wall support 200 to be described later is primarily supported by being partially buried in the base support block 210, and secondarily The base support block 210 is supported by a support member 116 that connects the reinforcing bar 212 and the anchor set of the coupling anchor 114 to each other by welding. In the gap between the stucco, ground cover plants and shrubs are planted and sufficient irrigation is carried out for the prevention of soil runoff and the aesthetics of ECO-BELT (environmentally friendly retaining wall). Injectable shrubs and ground cover plants include azaleas, boxwoods, rhododendrons, and rhododendrons.

As shown in FIG. 1, the stucco part 110 is formed by stacking stucco stones 112-1 to 112-4 in four layers in the height direction, and transversely along the rock wall 10, a plurality of stucco stones ( 112-1~112-4) are arranged side by side. However, the stucco portion 110 is not limited to four stucco layers and may be more or less.

After the filling part 120 is backfilled using sandy soil with good drainage between the stucco wall part 110 and the rock wall 10, a compactor (1.50 ton) or vibration to prevent an increase in bearing capacity and subsidence of the ground Compaction with a roller. If the compaction equipment enters and cannot work due to the narrow space, such as for rock bolt construction, compaction with water or other methods such as water compaction depending on the site conditions to secure the degree of compaction. The backfilling part 120 is formed by mixing a backfill material made of gravel, artificial stone, natural stone, blasting stone, etc. alone or with soil, if necessary. The filling part 120 inserts and arranges the geogrid 130 after the compaction process in the middle.

The geogrid 130 is used to reinforce the backfill used as the filling part 120, and is made of a lattice structure using a polymer material. The geogrid 130 is arranged for each stucco layer, but one side is fixed to the stucco stone 112-1 to 112-4.

2 is a view showing the configuration of the retaining wall support 200 according to the first embodiment of the present invention. The retaining wall support 200 is a base support block 210 mainly supporting the load of the stucco part 110 , a plurality of island support blocks 220 and a base support block 210 mainly supporting the load of the filling part 120 . ) and a first connecting member 230 for connecting the island support block 220 . Of course, the base support block 210 supports the load of the filling part 120 in addition to the load of the stucco part 110 . In addition, the load of the filling part 120 is supported by some ground in addition to the island support block 220 .

The base support block 210 is arranged to extend continuously to the ground below the retaining wall body 100 along the rock wall 10 . The width of the base support block 210 is set to, for example, 2.5 m regardless of the height of the stucco portion 100 . Of course, if the decorative wall portion 100 is too high, the width may be slightly increased, but it is not necessary to maintain 55 to 65% of the decorative wall portion 100 height as in the prior art. The base support block 210 is made of concrete, natural stone, blasting stone, artificial stone, or the like. The base support block 210 supports the lowermost stucco stones 212-1 thereon. The lowermost stucco stones 212-1 are partially inserted and fixed together when the base support block 210 is constructed. The base support block 210 includes a plurality of cross-reinforced reinforcing bars 212 and a support protrusion 214 buried under the ground. The stucco portion 110 is preferably disposed in the base support block 210 as much as possible. The support protrusion 214 prevents the base support block 210 from moving in a direction away from the rock wall 10 by resisting the force directed toward the surface of the ground.

A plurality of island support blocks 220 are discontinuously disposed along the rock wall 10 between the base support block 210 and the rock wall 10 in the ground below the retaining wall body 100 . The island support block 220 may be made of a 'T' shape to effectively resist the rolling earth pressure using concrete, natural stone, blasting stone, artificial stone, or the like. The island support block 220 includes a plurality of cross-reinforced reinforcing bars 222 . The island support block 220 is connected to the base support block 210 by the first connecting member 230 . The plurality of island support blocks 220 are connected to each other by a second connecting member 240 .

The first connecting member 230 is a metal bar such as a reinforcing bar, and both ends are welded to the reinforcing bar 212 of the base support block 210 and the reinforcing bar 222 of the island support block 220 . The distance d1 between the first connecting members 230 connecting the base support block 210 and each island support block 220 is set to, for example, 1.5 m.

The second connecting member 240 is a metal bar such as a reinforcing bar, and both ends are welded to each reinforcing bar 222 of two adjacent island support blocks 220 .

The coupling anchor 114 , the support member 116 , and the first and second connection members 230 and 240 are exposed to the soil as reinforcing bars. In soil, the average corrosion rate of reinforcing bars is 0.02mm/year, and corrosion of about 2mm occurs when 100 years is 100 years.

3 is a diagram showing a displacement vector of the retaining wall structure 1 according to the first embodiment of the present invention. As shown, the retaining wall support 200 intensively supports the load of the stucco part 110 on the base support block 210 side, and the load of the filling part 120 intensively on the island support block 220 side. supported by That is, the base support block 210 and the island support block 220 distribute and support the load of the retaining wall body 100, thereby exhibiting a more stable support function. Since the retaining wall body 100 receives the load of the stucco part 110 and the base support block 210 receives resistance by the island support block 220 receiving the load of the filling part 120, It can increase its stability against force. In particular, the first connecting member 230 that connects the base support block 210 and the island support block 220 generates a deformation in response to a load distributed to each other, thereby resisting but preventing mutual influence.

