KR102062534B1 - Structure for grid join - Google Patents

Abstract

The present invention relates to a grid binding structure of a retaining wall block. The retaining wall, which is installed between block layers and is used as a reinforcement when retaining wall blocks, is simply and firmly bound to the retaining wall block to simplify the construction of the retaining wall and promote safety. A grid binding structure of blocks.
The grid binding structure of the retaining wall block of the present invention has a filling hole 100 formed at a head portion 11 and a central portion at one side thereof, and left and right wing portions 13 are integrated at the other side to provide a fitting groove 12. Grid binding of the retaining wall block to bind the grid 20, which is installed between the retaining wall block 10 formed in the shape of the retaining wall block 10 formed in a lattice network shape and stacked in a plurality of layers, and supports the retaining wall block. In the structure, the binding structure is a steel bar (30) extending in a predetermined length to be fixed to the grid 20 on the other side of the wing 13 formed in the retaining wall block, the upper portion is attached to the steel bar (30) The curved curved portion (41.41a) is formed to facilitate the removal, the lower portion is extended to the lower side of the ring portion 41, 41a "┌" and "┐" shape to be coupled to the outside of the wing portion A pair of catching portions 42 and 42a, each bent opposite to Combination pins (40, 40a), the pair of binding pins (40) is fixed to the steel bar (30) by the hook portion (41, 41a), each locking portion (42, 42a) left and right It is characterized by being able to increase the binding force between the grid 20 and the retaining wall block 10 by being coupled to each of the wing 13 of the.

Description

Structure for grid join of retaining wall block

The present invention relates to a grid-binding structure of a retaining wall block. The retaining wall block which can increase the structural stability and robustness of the retaining wall by simply and firmly binding the grid used as a reinforcement to the retaining wall block installed between the block layers when constructing the retaining wall. Grid binding structure.

Generally, a masonry retaining wall construction block is constructed on the surface of rivers, roads, or various civil works to form a retaining wall to prevent deformation and collapse due to the loss of soil. Such a retaining wall is widely used in the construction of apartment complexes, construction of road cut soils, construction for securing safety of slopes, bridge wing wing construction, and other waterways and embankments.

There are various constructions of the retaining wall through the general masonry retaining wall construction block as described above, and the most common method is to stack the building blocks in front of the reinforcement soil, and to reinforce the soil behind the laminated block. It is a method of embedding a grid in a section and connecting the tip to the building block.

However, when building the retaining wall by stacking the building blocks in the prior art, the grids and the embedded blocks are sequentially constructed because the soil is filled in the reinforcement soil section with the grid tip part placed on the rear upper surface of the block. They become unbound.

Therefore, the conventional retaining wall has a fear that the block is pushed forward by external earth pressure due to earth pressure generated when the block is not bound with the grid and the backfill material is flooded, and rainwater is submerged in the ground after construction.

In order to solve this problem, the receiving groove is formed on the upper surface of the block, and the block and the grid are bound by inserting the grid into the receiving groove.

However, since the grid is made of a thin material made of synthetic resin in the form of a grid like a checkerboard, and the receiving groove for accommodating the grid is also configured in the form of a grid, it is difficult to bind them if the grid does not coincide with the receiving groove.

In particular, among the blocks stacked in a multi-stage stack in front of the reinforcement soil section, the block layers that are bound to the grid are arranged in a row, so it is difficult to match the grid shape of the grid to the grid shape of each of the arranged blocks. It is very difficult to bind the grids, and there is a problem in that the walls cannot be firmly built.

Patent Document 0001 (Domestic Registration No. 10-0969352 (2010. 07. 09. Registration) Patent Document 0002 (Domestic Registration No. 10-1700830 (registered on Jan. 23, 2017)

In order to solve the above problems, the steel retaining wall is connected to a steel bar fixed to the grid and the upper part is installed on the steel bar, and the lower part of the retaining wall block has a pair of coupling pins coupled to the left and right wing portions, respectively. It is an object of the present invention to provide a grid binding structure of a retaining wall block that can increase the structural stability and robustness of the whole retaining wall by preventing the flow of the grid by binding the block simply and firmly.

