KR20120131693A - Prefabricated block for retaining wall and method for constructing retaining wall using the same - Google Patents

Abstract

PURPOSE: A retaining wall structure with a prefabricated block for constructing a retaining wall and a construction method of a retaining wall using the same are provided to reduce construction costs by securely supporting reinforcement blocks without struts. CONSTITUTION: A retaining wall structure with a prefabricated block for constructing a retaining wall comprises a prefabricated block(100) for retaining wall construction. The prefabricated block comprises a PC(precast concrete) strut block(200) and a PC reinforcement block(300). A lower support(202) is arranged on one side of the back surface of the strut block and is coupled to the exposed end of a strut(240) fixed to a slope. End flanges(310) formed on both ends of the reinforcement block are horizontally coupled to end flanges(210) formed on both ends of the strut block.

Description

Prefabricated block for retaining wall and method for constructing retaining wall using the same}

The present invention relates to a prefabricated block for retaining wall construction and a retaining wall construction method using the same, and more specifically, to a retaining wall construction having a structure in which a brace block and a reinforcing block, which are prefabricated blocks for retaining wall construction, are fastened and firmly assembled with each other. It relates to a prefabricated block and a retaining wall construction method using the same.

In addition, because the reinforcement block, which is thinly formed and has its own weight, is connected to the support block fixed to the slope by the support beam in the transverse direction and is firmly fastened and fixed, it is not pushed toward the back so that it does not need the support beam, reinforcement and concrete On the back of the reinforcement block which has reduced the quantity by more than 30%, the retaining wall construction prefabricated block and the retaining wall construction method using the same are composed of a structure that is firmly supported even if it is filled with soil or rubble without backing beam. It is about.

In general, the retaining wall is constructed by stacking stones or stacking precast concrete retaining wall blocks (not shown) in order to prevent the collapse of soil in civil works such as fillets or cut slopes. As it is exposed to the front of the civil engineering site and its own volume is large and heavy, it is installed by fixing a brace which is buried with a predetermined length inside the sewage land or incision site to the back of the retaining wall block to prevent it from being collapsed by the load of the slope soil. do.

1 is a perspective view showing a retaining wall block in which a brace of the prior art is integrally formed.

As shown in FIG. 1, the retaining wall block 1 in which the brace of the prior art is integrally formed is a precast L-shaped retaining wall block in which the brace 2 is integrally formed at the bottom of the rear surface.

The plate-shaped brace 2 is placed on the reinforcement unit 2b for concrete mortar pouring at the retaining wall construction site in the concrete mortar placing space 4 formed at both sides and inside of the precast concrete portion 2a positioned at the center. Reinforcing bar 5 for earth pressure loads is further assembled.

Therefore, by pouring concrete coal mortar into the concrete mortar placing space 4 on both sides to which the reinforcing bar 5 of the bar unit unit 2b is connected, the wall plate 3 is collapsed by earth pressure. It has the advantage of building a retaining wall structure that can be prevented and structurally robust.

However, the retaining wall block 1 in which the brace of the prior art as described above is integrally formed is a brace 2 which protrudes on the back of the wall plate 3 and the length of the width of the wall plate 3 by a predetermined size formwork. In case of molding of precast concrete structure with length of 3m each, retaining wall construction site with 4m width of fill or cut slope, or retaining wall construction site with narrow gap between retaining wall block wall plate and slope is 2m. There was a structural problem that prevented the installation.

In other words, since there is no compatibility and installation in various retaining wall construction sites is not possible, many kinds of formwork are needed because the precast L-shaped retaining wall block (1) in which the brace is integrally manufactured must be manufactured in various sizes in advance. Since there was a problem that the pre-manufacturing cost is increased, by the brace (2) and the reinforcement unit portion (2b) formed integrally protruding on the back of the wall plate (3) is heavy and bulky, which requires a lot of storage and transportation costs There was a problem. That is, there is a problem in that the pre-fabrication cost is increased because many kinds of formwork of different forms are required to fabricate the precast L-shaped retaining wall block 1 having various different sizes.

