KR102118665B1 - Retaining wall and method for constructing the same - Google Patents

Abstract

The present invention relates to a prefabricated retaining wall for site enlargement and a construction method thereof. The present invention comprises: a foundation part constructed along an edge of a site to be enlarged; retaining wall blocks horizontally arranged in a row along the foundation part; creeping prevention stakes fixating the retaining wall blocks in the ground of the site from back sides of the retaining wall blocks; a connection steel bar connecting the back sides of the retaining wall blocks to each other; and a plurality of unit top slabs mounted on upper end portions of the retaining wall blocks to form a plane, wherein the retaining wall block includes: a base plate part having uniform thickness and area; a support bar part formed to extend from the base plate part with a set length and having, at an end portion, a fixation hole which the creeping prevention stack penetrates; a connection protrusion part from which the back side of the base plate part extends and protrudes and which has a connection hole therein which the connection steel bar penetrates. The present invention can rapidly perform construction for enlargement of a site such as a road, a complex, etc., and also firmly support the enlarged site even if a pressure is applied thereto.

Description

Prefabricated retaining wall for site expansion and its construction method {RETAINING WALL AND METHOD FOR CONSTRUCTING THE SAME}

The present invention relates to a prefabricated retaining wall for site expansion and a construction method therefor.

In order to make efficient use of land, retaining walls are constructed on the embankments and incisions of roads and complexes, river embankments, coastal roads, and slopes of residential areas. When constructing a retaining wall, the concrete retaining wall is mainly constructed through the construction of pouring concrete in the field. In general, the construction of concrete retaining walls by pouring the site goes through processes such as ground excavation, formwork installation, foundation concrete pouring, backfilling construction, and surrounding pavement restoration. However, this method of retaining wall construction requires the time to install and dismantle the formwork, and it takes time to cure the concrete after pouring the concrete, so construction work is prolonged and the construction cost is prolonged. There is a disadvantage that increases.

It is an object of the present invention to provide a prefabricated retaining wall for site extension and a construction method therefor for building a site expansion of a road, a complex, etc. within a short period of time.

Another object of the present invention is to provide a prefabricated retaining wall for extending a site and a construction method thereof, which is firmly supported without being pushed even when pressure is applied to the extended site.

In order to achieve the object of the present invention as described above, the base portion constructed along the edge of the site to be expanded; Retaining wall blocks arranged in a row in the horizontal direction along the foundation; A push-prevention pile for fixing the retaining wall block to the ground of the ground from the rear side of the retaining wall block; A connecting reinforcing bar connecting the rear surfaces of the retaining wall blocks; The retaining wall blocks include a plurality of unit upper slabs which are mounted on the upper end of the retaining wall blocks to form a flat surface, and the retaining wall blocks are formed to extend to a base plate portion having a uniform thickness and area and to a length set on the rear surface of the base plate portion and to the end portion. A prefabricated retaining wall for site extension is provided, including a support bar part with a fixing hole through which a push-prevention pile is penetrated, and a connecting protrusion having an extension protrusion protruding on the rear surface of the base plate part and having a connection hole through which the connecting reinforcing bar penetrates. do.

It is preferable that the foundation portion includes a plurality of foundation piles embedded in the ground at predetermined intervals and foundation blocks connecting the upper ends of the foundation piles.

The foundation portion may include a concrete foundation poured on the ground, and reinforcing bars reinforced inside the concrete foundation.

The base plate portion has a square plate shape, and the support bar portion is formed to extend from the upper middle of the rear surface of the base plate portion. It is preferred that the cross-sectional shape is square.

It is preferable that support grooves for supporting the edges of the unit upper slab are respectively provided at the upper edge of the rear surface of the base plate and the upper edge of the support bar.

In addition, the step of constructing the foundation along the edge of the site to be expanded; Installing retaining wall blocks in a line along the foundation; Fixing the retaining wall block with a jungle prevention pile; Connecting the retaining wall blocks to each other with a connecting reinforcing bar; Backfilling the rear side of the retaining wall blocks with soil; Provided is a prefabricated retaining wall construction method for expanding a site, comprising the steps of arranging and reversing unit upper slabs on top of the retaining wall blocks.