4 is a view showing the retaining wall support 200 of the retaining wall structure according to the second embodiment of the present invention. Descriptions of the same parts as those of the first embodiment will be omitted.

As shown, in the island support block 220 , two island support blocks 220 - 1 and 220 - 2 are arranged side by side toward the rock wall 10 . A plurality of the two island support blocks 220 - 1 and 220 - 2 are arranged side by side along the rock wall 10 . Although two island support blocks 220-1 and 220-2 are arranged toward the rock wall 10 in FIG. 2, three or more may be arranged. The plurality of island support blocks 220 - 1 and 220 - 2 are connected to each other by second and third connecting members 230 - 2 , 240 - 1 and 240 - 2 .

5 is a view showing the retaining wall support 200 of the retaining wall structure according to the third embodiment of the present invention. Descriptions of the same parts as those of the first embodiment will be omitted.

As shown, the first connecting member 230 reinforces one reinforcing bar from the base support block 210 to the island support block 220 and then pours concrete. In this way, when the base support block 210 and the island support block 220 are connected using an integral reinforcing bar, they are coupled more firmly and the welding process can be omitted, thereby shortening the construction time.

The island support block 220 includes a lower fixing member 224 protruding toward the ground. The lower fixing member 224 can be easily made by forming the island support block 220 after reinforcing at least one vertically arranged reinforcing bar included in the island support block 220 to protrude downward. The lower fixing member 224 allows the island support block 220 to sufficiently resist the force of the base support block 210 moving away from the rock wall 10 .

The base support block 210 and the island support block 220 are respectively formed to have inclined surfaces 216 and 226 that extend upward as the distance from the rock wall 10 increases. The inclined surfaces 216 and 226 extending upward as the distance from the rock wall 10 increases, the load applied by the stucco part 110 and the filling part 120 functions to approach the rock wall 10 closer.

The resistance to the force away from the rock wall 10 and the load acting closer to the rock wall 10 as described above play a large role in the stability of the retaining wall structure (1). In particular, by making the width of the base support block 210 constant regardless of the height of the retaining wall body 100, ready-mixed concrete can be saved and concrete curing time can be saved.

6 is a view showing a cross-section of a retaining wall structure according to a fourth embodiment of the present invention, and FIG. 7 is a plan view showing a stalactite rear support portion of the retaining wall structure. Descriptions of the same parts as those of the above-described embodiment will be omitted.

As shown, the filling part 120 includes a stucco back support part 150 connected by a fourth connecting member 140 instead of the grid-like geogrid 130 .

The stucco back support 150 is arranged for each stucco (112-1 to 112-4). Of course, the rear support 150 may be arranged at regular intervals regardless of the stucco.

The fourth connecting member 140 is welded to the set anchor of the stucco (112-1 to 112-4) and the reinforcing bar of the stucco back support (150).

The stucco back support 150 arranged for each stucco layer concentrates the load of the filling part 120 step by step for each layer, and finally transmits it effectively to the island support block 220 disposed on the ground. Since the load of the filling part 120 is finally concentrated on the island support blocks 220 arranged side by side along the rock wall 10, the distance d1 between the island support blocks 220 is the distance between the stucco back support part 150. It is preferable that it is narrower than (d2). As such, the stucco back support 150 reduces the load applied to the backfill 120 to the base support block 210 .

1: Retaining wall structure
10: rock wall or incision
100: retaining wall body
110: stucco part
112-1~112-4: Stucco
114: coupling anchor
116: support member
120: infill
130: geogrid
140, 230, 240: connecting member
150: stucco rear support
200: retaining wall support
210: base support block
220: island support block

Claims (6)

In the retaining wall structure,
a retaining wall body formed along a rock wall or an incision;
A base support block continuously disposed on the ground under the retaining wall body along the rock wall or the cutout, and spaced apart from the base support block on the ground under the retaining wall body toward the rock wall or the cutout, and discontinuously disposed along the rock wall or cutout a retaining wall support having a plurality of island support blocks, and a plurality of first connecting members connecting the plurality of island support blocks and the base support block,
The first connecting member includes a reinforcing bar having one end reinforced to the base support block and the other end being reinforced to the island support block,
The plurality of island support blocks extend downward and include a lower fixing member inserted into the ground,
The lower fixing member includes at least one vertically arranged reinforcing bar included in the island support block and reinforced to protrude downward,
The retaining wall body includes a stucco wall part composed of a plurality of stucco stones disposed at a predetermined distance from the rock wall or the incision site, and a filling part filling the gap between the stucco wall part and the rock wall or the incision site,
Retaining wall structure, characterized in that it further comprises a support member between the rock wall or the cutout and the stucco, one end supported by the stucco and the other end supported by the reinforcing bar reinforced in the base support block. delete The method of claim 1,
Retaining wall structure, characterized in that the stucco portion is located within the width of the base support block. 4. The method of claim 3,
The retaining wall body comprises a plurality of rear supports that are spaced apart from the stucco and are discontinuously arranged along the rock wall or cutout, and a second connecting member connecting the rear support and the stucco. . 5. The method of claim 4,
Retaining wall structure, characterized in that the interval of the first connecting member is narrower than the interval of the second connecting member. The method of claim 1,
Retaining wall structure, characterized in that it further comprises a third connecting member for interconnecting the plurality of island support blocks.

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