KR102263958B1 - the Method of Construction of Prefabricated Block for Retaining Wall Bulwark - Google Patents

Abstract

The construction method of the prefabricated block for a retaining wall of the present invention comprises the steps of forming a cut slope; Forming a construction site on the base so that the block body can be installed; pouring concrete to form a foundation concrete layer on the construction site to support the block body; burying a plurality of fixing bolts at predetermined intervals in the foundation concrete layer; and fixing the fastening member of the block body and the fixing bolt with a connecting member so as to have a supporting force against the external force applied to the retaining wall structure; The step of fixing the fastening member and the fixing bolt of the block body with the connecting member so as to have a supporting force against the external force applied to the retaining wall structure includes hooking a hook formed at one end of the connecting member to the fastening member, and at the other end of the connecting member. inserting the formed fixing hole into the fixing bolt and fixing the block body; The step of stacking the block body vertically and horizontally to complete the retaining wall structure is such that the retaining wall structure is inclined at an angle of 5 degrees with the foundation concrete layer in the direction of the cut slope, and the step of stacking the block body is performed by turning the block body horizontally. laminating in the direction and longitudinal direction; The height (H1) of the left side of the block body and the height (H2) of the right side of the block body are set to have a difference of 5 mm, but it is characterized in that H1 < H2.

Description

{the Method of Construction of Prefabricated Block for Retaining Wall Bulwark}

The present invention relates to a method for constructing a prefabricated block for a retaining wall. In more detail, the block body constructed in front of the filled land or cut slope is firmly coupled up, down, left and right, and when a plurality of block bodies are stacked, it is inclined at a certain angle in the direction of the cut slope to improve the durability and constructability of the retaining wall. Shiki relates to the construction method of prefabricated blocks for retaining walls.

In general, a retaining wall refers to a wall made to prevent the soil from collapsing or flowing down due to earth pressure, and when the stable slope of the ground is steeper than that It is a structure built to prevent the collapse of the ground. In a conventional retaining wall, reinforcing bars forming the skeleton of the retaining wall are arranged in a certain shape on a fill site or incised slope, and the rebar is wrapped with a form, and then concrete is poured into the form and cured to form a wall. It was built by filling reinforcing soil containing crushed stone and rubble.

However, such a reinforced concrete retaining wall has a disadvantage in that the construction process is very complicated and the construction period is consumed, which requires a huge construction cost. In order to solve the problems of such a conventional retaining wall, a technique using a prefabricated block for a retaining wall has been disclosed.

The method of constructing a retaining wall using such a retaining wall block is constructed by stacking a number of retaining wall blocks in the transverse direction along the embankment surface or the cut slope, and then filling the rear surface with rubble, etc. However, the retaining wall constructed using such a conventional retaining wall block has a problem in that it easily collapses when a landslide occurs.

In addition, in the conventional retaining wall block, cracks occur sporadically after a predetermined period of time has elapsed after construction, and the natural slab material is easily removed, thereby damaging the city's aesthetics and creating a sense of intimidation for the nearby residents about the collapse of the retaining wall.

The background art of the present invention, Registered Patent Publication No. 10-1160679 (published on June 28, 2012) is a construction in which the retaining wall prefabricated blocks are laminated on the cut slope paper and assembled, and then the retaining wall is bound by fastening rods and anchor bolts. way.

1 is a view showing a retaining wall assembly state. So that the retaining wall 1 can be laminated and assembled on the cut slope, a hooking groove is formed in the upper and rear of the front wall 1, the left wall 2 and the right wall 3, and the lower ends of the left wall 2 and the right wall 3 A hook portion 5 is formed in the front.

The retaining wall 10 is arranged horizontally, and the fastening rods 4 are inserted into the holes formed in the left wall 2 and the right wall 3 of the retaining wall 10 to bind the retaining walls 10 to each other and fastened with bolts. 10) to form a bond with each other.