The grid binding structure of the retaining wall block of the present invention has a filling hole 100 formed at a head portion 11 and a center portion at one side thereof, and left and right wing portions 13 are integrated at the other side to provide a fitting groove 12. Grid binding of the retaining wall block for binding the grid 20, which is installed between the retaining wall block 10 formed in the shape of the retaining wall block 10 formed in a lattice network shape and stacked in multiple layers and supporting the retaining wall block, In the structure,

The binding structure is a steel bar (30) extending in a predetermined length to be fixed to the grid 20 on the other side of the wing 13 formed in the retaining wall block,

An upper portion of the steel bar 30 is formed to be curved to be easily bent and detached ring portion (41.41a), the lower portion is extended to the lower side of the ring portion 41, 41a coupled to the outside of the wing portion Consists of a pair of binding pins 40 and 40a having locking portions 42 and 42a, respectively, bent so as to be in the form of " ┌ " and " ┐ "

The pair of binding pins 40 couple the engaging portions 42 and 42a to the outside of the wing portions 13 on the left and right sides, respectively, while being fixed to the steel rods 30 by the ring portions 41 and 41a. It is characterized in that to increase the binding force between the grid 20 and the retaining wall block 10.

The present invention is to bind the grid installed on each upper surface of the retaining wall block layer with a steel rod and a pair of fastening pins firmly and firmly to the retaining wall block to increase the binding force between the grid and the retaining wall block to increase the binding force between the grid and the retaining wall block. The retaining wall blocks are not pushed to the left or right by earth pressure afterwards, so there is an effect of constructing a safe retaining wall.

In addition, the steel rod and the pair of fastening pins having a relatively simple structure have a low manufacturing cost and are easy to manufacture, thereby reducing the construction time and reducing the construction cost of the retaining wall.

1 is a plan view of the grid binding structure of the retaining wall block according to the present invention is installed.
Figure 2 is a plan view of the grid binding structure of the retaining wall block is installed in accordance with another embodiment of the present invention.
3 is a plan view in which the grid binding structure of the retaining wall block according to another embodiment of the present invention is installed.
Figure 4 is a side view of the grid binding structure is installed on the retaining wall block shown in FIG.
5 is a perspective view of the grid binding structure of the retaining wall block according to the present invention.
Figure 6 is a detailed view of the grid binding structure steel rod installation of the retaining wall block according to the present invention.
Figure 7 is a detailed view of the grid binding structure binding pin of the retaining wall block according to the present invention.

The grid binding structure of the retaining wall block of the present invention has a filling hole 100 formed at a head portion 11 and a center portion at one side thereof, and left and right wing portions 13 are integrated at the other side to provide a fitting groove 12. Grid binding of the retaining wall block for binding the grid 20, which is installed between the retaining wall block 10 formed in the shape of the retaining wall block 10 formed in a lattice network shape and stacked in multiple layers and supporting the retaining wall block, In the structure,

The binding structure is a steel bar (30) extending in a predetermined length to be fixed to the grid 20 on the other side of the wing 13 formed in the retaining wall block,

An upper portion of the steel bar 30 is formed to be curved to be easily bent and detached ring portion (41.41a), the lower portion is extended to the lower side of the ring portion 41, 41a coupled to the outside of the wing portion Consists of a pair of binding pins 40 and 40a having locking portions 42 and 42a, respectively, bent so as to be in the form of " ┌ " and " ┐ "

The pair of binding pins 40 couple the engaging portions 42 and 42a to the outside of the wing portions 13 on the left and right sides, respectively, while being fixed to the steel rods 30 by the ring portions 41 and 41a. It is characterized in that to increase the binding force between the grid 20 and the retaining wall block 10.

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

1 is a plan view in which the grid binding structure of the retaining wall block according to the present invention is installed, FIG. 2 is a side view of the grid binding structure of the retaining wall block according to the present invention, and FIG. 3 is a perspective view of the grid binding structure of the retaining wall block according to the present invention. 4 is a detailed view of the grid binding structure steel rod installation of the retaining wall block according to the present invention.

As shown in FIGS. 1 to 3, the retaining wall block 10 and the grid 20 are similar in shape to the retaining wall block and grid, which are widely used in the art, but are not the core technology of the present invention. For the description of the binding structure of the present invention that binds to the outline of the configuration.

The retaining wall block 10 has a filling hole 10 formed in a central portion thereof, and a head portion 11 having a plurality of irregularities or patterns formed on one side thereof and left and right wing portions 13 formed on the other side thereof, respectively. .

The filling hole 100 formed in the retaining wall block 10 serves to further strengthen the retaining wall of which the foundation ground is soft by inserting concrete or soil when the retaining wall block is stacked, and the head part 11. A plurality of irregularities or patterns formed in the) is selectively formed in various forms to enhance the visual effect.