In addition, the retaining wall block 1 in which the brace of the prior art is integrally formed as described above is difficult to be a means for enduring the load due to the slope of earth pressure by the brace 2 alone, thereby assembling the reinforcement unit 2b and the earth pressure load. Reinforcing bar (5) should be further provided, and in order to prevent the brace from being pushed toward the back by the heavy weight of the retaining wall block (1) itself formed integrally of the retaining wall block (1) As a backfilling process between the back of the wall plate (3) and the retaining wall construction site, it is necessary to pour concrete to cure the steel and concrete requirements, and the overall retaining wall construction time and costs are high.

The present invention is to overcome the above-mentioned problems, the object of the present invention can be quickly and firmly compatible construction by simple fastening assembly of the reinforcement block and reinforcement block in a variety of retaining wall construction site, the reinforcement block into a plate shape The present invention provides a prefabricated block for retaining wall construction and a retaining wall construction method using the same.

Another object of the present invention is because the reinforcement block having a light weight of its own shape is connected to the brace block fixed to the slope by the brace beam in a lateral direction so that it is firmly fastened and fixed, so that the brace beam is not deformed by being pushed toward the back side. It is to provide a prefabricated block for retaining wall construction and a retaining wall construction method using the same, which is firmly supported even if only the soil or rubble is backfilled on the back of the reinforcing block which greatly reduces the amount of reinforcing steel and concrete by more than 30%. .

The purpose of the present invention is to maintain the ground wall or cut section slope 400 to break down the bottom of the slope 400 and then sequentially assembled and laminated on the ground 440 evenly compacted retaining wall construction used for retaining wall construction In the prefabricated block 100 for the precast concrete plate, one side of the back of the precast concrete plate body is formed integrally with the lower brace portion 202 to which the exposed end of the brace beam 240 is inserted and fixed to the slope 400 is fixed Both end flanges having a shape opposite to both end flanges 210 of the bracing block 200 and horizontally connected to both end flanges 210 of the bracing block 200 to be fastened and fastened. It is achieved by the prefabricated block for retaining wall construction according to the present invention comprising a reinforcement block 300 of the precast concrete plate body 310 integrally molded and a retaining wall construction method using the same.

As described above, the retaining wall prefabricated block and retaining wall construction method using the same according to the present invention is fastened and firmly fastened and firmly assembled to each other and the reinforcing block is a prefabricated block for retaining wall construction, the thin weight is light Since the reinforcement block is connected to the reinforcement block fixed to the slope by the reinforcement beam in the transverse direction, it is firmly fastened and fixed, so it is not pushed toward the back so that the reinforcement block is not deformed. Even if the back is filled only with soil or rubble without using the support beam, it is firmly supported so that the cost of retaining wall construction is reduced.

In addition, if only two types of reinforcement block and reinforcement block are molded and manufactured, the reinforcement block and reinforcement block can be quickly and firmly installed in various retaining wall construction sites by simple fastening assembly, and the reinforcement block is lightweight and small in plate shape. The cost of storage and transportation is reduced, and only two types of formwork are required, which reduces the cost of prefabrication.

1 is a perspective view showing a retaining wall block in which a brace of the prior art is integrally formed;
Figure 2 is a perspective view showing a state in which the brace block and the reinforcement block of the prefabricated block for retaining wall construction according to an embodiment of the present invention
3 is a perspective view schematically showing a state in which a support block and a reinforcing block are assembled in a retaining wall building block according to an embodiment of the present invention;
4 is a plan sectional view schematically showing a plane taken along II ′ of FIG. 3;
Figure 5a is a side cross-sectional view schematically showing the brace block portion of the prefabricated block for retaining wall construction according to an embodiment of the present invention is installed on the slope or cut land slope
Figure 5b is a side cross-sectional view schematically showing the reinforcing block portion of the retaining wall construction prefabricated block construction installed in the land or cut slope according to an embodiment of the present invention
6 is a flow chart showing the flow of the retaining wall construction method using the prefabricated block for retaining wall construction according to an embodiment of the present invention

Hereinafter, with reference to the accompanying drawings, the retaining wall construction prefabricated block and retaining wall construction method using the same according to an embodiment of the present invention will be described in detail.

2 to 5b, there is shown a prefabricated block for retaining wall construction according to an embodiment of the present invention and a retaining wall construction method using the same.

2 is a perspective view illustrating a state in which a brace block and a reinforcing block of the retaining wall prefabricated block according to an embodiment of the present invention are separated, and FIG. 3 is a brace of the retaining wall prefabricated block according to an embodiment of the present invention. A perspective view schematically showing a state in which a block and a reinforcement block are connected and assembled.