The retaining wall block includes a base plate portion having a uniform thickness and area, a support bar portion formed to extend to a length set on the rear surface of the base plate portion and provided with a fixing hole through which the pushing prevention pile is penetrated, and a rear surface of the base plate portion. It is preferable to include a connection protrusion having an extension protrusion and a connection hole through which the connection reinforcing is provided.

The present invention is to install the foundation on the edge of the site to be expanded and install the retaining wall blocks that have been manufactured and transported in the factory to the foundation, thereby eliminating on-site pouring of the retaining wall, thus simplifying construction and shortening the construction period, thereby reducing construction costs. do.

In addition, the present invention is to install the foundation on the edge of the site to be expanded, install the retaining wall blocks provided with a base plate portion vertically located on the base portion and a support bar portion vertically located on the base plate portion, and pushed on the support bar portion Since the prevention pile is penetrated and fixed to the ground, and retaining wall blocks are connected by connecting rebars, and the unit upper slabs are overlaid on the base plate part and the support bar part of the retaining wall block, the inclined part of the edge of the site to be expanded is extended to the same height as the other parts. As a result, the utilization of the site is increased, and the expanded area is rigid, so that even when pressure is applied to the extended area, it is firmly supported without pushing.

In addition, the present invention includes a base plate portion in which the retaining wall block is positioned in the vertical direction, and a support bar portion formed to be extended to a length set on the rear surface of the base plate portion, so it is possible to freely set the expansion area and height of the site to be expanded You can increase your sex.

1 is a side cross-sectional view showing a prefabricated retaining wall for site extension according to the present invention,
Figure 2 is a plan view showing a prefabricated retaining wall for site expansion according to the invention,
Figure 3 is a front view showing a prefabricated retaining wall for site extension according to the invention,
Figure 4 is a side view showing a second example of the foundation constituting the prefabricated retaining wall for site expansion according to the invention,
5 is a perspective view showing a retaining wall block constituting a prefabricated retaining wall for site extension according to the present invention;
Figure 6 is a flow chart showing an embodiment of a prefabricated retaining wall construction method for site extension according to the present invention.

Hereinafter, an embodiment of a prefabricated retaining wall for expanding a site and a construction method thereof according to the present invention will be described with reference to the accompanying drawings.

1 is a side cross-sectional view showing a prefabricated retaining wall for site extension according to the present invention. 2 is a plan view showing a prefabricated retaining wall for site extension according to the present invention. Figure 3 is a front view showing a prefabricated retaining wall for site expansion according to the present invention.

As shown in Figures 1, 2, 3, one embodiment of a prefabricated retaining wall for site extension according to the present invention, the base portion 10, retaining wall blocks 20, the anti-pile stake 30, connecting rebar (40), the unit upper slab (50).

The base portion 10 is constructed along the edge of the site to be expanded. As a first example of the foundation portion 10, the foundation portion 10 is a pile connecting member 12 that connects a plurality of foundation piles 11 embedded in the ground at predetermined intervals and upper ends of the foundation piles 11 It includes. The foundation pile 11 is preferably a H beam that is a H shape that is a cross-sectional shape. The foundation piles 11 are arranged in a line at the edge of the site to be expanded. The pile connecting member 12 connects the upper ends of the foundation piles 11. As an example of the pile connecting member 12, the pile connecting member 12 includes an H beam having a cross-section H shape. The pile connecting member 12 is positioned in the horizontal direction so that the upper end of the foundation piles 11 is inserted into the lower open groove and the lower end of the retaining wall block 20 is inserted into the lower open groove. As another example of the pile connecting member 12, the pile connecting member 12 may be a concrete bar having a cross-section or a H-shaped cross-section. The first example of the base portion 10 is preferably applied when the ground is weak. As a second example of the foundation part 10, as shown in FIG. 4, the foundation part 10 is a concrete foundation 13 placed on the ground, and a reinforcing bar 14 reinforced inside the concrete foundation 13 Includes The concrete base 13 is preferably constructed in a straight shape along the edge of the site to be expanded. The second example of the base portion 10 is preferably applied in the case of a hard ground including rock.