The wing portion 13 is formed in various forms to provide a fitting groove 12 for hanging a handle or a rope to facilitate gripping during construction of the retaining wall, the shape of the representative wing portion 13 is both sides of the retaining wall block As the fitting groove 12 is formed to protrude in the left and right outward direction from the other side of the retaining wall block (A type), while the fitting groove 12 is formed in the other central portion of the retaining wall block is protruded inwardly facing each other Shape (B type), while the fitting grooves 12 are formed on both sides from the other side of the retaining wall block, the center portion may be formed in a shape (C type) protruding in a left or right outward direction by a predetermined length.

The grid 20 is stacked and installed on the upper surface of each layer of the retaining wall block 10, which is stacked and constructed in multiple stages, and is buried in the soil through the soil filling process behind the retaining wall block 10 to maintain safety and To serve as a reinforcing material to improve the reinforcing force is formed in the form of a grid mesh made of a weft and inclined to form a plurality of through grooves 20.

At this time, the grid 20 is installed between the layers of the retaining wall block 10, according to the user's embodiment, not the retaining wall block 10, but located on the upper surface of the plurality of retaining wall blocks 10 adjacent to each other or Is installed so as to be located on the upper surface of the plurality of retaining wall blocks (10).

1 to 5, the retaining wall block 10 and the grid 20, as shown in Figure 1 to 5 to securely bind to the steel bar 30 and the steel bar 30 extending to a certain length to prevent flow. It is composed of a pair of binding pins 40 installed at left and right spaced apart from a predetermined interval.

The steel bar 30 is made of a metal material in the form of a rod extending a predetermined length in a circular cross section.

The diameter of the steel bar 30 is formed in a direct line smaller than the width of the through groove 200 formed in the grid 20, a plurality of through-holes formed in the grid 20, as shown in FIG. The steel bar 30 is firmly fixed to the grid 20 by being inserted into the grooves 200 in the up and down direction alternately.

At this time, the steel bar 30 is installed extending in the longitudinal direction to the grid 20 to be disposed in the other direction of the wing portion 13 of the retaining wall block (10).

The pair of binding pins 40 and 40a are installed in pairs so that the two binding pins 40 and 40a are spaced apart at regular intervals from the steel bar 30. The upper portion of each of the binding pins 40 and 40a is the steel bar. Ring portions (41, 41a) are bent in a ring shape to be easily attached and detached to (30) and the lower portion extends from the ring portions (41, 41a) and both wing portions (13) of the retaining wall block (10) ) Engaging portions 42 and 42a bent in the form of " ┌ " and " 되도록 "

The ring portions 41 and 41a may have a width in a longitudinal direction smaller than a width of the through groove 200 of the grid 20, so that the ring portions 41 and 41a may be connected to the steel bar 30 connected to the through groove 200 of the grid 20. 41,41a) to ensure a smooth fit.

The engaging portions 42 and 42a, which are bent in the form of "┌" and "┐", are fitted with fitting grooves 12 of the retaining wall block 10 to be coupled to the outside of both wing portions 13 ( 12) each engaging portion 42, 42a having a shape corresponding to the inner side of both wing portions 13, which are sandwiched in the form of "┌" and "┐", is formed of the A, B, C type or the like. Corresponding to both wings 13 is provided in pairs so that the retaining wall block and the grid can be easily bound even though the structure is relatively simple.

The pair of binding pins 40 and 40a may be bent in a shape corresponding to the steel bar 30 by using a tool on a bar bar formed in a “b” shape made of a metal material having a predetermined thickness and having a ring portion 41 and 41a. ) And the lower part can be manufactured by a relatively simple method of bending the corresponding left and right wing parts 13 and 13a to form the engaging parts 42 and 42a. There is an advantage.

Meanwhile, as shown in FIG. 7, since the wing portion 13 of the retaining wall block 10 is formed in various ways depending on the block, the engaging portion formed on the pair of binding pins 40 and 40a. (42,42a) is the length (L) and the bending angle (Q) of the end when manufacturing to correspond to the inner side length and corner angles of the wings 13, so the length and bending of the catching (42,42a) The angle is preferably formed at various lengths and bending angles according to the protruding length and the corner angle of the wing 13.