Referring to Figures 2 and 3, the retaining wall construction prefabricated block 100 according to an embodiment of the present invention to break the bottom of the slope 400 to prevent collapse of the land or cut slope 400, etc. After the expiration date, it is assembled and stacked on the ground 440 evenly and then used for retaining wall construction. As a precast concrete plate, one side of the back surface is exposed at an exposed end of the support beam 240 inserted and fixed to the slope 400. Both sides of the brace block 200 are fastened and fixed to the brace block 200 integrally formed with the lower brace part 202 and the two end flanges 210 of the brace block 200 are horizontally connected to each other. Both end flanges 310 having a shape opposite to the end flange 210 include a reinforcement block 300 of a precast concrete plate-shaped body integrally formed.

The prop beam 240 may be used as a rod-shaped permanent anchor or small nail, rock bolt, glass fiber reinforced plastic (FRP) and the like.

Figure 4 is a cross-sectional plan view schematically showing the cut along the line II` of Figure 3, Figure 5a is a brace in the prefabricated state of the retaining wall construction prefabricated block installed on the land or cut slopes according to an embodiment of the present invention Figure 5b is a side cross-sectional view schematically showing a block portion, Figure 5b is a side cross-sectional view schematically showing a reinforcement block portion of the prefabricated block for building retaining wall construction according to an embodiment of the present invention installed on the slope or cut slope .

As shown in FIGS. 4 to 5B, both end flanges 210 of the brace block 200 are formed with female connecting portions 214 recessed in the rear.

In addition, both end flanges 310 of the reinforcement block 300 are fitted to the female connection portion 214 of the brace block 200 is formed with a male connection portion 314 concave incision in the front to be connected in the transverse direction. That is, the female connecting portion 214 of the brace block 200 and the male connecting portion 314 of the reinforcing block 300 are formed to have the same length and thickness in a direction opposite to each other.

And, one side of the back of the bracing block 200 and the reinforcing block 300 is formed with a plurality of fastening rings 220, 320 facing each other integrally, fastening of the bracing block 200 in a state of being connected to each other The fastening ring 320 of the ring 220 and the reinforcing block 300 is firmly tied and fixed by the fastening wire 325.

Concrete 460 in the rear space having an assembly block installation brace space length (D) between the lower brace portion 202 of the brace block 200 and the slope 400 firmly fixed in the ground by the brace beam 240 Filling the curing finish is a heavy weight bracing block 200 is installed is installed so as not to fall on the load of the slope 400 to earth pressure. Therefore, the earth and sand 470 or the upper space of the lower brace portion 202 of the rigidly installed brace block 200 and the back brace space of the lightweight reinforcement block 300 fixedly connected to the brace block 200. Lightweight reinforcement block 300 is installed and installed so as not to collapse under the load of the earth pressure 400 even when the rubble, concrete, etc. are filled and finished.

Retaining wall construction prefabricated block 100 according to an embodiment of the present invention by the configuration as described above is constructed to be compatible by simple fastening assembly between the support block 100 and the reinforcement block 300 in a variety of retaining wall construction site In one embodiment, the length of the horizontal width of the bracing block 200 by the formwork of a predetermined size is 3m and is formed so as to penetrate the bracing beam fastening hole 205 is inserted into the bracing beam 240 is fastened to prevent damage The thickness of the lower bracing portion 202 is molded into a precast concrete structure having a thickness of 0.5m, and the length of the horizontal width of the reinforcing block is formed of a precast concrete structure having a length of 1m and a thickness of 0.25m as an example.

In the case of the retaining wall construction prefabricated block 100 as described above, the width of the land or cut slope 400 is 4m, and the length of the back block and the rear surface of the reinforcement block 300 and the reinforcement block 300, which is an assembly block, In various retaining wall construction sites, such as a retaining wall construction site with a narrow spacing of 2m, the support block 200 having a width of 3m and the reinforcement block 300 having a length of 1m are 4m in width by simple fastening assembly. It is constructed to be compatible with the slope 400. The reinforcement block 300 is a precast concrete plate-shaped light weight (low weight) and the volume is small and the storage and transportation costs are reduced.

6 is a flow chart showing the flow of the retaining wall construction method using the prefabricated block for retaining wall construction according to an embodiment of the present invention.