As shown in FIG. 2 , the retaining wall 10 is laminated by forming the clasps 5 . After the reinforcement piece 6 is provided and fastened to the central part of the front wall 1, the anchor bolt 9 is inserted into the fastening hole 7 formed in the center of the front wall 1 to perform excavation on the cut slope 8. After inserting and drawing out the drilled hole, it is fastened with bolts from the outside of the reinforcement piece (6).

This conventional prefabricated block construction method for retaining walls has a problem in that it is difficult to construct because work is added to secure the flatness of the cut slope, and excavation equipment must be mobilized to deeply insert the anchor bolts to the drilling hole.

(0001) Registered Patent Publication No. 10-0970303 (Announcement date: 2010. 07. 15) (0002) Registered Patent Publication No. 10-0467042 (Announcement date: 2005. 01. 10) (0003) Registered Patent Publication No. 10-679474 (Announcement date: 2016. 11. 24.) (0004) Registered Patent Publication No. 10- 1012653 (Announcement date: 2011.02.09)

The present invention has been devised to solve the above problems, and an object of the present invention is to improve the durability of the retaining wall structure, perform construction more conveniently and quickly, and improve stability by firmly fixing the retaining wall structure. It is to provide a prefabricated block construction method for retaining walls that can be installed.

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The method of constructing a prefabricated block for a retaining wall of the present invention comprises: laminating the block body so as to have a multi-layered block row up, down, left and right on the foundation concrete layer; Completing the retaining wall structure by stacking the block body vertically and horizontally, and filling and compacting the space between the retaining wall structure and the cut slope with a predetermined amount of gravel and soil. A construction method comprising: forming a cut slope;
Forming a construction site on the base so that the block body can be installed; pouring concrete to form a foundation concrete layer on the construction site to support the block body; burying a plurality of fixing bolts at predetermined intervals in the foundation concrete layer; and fixing the fastening member of the block body and the fixing bolt with a connecting member so as to have a supporting force against the external force applied to the retaining wall structure;
The step of fixing the fastening member and the fixing bolt of the block body with the connecting member so as to have a supporting force against the external force applied to the retaining wall structure includes hooking a hook formed at one end of the connecting member to the fastening member, and at the other end of the connecting member. inserting the formed fixing hole into the fixing bolt and fixing the block body; Completing the retaining wall structure by stacking the block body vertically and horizontally is to make the retaining wall structure inclined at an angle of 5 degrees with the concrete base layer in the direction of the cut slope; The step of stacking the block body is a step of stacking the block body in the transverse and longitudinal directions; The height (H1) of the left side of the block body and the height (H2) of the right side of the block body are set to have a difference of 5 mm, but it is characterized in that H1 < H2.

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The construction method of the prefabricated block for a retaining wall of the present invention can perform the construction more conveniently and quickly, and has the effect of reducing the construction cost. In addition, the construction method of the prefabricated block for retaining wall according to the present invention has the effect of shortening the construction period and reducing the construction cost.

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1 is a side view showing an assembly state of a conventional retaining wall structure.
Figure 2 is a perspective view showing the assembly state of the conventional retaining wall structure.
3 is a plan view of a prefabricated block for a retaining wall of the present invention.
Figure 4 is a perspective view of the prefabricated block for the retaining wall of the present invention viewed from the cut slope.
Figure 5 is a perspective view of the prefabricated block for the retaining wall of the present invention viewed from the road.
6 is a perspective view of a prefabricated block for a retaining wall of the present invention.
7 is a side cross-sectional view of the completed retaining wall structure.
8 is a cross-sectional view of a connecting member connecting the fastening member and the fixing bolt;
9 is a flowchart showing a method of constructing a prefabricated block for a retaining wall.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a plan view of the prefabricated block for a retaining wall of the present invention, FIG. 4 is a perspective view of the prefabricated block for a retaining wall of the present invention from a cut slope, and FIG. 5 is a perspective view of the prefabricated block for a retaining wall of the present invention as viewed from the road. 6 is a perspective view of a prefabricated block for a retaining wall of the present invention, and FIG. 7 is a side cross-sectional view of a retaining wall structure according to the present invention.

8 is a cross-sectional view of a connecting member for connecting a fastening member and a fixing bolt, and FIG. 9 is a flowchart showing a method of constructing a prefabricated block for a retaining wall.