The retaining wall blocks 20 are arranged in a line in the horizontal direction along the base portion 10. As an example of the retaining wall block 20, the retaining wall block 20 is formed to extend to a base plate portion 21 having a uniform thickness and area, and to a length set on the rear surface of the base plate portion 21, and to prevent a slipping pile ( 30) is provided with a connecting hole (3) through which the connecting bar (40) extends and protrudes on the back of the base plate part (21) and the supporting bar part (22) provided with a fixing hole (2) through which it penetrates. It includes a projection (23). As an example of the base plate portion 21, the base plate portion 21 is preferably in the shape of a square plate that is a straight plane, and the support bar portion 22 is formed to extend from the upper middle of the back surface of the base plate portion 21. It is preferred that the cross-sectional shape is square. The base plate portion 21 is positioned in the vertical direction, and the lower surface of the base plate portion 21 is supported on the base portion 10. The support bar portion 22 is positioned in the horizontal direction so as to be perpendicular to the rear surface of the base plate portion 21. The fixing hole 2 is formed at the end of the support bar 22, and is the opposite end where the base plate 21 is located. The upper surface of the base plate portion 21 and the upper surface of the support bar portion 22 are preferably coplanar. The connecting projection 23 is extended to the rear surface of the base plate portion 21 so as to be located below the support bar portion 22, but the upper end is preferably projected to be extended to connect with the support bar portion 22, and the connection hole 3 is It is formed through the connecting projection 23 in the horizontal direction. The fixing hole 2 formed in the support bar portion 22 is preferably formed in the vertical direction. On the other hand, the fixing hole 2 of the support bar 22 may be formed to be inclined with respect to the vertical direction so that the push-prevention pile 30 is inclined on the ground. At this time, the center line of the fixing hole 3 is inclined in a direction parallel to the base plate portion 21. It is preferable that support grooves 4 for supporting the edges of the unit upper slab 50 are respectively provided at the upper edge of the rear surface of the base plate portion 21 and the upper edge of the support bar portion 22, respectively. The support groove 4 is preferably formed in a cross-sectional shape of a needle shape. A plurality of drain holes 5 are provided in the base plate portion 21. The base plate portion 21 may have a rectangular plate shape, but may also be formed in a curved shape. When the base plate portion 21 is formed of a curved plate, the retaining wall has a curved surface. As another example of the base plate portion 21, the upper and lower surfaces are straight planes, and both side surfaces may be formed of convex curved surfaces and oval curved surfaces or plural convex square protrusions and multiple concave square grooves, which can be molded to each other. . It is preferable that the retaining wall block is manufactured by formwork in a factory.

The jungle prevention pile 30 fixes the retaining wall block 20 to the ground of the ground from the rear side of the retaining wall block 20. The anti-slip pile 30 penetrates through the fixing hole 2 of the support bar 22 of the retaining wall block 20 and fixes the retaining wall block 20 to the ground by being driven into the ground.

The connecting reinforcing bars 40 connect the rear surfaces of the retaining wall blocks 20. The connecting reinforcing bars 40 have a set length, and the connecting reinforcing bars 40 are coupled to penetrate the connecting holes formed in each connecting protrusion 23 of the retaining wall blocks 20 to connect the retaining wall blocks 20 to each other. At this time, the connecting reinforcing bar 40 is located in the horizontal direction.

The unit upper slabs 50 are mounted on the upper end of the retaining wall blocks 20 to form a flat surface. As an example of the unit upper slab 50, the unit upper slab 50 is preferably formed in a square plate shape having a uniform thickness. The unit upper slab 50 is located between the supporting bar portions 22 of the two retaining wall blocks 20 adjacent to each other, so that the rim of the unit upper slab 50 and the supporting groove 4 of the two supporting bar portions 22 The two base plate portions 21 are inserted into the support grooves 4 on the upper surface and supported on the bottom surface of the support grooves 4.