Referring to Figure 6, when the retaining wall construction method using a prefabricated block for building retaining wall according to an embodiment of the present invention, first, a heavy weight bracing block 200 and a lightweight reinforcement block (auxiliary connecting block) 300 After scavenging the lower ground 440 of the slope 400, such as land or incision land so as to assemble the snow, and compacts evenly (S100).

Thereafter, the drilling hole 420 is drilled in the ground on the slope 400 by the drilling machine in place corresponding to the installation position of the support block 200 (S200).

Thereafter, the support beam 240 is inserted into the perforation hole 420, and then the grout 421 mixed with cement and water is filled in so that the support beam 240 is firmly fixed in the ground when the support beam 240 is sloped by the grout. To be made (S300).

Thereafter, the exposed end of the buttress beam 240 is inserted and connected through the buttress beam fastening hole 205 through one side of the lower buttress portion 202 of the buttress block 200 and on the ground ground 440. After placing the bracing block 200 upright, the end of the bracing beam 240 exposed to the outside of the bracing beam fastening hole 205 of the bracing block 200 is fastened and fixed (S400). That is, a wedge or a screw thread is formed at the exposed end of the prop beam 240 to be firmly fixed to the prop beam fastening hole 205 of the prop block 200 with a fastening cap 242 such as a wedge or a nut.

At this time, the bracing block 200 is formed on both sides of the flange 210, the female connection portion 214 concavely cut into the back of the bracing block 200 is formed, and concave to the front facing the bracing block 200 Both end flanges 310 of the cut-out reinforcement block 300 have a male connection part 314 connected to the female connection part 214 of the brace block 200.

Thereafter, the male connecting portion 314 of both end flanges 310 of the reinforcing block 300 is connected to the female connecting portion 214 of the both end flanges 210 of the support block 200 which is fixed on the ground 610. Inserted in order to assemble in sequence (S500).

Thereafter, the male connecting portion 314 at both ends of the reinforcing block 300 is connected to the female connecting portion 214 between the two bracing blocks 200 that are already firmly fixed in the reinforcing block sequential assembly step (S500). The fastening wires 325 are inserted into the fastening wires 220 and 320 formed at positions corresponding to each other on one side of the rear surface of the bracing block 200 and the reinforcing block 300 in a state where they are connected to each other so as not to flow. Fasten firmly to avoid (S550).

Thereafter, the support block 200 and the reinforcement block 300 are connected to each other by filling concrete in the rear space of the lower support 202 of the fastening block fastening block 200 is fixed (S600). At this time, the lower bracing portion 202 is integrally molded with a heavy weight bracing block 200 by the bracing beam 240 is firmly fixed in the ground of the slope 400 and the back filled curing 460 by the concrete 460 It is firmly supported on the ground 440 and does not collapse under load due to the earth pressure of the slope 400.

Thereafter, the support block 200 and the reinforcement block 300 are connected to each other and fastened to the upper space of the lower support portion 202 of the support block 200 fastened and fixed to the back support space of the reinforcement block 300 370) or fill the rubble and finishes (700). At this time, the reinforcement block 200, which is thinly formed and has its own weight, is rigidly connected to the brace block 200 fixed to the slope by the support beam 240 and the back-cured concrete 460 fixed to the slope. Since it is fastened and fixed, the reinforcement block 200 is not deformed by being pushed toward the rear side, and also the front part because the male connection part 314 of the reinforcement block 300 is engaged with the female connection part 214 of the brace block 200. Since it is not pushed and deformed, there is no need for the support beam 240, and the back of the reinforcing block 200, which has greatly reduced the amount of reinforcing steel and concrete by more than 30%, is firmly supported even if the soil is filled only with earth and sand 370 or rubble. Savings.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. In addition, those skilled in the art will understand that various embodiments are possible within the scope of the technical idea of the present invention.