3 and 4, the block body 20 according to the present invention has a size determined according to the design so that it can be continuously and repeatedly laminated in the longitudinal and transverse directions in front of the cut slope paper 8. It is a block of concrete in the shape of a rectangular parallelepiped with A lifting ring 40 is installed in the lifting ring groove 45 in the center of the upper surface of the block body 20 .

The lifting ring 4 is made of steel so that when the block body 20 is stacked, it can be lifted with a crane or the like and moved to an appropriate position.

The lifting ring 40 may be installed at the upper end in two to three pieces depending on the weight of the block body 20 , and is built into the lifting ring groove 45 . Three fixing protrusions 30 are formed in parallel on the bottom surface of the block body 20 . Fixing grooves 21 and 23 are formed at positions corresponding to the upper surface of the block body 20 so as to fix the fixing protrusions 30 .

When the convex body 20 is vertically coupled, the six fixing protrusions 30 are coupled to the fixing grooves 21 and 23 in close contact with each other. The fixing protrusion 30 prevents the block body 20 from being pushed to the left and right, and serves to firmly couple the block body 20 to be stacked.

As shown in FIG. 6 , the first coupling part 22 and the second coupling part 26 shown in FIG. 3 serve to firmly bind the block body 20 when the block body 20 is stacked from side to side.

4 is a perspective view of the prefabricated block for the retaining wall of the present invention viewed from the cut slope. The block body 20 shown in FIG. 4 is characterized in that the height H1 of the left side is shorter than the height H2 of the right side. In a preferred embodiment, the height H1 of the left side is 595 mm, the height H2 of the right side is 600 mm, and the height H1 of the left side is 5 mm shorter than the height H2 of the right side.

The height (H1) of the left side of the block body 20 and the height (H2) of the right side of the block body 20 are designed to have a difference of about 5 mm, and in a temporary example of the present invention, the height of the left side (H1) is the height of the right side (H2) It is characterized by being slightly shorter than that.

The height of the left side (H1) and the height of the right side (H2) may be designed to have a difference of 5 mm to 10 mm depending on the situation of the mountain slope or the cut slope where the landslide occurred.

For example, assuming that 10 blocks of the main body 20 are stacked, the height H2 of the right side is 6 meters, but the height H1 of the left side is 5.95 meters, and the height of both sides is 50mm (5cm) different. If the block body 20 is laminated in the transverse and longitudinal directions, the retaining wall structure 70 is completed. The number of the block body 20 can be increased or decreased by design depending on the field situation.
The retaining wall structure 70 is inclined at an inclination of 5 degrees with the foundation concrete layer 100 in the direction of the cut slope 8 . This 5mm difference in the height of the left and right sides of the block body 20 prevents the assembled retaining wall structure 70 from falling in the road direction, and the retaining wall structure 70 is firmly fixed to the foundation concrete layer 100 to make it happen

A fastening member 50 is installed in the fastening member groove 55 in the center of the side of the block body 20 . As shown in FIG. 7 , the fastening member 50 connects each block body 20 to the fixing bolt 80 with a connecting member 90 to prevent the retaining wall structure 70 from falling in the road direction. It serves to ensure that it is firmly fixed. The configuration of the connecting member 90 of the fastening member 50 and the fixing bolt 80 is shown in FIG. 8 .

5 is a perspective view of the prefabricated block for a retaining wall of the present invention viewed from the road side.

Two lifting rings 40 are installed on the upper surface of the block body 20, a first coupling part 22 is formed on the right side, and a second coupling part 26 is formed on the left side. A decorative surface 60 is formed on the front of the block body 20 viewed from the road side. Conventionally, there are cases where natural stone or artificial marble is attached to the decorative surface 60 , but the temporary example of the present invention embossed a picture of a beautiful shape on the decorative surface 60 . When manufacturing the body block 20, a picture of a shape with an aesthetic feeling is designed to be embossed in advance in a manufacturing frame so that a beautiful picture is formed.

6 is a perspective view of a prefabricated block for a retaining wall of the present invention.