The pair of fastening pins 40 and 40a is fitted to the steel bar 10 by the upper part of the hooks 41 and 41a, and the lower part of the retaining wall block 10 by the locking parts 42 and 42a. Each of the binding pins (40, 40a) are installed in pairs on the left and right wings (13) of the retaining wall block (10), the grid (20) and the retaining wall block (10) 10) It is possible to increase the structural stability and robustness of the entire retaining wall by preventing the flow of the grid 20 due to impact or vibration by increasing the binding force between each other.

Hereinafter, a method of constructing the retaining wall using the grid binding structure of the retaining wall block configured as described above will be described.

In order to construct the retaining wall, a trench is formed in front of the reinforcement soil section to provide a space for constructing the retaining wall block 10, and the rubble is laid at the trench position and then compacted to solidify the foundation.

Thereafter, a plurality of retaining wall blocks 10 are arranged in the compacted place to the left and right to install a single block layer, and the filling hole 100 of the retaining wall block 10 and the space between the retaining wall blocks 10 and the retaining wall The rear of the block 10 is filled with a filling material such as gravel, concrete, soil, etc.

And the grid 20 is installed on the upper surface of the block layer of the first stage, the steel bar 30 of the binding structure 30 is arranged in the other direction of the wing portion 13 of the retaining wall block 10 grid 20 And a pair of fastening pins 40 and 40a, each locking portion at a position corresponding to both wings so that the locking portions 42 and 42a are coupled to the outside of both wing portions 13 on the left and right sides, respectively. After the 42 and 42a are disposed, the ring portions 41 and 41a are fitted to the steel rods 30 so that the binding structure is installed on the grid 20. The grid 20 on which the binding structure is installed has a single block layer. After positioning on the upper surface, the operator presses the engaging portions 42 and 42a of the pair of binding pins 40 and 40a installed on the steel bar 30 by manual operation to the left and right wing parts 13. By combining, the grid 20 is firmly installed on the upper surface of the block layer of the first stage by the binding structure of the steel rod and the pair of binding pins.

After that, the rear end of the grid 20 is pulled tight and fixed with a temporary pile or the like, and after the grid is bound, the filler is filled and refilled at the top thereof.

Then, the plurality of retaining wall blocks 10 are re-installed on the first layer of the block layer to which the grid 20 is bound, and then the filler is filled in the same manner, and the grid 20 is connected to the retaining wall block 10 using the binding structure. By repeating the binding operation, the block layer is formed of a plurality of layers to complete the construction of the retaining wall.

10- retaining wall block
11-head
12-fitting groove
13-winged
20-grid
200-through groove
30-rod
40, 40a-pair binding pin
41,41a-ring
42,42a-intersection

Claims (5)

Filling hole 100 is formed at the head portion 11 and the central portion at one side, and retaining wall block 10 having the left and right wing portions integrally formed at the other side to provide the fitting groove 12, and a lattice. In the grid binding structure of the retaining wall block is formed between the retaining wall block 10 is formed in the form of a network and stacked in a plurality of layers to mutually bind the grid 20 for supporting the retaining wall block,
The binding structure is a steel bar (30) extending in a predetermined length to be fixed to the grid 20 in the upper side of the other side of the wing portion 13 formed in the retaining wall block,
An upper portion of the steel bar 30 is formed to be curved to be easily bent and detached ring portion (41, 41a), the lower portion extending to the lower side of the ring portion (41, 41a) to the outside of the wing portion Consists of a pair of binding pins 40 and 40a having engaging portions 42 and 42a which are respectively bent in opposition to the form of "┌ " and " ┐ "
The pair of binding pins 40 couple the engaging portions 42 and 42a to the outside of the wing portions 13 on the left and right sides, respectively, while being fixed to the steel rods 30 by the ring portions 41 and 41a. To increase the binding force between the grid 20 and the retaining wall block 10,
The length L and the bending angle Q of the end portions of the engaging portions 42 and 42a are formed to correspond to the inner side lengths and the outer edge angles of both wing portions 13 that fit the fitting grooves 12. Grid binding structure of retaining wall block. The method according to claim 1,
The grid 20 is formed in the form of a grid network having a plurality of through grooves 200, the steel bar 30 of the retaining wall block, characterized in that formed in a diameter smaller than the width of the through groove 200 of the grid Grid binding structure. The method according to claim 2,
The steel bar 30 is grid binding structure of the retaining wall block, characterized in that the steel rod is fixed to the grid by inserting the staggered up and down in the through groove 200 of the grid. The method according to claim 1,
The steel bar 30 and the pair of binding pins 40 are grid binding structure of the retaining wall block, characterized in that made of a metallic material. delete

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