100. Prefabricated Block 200. Bracing Block
202. Lower Bracing 205. Bracing Beam Fastening Hole
210. Flange 214. Female connection
220. Fastening ring 240. Bracing beam
242. Fastening cap 300. Reinforcement block
310. Flange 314. Male connection
320. Fasteners 325. Fasteners
400. Slope 420. Holes
421. Grout 440. Soil
460. Concrete 470. Earth and sand
D. Assembling block mounting length

Claims (6)

Retaining block prefabricated block 100 used for retaining wall construction by sequential assembly and lamination on the ground 440 which is then crushed to lower the slope 400 to prevent collapse of the land or cut slope 400, etc. To
A precast concrete plate-like support block 200 having an integrally formed lower bracing portion 202 to which the exposed end of the prop beam 240 inserted and fixed to the slope 400 is integrally formed on one side of the back surface;
Both end flanges 310 having a shape opposite to both end flanges 210 of the brace block 200 are integrally formed so as to be connected to and fixed to both end flanges 210 of the brace block 200 laterally. A prefabricated block for retaining wall construction, comprising a reinforcement block 300 of precast concrete plate-like body.
According to claim 1, Both end flanges 210 of the brace block 200 is formed with a female connection portion 214 concavely cut in the back,
Both end flanges 310 of the reinforcing block 300 is formed in the male connection portion 314 recessed concave in the front to be fitted to the female connecting portion 214 of the brace block 200 in the transverse direction,
The prefabricated block for retaining wall construction, characterized in that the female connecting portion 214 and the male connecting portion 314 of the reinforcing block 300 of the brace block 200 is formed stepped to have the same length and thickness in a direction facing each other.
According to claim 1, On one side of the back of the bracing block 200 and the reinforcing block 300, a plurality of fastening rings 220, 320 are formed integrally opposite to each other, the bracing block in a state of being connected to each other ( The fastening ring 220 and the fastening ring 320 of the reinforcing block 300 of the 200 is a prefabricated block for retaining wall construction, characterized in that the tightly fixed assembly by the fastening wire 325.
According to claim 1, Filling the concrete 460 in the rear space between the lower brace portion 202 of the brace block 200 and the slope 400 firmly fixed in the ground with the brace beam 240 finishing curing The bracing block 200 is installed and installed so as not to collapse under the load of the slope 400;
Fill the earth and sand 470 or rubble or concrete into the back space of the upper space of the lower bracing portion 202 of the bracing block 200 and the lightweight reinforcement block 300 connected and fixed to the bracing block 200. Put prefabricated block for building retaining wall, characterized in that the lightweight reinforcement block 300 is installed and installed so as not to collapse under the load of the slope 400.
A ground compaction step (S100) to dig the bottom ground 440 of the slope 400 such as a fill land or an incision to assemble the bracing block 200 and the reinforcement block 300 and insert it into the ground (S100);
A perforation step (S200) of drilling a perforation hole 420 in the ground with a perforation machine 400 in place corresponding to the installation position of the support block 200;
Inserting the prop beam 240 into the perforation hole 420 and then filling the grout 421, the prop beam installation step (S300) to be firmly installed in the ground firmly in the ground if the prop beam 240 by the grout;
The exposed end of the bracing beam 240 is inserted into and connected to the bracing beam fastening hole 205 through the bracing beam fastening hole 205 through one side of the bottom bracing portion 202 of the bracing block 200 on the bracing ground 200. After standing upright and standing, the fixing block step (S400) of the prop block 200 for fastening and fixing the exposed end of the bracing beam 240 to the bracing beam fastening hole 205 of the bracing block 200;
The male connection portion 314 of both end flanges 310 of the reinforcement block 300 is inserted into the female connection portion 214 of the both end flanges 210 of the support block 200 fixedly installed on the ground 610. Reinforcing block sequential assembly step (S500) for assembling sequentially;
A concrete backfill finishing step (S600) of filling the concrete in the rear space of the lower bracing portion 202 of the bracing block 200 in which the bracing block 200 and the reinforcing block 300 are connected and fastened to each other;
The support block 200 and the reinforcement block 300 are connected to each other and fastened to the upper space of the lower support portion 202 of the support block 200 fastened and fixed to the back support space of the reinforcement block 300 by the earth and sand 370 or Retaining wall construction method using a prefabricated block for retaining wall construction, characterized in that consisting of the earth and sand backfill finishing step (700) to fill the rubble or concrete.
According to claim 5, In the reinforcing block sequential assembly step (S500) Fastening wires to each fastening ring (220, 320) formed at positions corresponding to each other on the back side of the support block 200 and the reinforcement block 300 Retaining wall construction method using a prefabricated block for retaining wall construction, characterized in that the fastening step (S550) of the brace block 200 and the reinforcing block 300 is inserted and tied to fasten the fastening (325).

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