When the block body 20 according to the present invention is constructed in the transverse direction, the first coupling part 22 and the second coupling part formed on the left and right sides of each block body 20 constituting a plurality of blocks placed one after another ( 26) and fixed. When the block body 20 is built in the longitudinal direction, it fits and fixes the six fixing protrusions 30 formed on the bottom surface of the block body 20 and the fixing grooves 21 and 23 formed at positions corresponding thereto. In a state in which the retaining wall blocks 20 are arranged one after another, they do not separate from each other.

7 is a side cross-sectional view of the completed retaining wall structure.

When the retaining wall structure 70 is built in front of the cut slope surface 8, a plurality of block bodies 20 are laminated in a manner to connect one after another in the longitudinal or transverse direction. The original ground is cut to form a cut slope (8), and the foundation concrete layer (100) is poured on the construction site as a foundation for supporting the retaining wall structure (70).

When a plurality of fixing bolts 80 are installed at a predetermined interval on the foundation concrete layer 100, and a plurality of block bodies 20 are laminated on the foundation concrete layer 100 in the transverse and longitudinal directions, finally the retaining wall The structure 70 is completed.

When the fastening member 50 installed on one side of the block body 20 and the fixing bolt 80 installed on the foundation concrete layer 100 are connected with the connecting member 90, the block body 20 can be firmly fixed. can

8 is a cross-sectional view of a connecting member connecting the fastening member and the fixing bolt.

As shown in Fig. 8, the connecting member 90 connecting the fastening member 50 installed on one side of the block body 20 and the fixing bolt 80 embedded in the base concrete layer 100 is a steel cable However, it is a synthetic resin cable with elasticity. A hook 92 is formed at one end of the connecting member 90, and a fixing hole 95 having a round shape is formed at the other end.

The hook 92 is hooked on the fastener of the fastening member 50 , and the fixing hole 95 is fitted on the fixing bolt 80 . The connecting member 90 serves to connect and fix the fastening member 50 embedded in one side of the block body 20 and the fixing bolt 80 .

9 is a flowchart illustrating a method of constructing a prefabricated block for a retaining wall.

As shown in FIG. 9, the method of constructing a prefab block for a retaining wall according to an embodiment of the present invention cuts a mountain slope to form a cut slope 210, a construction site forming step 220, and concrete on the construction site It is configured including a pouring step 230, a fixing bolt embedding step 240, a block body stacking step 250, a block body fixing step 260, a retaining wall block completion step 270, and a backfilling step 280.

The method of constructing a prefabricated block for a retaining wall according to an embodiment of the present invention
Laminating the block body 20 so as to have a multi-layered block row vertically and horizontally on the base concrete layer; Completing the retaining wall structure 70 by stacking the block body vertically and horizontally; and a backfilling step of filling and compacting the space between the retaining wall structure 70 and the cut slope 8 with predetermined gravel and soil. It is an invention that improved the construction method of the known prefabricated block for retaining wall. .
The present invention comprises the steps of forming a cut slope (8); Forming a construction site on the base so that the block body 20 can be installed; pouring concrete to form a foundation concrete layer 100 on the construction site to support the block body 20;
burying a plurality of fixing bolts at predetermined intervals in the foundation concrete layer;
and fixing the fastening member of the block body and the fixing bolt with a connecting member so as to have a supporting force against the external force applied to the retaining wall structure;
The step of fixing the fastening member and the fixing bolt of the block body with the connecting member so as to have a supporting force against the external force applied to the retaining wall structure includes hooking a hook formed at one end of the connecting member to the fastening member, and at the other end of the connecting member. inserting the formed fixing hole into the fixing bolt and fixing the block body; The step of stacking the block body vertically and horizontally to complete the retaining wall structure is characterized in that the retaining wall structure is inclined at an angle of 5 degrees with the base concrete layer in the direction of the cut slope.
To explain this in more detail, the step of forming the cut slope 210 uses a construction machine such as an excavator to cut the slope according to the site conditions, construction drawings and specifications to form the cut slope 8. The step of forming the construction site 220 is a step of providing the foundation 120 for supporting the retaining wall structure 70 .