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

As shown in FIG. 6, in one embodiment of the method of constructing a retaining wall for expanding a site according to the present invention, first, a step (S1) of constructing the foundation 10 along the edge of the site to be expanded is performed. . As a first example of constructing the foundation portion 10, the foundation portion 10 is provided with a plurality of foundation piles 11 in a row at a predetermined interval, and the upper ends of the foundation piles 11 are pile connecting members 12 ). The foundation pile 11 is preferably H beam. The pile connecting member 12 is as described above. As a second example of constructing the foundation part 10, the foundation part 10 digs on the edge of the site to be expanded, installs a formwork in the dig area, reinforces the reinforcement inside the formwork, and then pours concrete and cures it. Order. When the formwork is separated from the cured concrete furnace, it becomes a concrete base 10 having a uniform width and length.

After the foundation 10 is constructed, a step S2 of installing retaining wall blocks 20 in a line along the foundation 10 is performed. The retaining wall block 20 is manufactured at the factory and transported to the construction site. As an example of the retaining wall block 20, the retaining wall block 20 is formed to extend to a base plate portion 21 having a uniform thickness and area, and to a length set on the rear surface of the base plate portion 21, and to prevent a slipping pile ( 30) is provided with a connecting hole (3) through which the connecting bar (40) extends and protrudes on the back surface of the base plate part (21) and the supporting bar part (22) provided with a fixing hole (2) through which it penetrates. It includes a projection (23). The base plate portion 21, the support bar portion 22, and the connecting projection 23 of the retaining wall block 20 are of the base plate portion 21, the supporting bar portion 22, and the connecting projection 23 of the retaining wall block 20 described above. Same as configuration. When the retaining wall blocks 20 are installed on the base portion 10, the lower surface of the base plate portion 21 contacts the upper surface of the base portion 10 and the side surfaces of the two base plate portions 21 adjacent to each other are installed to contact each other. do. At this time, each support bar portion 22 of the retaining wall blocks 20 is positioned in one direction.

After the retaining wall blocks 20 are installed, the step (S3) of fixing the retaining wall blocks 20 with the anti-plum piles 30 is performed. The anti-pile pile 30 penetrates through the fixing hole 2 of the supporting bar 22 of the retaining wall block 20 to fix the retaining wall block 20 to the ground by being driven into the ground, and the retaining wall block 20 is pushed. It is prevented from being pushed by the prevention pile 30. At this time, the support bar portion 22 of the retaining wall block 20 is horizontally positioned, and the jungle prevention pile 30 is struck and installed on the ground.

Step (S4) of fixing the retaining wall blocks (20) with a jungle prevention pile (30) and then connecting the retaining wall blocks (20) to each other with a connecting reinforcing bar (40) proceeds. The connecting reinforcing bars 40 have a set length and are connected to penetrate the connecting holes 3 formed in each connecting protrusion 23 of the retaining wall blocks 20 to connect the retaining wall blocks 20 to each other. The connecting reinforcing bar 40 is preferably fixed with a pressure plate (not shown) and a liner screw (not shown) by tensioning with a tensioner in a state penetrated through the connecting hole 3 of the retaining wall blocks 20.

On the other hand, the retaining wall blocks 20 are placed in a row on the base 10, and then the retaining wall blocks 20 are sequentially fixed to the ground with a push-prevention stake 30 while connecting the retaining wall blocks 20 with connecting reinforcing bars 40. You can also connect. Fixing the retaining wall block 20 to the ground with a jungle prevention pile 30 and connecting the retaining wall blocks 20 with a connecting reinforcing bar 40 are as described above.

After the retaining wall blocks 20 are connected to the connecting reinforcing bars 40, the step S5 of filling the rear side of the retaining wall blocks 20 with soil is carried out. When backfilling with dirt on the back side of the retaining wall blocks 20, it is preferable to fill the soil with the upper surface of the retaining wall blocks 20 while compacting the soil.

After the back side of the retaining wall blocks 20 is filled with soil, the steps (S6) are performed by arranging the unit upper slabs 50 on the top of the retaining wall blocks 20 to reopen them.