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Concrete pouring step 230 can be constructed by a conventional method of forming the foundation concrete layer 100 on the construction site with a concrete mortar. The fixing bolt burial step 240 is a step of burying a plurality of fixing bolts 80 at regular intervals in the foundation concrete layer 100 . The block body stacking step 250 is a step of stacking the block body 20 in the transverse and longitudinal directions. In an embodiment of the present invention, 10 blocks of the body 20 are stacked.

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The height (H2) of the right side of the block body 20 is 6 meters, but the height (H1) of the left side is 5.95 meters, and there is a difference of 50 mm (5 cm) in height of both sides. In this case, the 10 stacked retaining wall structure is inclined about 5 degrees in the direction of the cut slope. If there is a 5mm difference in the height of the left and right side surfaces of the block body 20 in this way, the inclined angle is 5 degrees with respect to the base concrete layer 100 . The inclination angle of 5 degrees is to firmly fix the retaining wall structure 70 on the foundation concrete layer 100 .

In the fixing step 260 of the block body 20, the connection member 90 serves to firmly fix the fastening member 50 and the fixing bolt 80 embedded in one side of the block body 20. One end of the connecting member (90) has a hook (92) hooked on the fastener of the fastening member (50), and the fixing hole (95) is fitted on the fixing bolt (80).

Retaining wall structure completion step 270 is to install a plurality of block body 20 on the left and right on the foundation concrete layer 100, and on top of each block body 20 based on the design and specification, stacked Harman retaining wall structure ( 70) is completed. In an embodiment of the present invention, the retaining wall structure 70 is inclined at 5 degrees to 10 degrees in the direction of the cut slope 8 in the foundation concrete layer 100 .

Preferably, in the best embodiment, the inclination of the retaining wall structure 70 is 5 degrees. Finally, the backfilling step 280 is a gravel layer filled with a predetermined width on the road side in the space between the retaining wall structure 70 and the cut slope 8, and a soil layer filled with a predetermined width toward the cut slope 8. It is a very, very compact stage. It is preferable to landscaping by pouring soil to the height of the retaining wall structure 70 and planting trees thereon.

The construction method of the prefabricated block for a retaining wall of the present invention is installed on a road or a mountain road having a landslide, and the construction method is simple and has the effect of reducing costs, so it has industrial applicability.

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20: block body 21, 23: fixed groove
22: first coupling part 26: second coupling part
30: fixing projection 40: lifting ring
45: lifting ring groove 50: fastening member
60: decorative surface 70: retaining wall structure
80: fixing bolt 90: connecting member
92: hook 95: fixing hole
100: base concrete layer 120: base

Claims (5)

delete delete Laminating the block body so as to have a multi-layered block row vertically and horizontally on the base concrete layer; Completing the retaining wall structure by stacking the block body vertically and horizontally, and filling and compacting the space between the retaining wall structure and the cut slope with a predetermined amount of gravel and soil. A construction method comprising: forming a cut slope;
Forming a construction site on the base so that the block body can be installed;
pouring concrete to form a foundation concrete layer on the construction site to support the block body; burying a plurality of fixing bolts at predetermined intervals in the foundation concrete layer; and fixing the fastening member of the block body and the fixing bolt with a connecting member so as to have a supporting force against the external force applied to the retaining wall structure;
The step of fixing the fastening member and the fixing bolt of the block body with the connecting member so as to have a supporting force against the external force applied to the retaining wall structure includes hooking a hook formed at one end of the connecting member to the fastening member, and at the other end of the connecting member. inserting the formed fixing hole into the fixing bolt and fixing the block body; Completing the retaining wall structure by stacking the block body vertically and horizontally is to make the retaining wall structure inclined at an angle of 5 degrees with the concrete base layer in the direction of the cut slope;
The step of stacking the block body is a step of stacking the block body in the transverse and longitudinal directions; The height (H1) of the left side of the block body and the height (H2) of the right side of the block body are 5 mm apart, but H1 < H2. Construction method of a prefabricated block for a retaining wall, characterized in that. delete delete

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