The unit upper slabs 50 are mounted on the upper end of the retaining wall blocks 20 to form a flat surface. As an example of the unit upper slab 50, the unit upper slab 50 is preferably formed in a concrete square plate shape having a uniform thickness. The unit upper slab 50 is located between the supporting bar portions 22 of the two retaining wall blocks 20 adjacent to each other, so that the rim of the unit upper slab 50 and the supporting groove 4 of the two supporting bar portions 22 The two base plate portions 21 are inserted into the support grooves 4 on the upper surface and supported on the bottom surface of the support grooves 4.

Hereinafter, the operation and effects of the prefabricated retaining wall for the site expansion according to the present invention and its construction method will be described.

The present invention is to construct the base portion 10 along the edge of the site to be expanded, install the retaining wall blocks 20 carried in the field along the base portion 10 in a line, and fix the retaining wall block 20 with anti-pile stakes Then, the retaining wall blocks 20 are connected to each other with a connecting reinforcing bar, the back side of the retaining wall blocks 20 is filled with soil, and then the unit upper slabs are arranged on the top of the retaining wall blocks 20 to be covered.

As described above, the present invention installs the foundation 10 on the edge of the site to be expanded and installs retaining wall blocks 20, which have been manufactured and transported in the factory, on the foundation 10, thus excluding the installation of the retaining wall. This simple and short construction period reduces the construction cost.

The present invention is to install the base portion 10 on the edge of the site to be expanded and the base plate portion 21 which is located in the vertical direction to the base portion 10 and the support bar portion which is located in the vertical direction to the base plate portion 21 ( 22) installed retaining wall blocks (20) and the support bar portion (22) is pushed through the anti-pile pile (30) to be fixed to the ground, retaining wall blocks (20) are connected by connecting reinforcing bars (40) and retaining wall blocks ( Since the unit upper slabs 50 are overlaid on the upper surface of the base plate portion 21 and the support bar portion 20 of 20), the inclined portion of the edge of the site to be expanded is extended to the same height as the other portion, thereby increasing the utilization of the site, The extended area is rigid, so that even when pressure is applied to the extended area, it is firmly supported without being pushed.

In addition, the present invention includes a base plate portion 21 in which the retaining wall block 20 is positioned in the vertical direction, and a support bar portion 22 formed to extend to a length set on the rear surface of the base plate portion 21. It is possible to freely set the expansion area and height, thereby increasing the applicability.

10; Foundation 20; Retaining wall block
21; Base plate portion 22; Support bar
23; Connection protrusion 30; Jungle prevention pile
40; Connecting rebar 50; Unit upper slab

Claims (7)

A foundation constructed along the edge of the site to be expanded;
Retaining wall blocks arranged in a row in the horizontal direction along the foundation;
A push-prevention pile for fixing the retaining wall block to the ground of the ground from the rear side of the retaining wall block;
A connecting reinforcing bar connecting the rear surfaces of the retaining wall blocks;
It includes a plurality of unit upper slabs that are mounted on the upper end of the retaining wall blocks to form a plane,
The retaining wall block,
A base plate portion having a uniform thickness and area and having a rectangular plate shape and positioned in a vertical direction;
A support bar portion formed to extend from a middle of the rear surface of the base plate portion to a length set in a horizontal direction, and having a rectangular cross-sectional shape, and having a fixing hole through which the pushing pile is penetrated at a longitudinal end;
A connecting protrusion extending over the rear surface of the base plate part so as to be located under the support bar part, and protrudingly extended so that an upper end is connected to the support bar part and having a connection hole through which the connecting reinforcing bar penetrates; And
The upper surface of the base plate portion and the upper surface of the support bar portion are coplanar, and include support grooves provided at both upper edges of the base plate portion and both upper edges of the support bar portion to support edges of the unit upper slab. Prefab retaining wall for site expansion. The prefabricated retaining wall according to claim 1, wherein the foundation includes a plurality of foundation piles embedded in the ground at a predetermined interval and foundation blocks connecting the upper ends of the foundation piles. The prefabricated retaining wall according to claim 1, wherein the foundation portion includes a concrete foundation placed on the ground, and reinforcing bars reinforced inside the concrete foundation. delete delete delete delete

Images