KR101148228B1 - Mounting structure of stronggrided for Revetment-block - Google Patents

Abstract

In the present invention is separated into a rear block and a front block that can be separated and combined with each other to block the progress of the crack occurring in the rear block to the front block,

 The front of the retaining wall block is composed of various shapes such as comb pattern, and it can be installed safely and firmly because the front and rear blocks can be separated and combined in the retaining wall block used when building retaining wall of land or incision. The retaining wall block mounting structure is equipped with a new rigid grid and a flexible (woven) grid that improve the stability of the retaining wall block after construction by reinforcing and installing the rigid grid and the flexible grid between the upper and lower surfaces of the retaining wall block. Is disclosed.

The present invention as described above has a shape and size determined according to the design, and the rear block is laminated and constructed in succession and repetition in the longitudinal and transverse direction along the land or incision; In the retaining wall block configured in various forms such as a comb-tooth pattern on the front of the front block and the front of the retaining wall block is fitted and fitted to the rear block when the construction is separated from the rear block, the retaining wall block on the upper surface of the rigid grid To form the groove to fit the head, and to install the rigid grid through the hollow of the rigid grid with a T-shaped connecting pin in the connecting pin hole provided on the upper surface of the retaining wall block fixed to the rigid grid, and the front block and The front and rear block connecting portions of the retaining wall blocks connecting the rear blocks have a structure provided with a cushioning material.

Rigid Grid, Retaining Wall Block, Flexible Grid, Front Block, Rear Block

Description

Mounting structure of stronggrided for Revetment-block

The present invention relates to a mounting structure of a retaining wall block provided with a rigid grid, and more specifically, is separated into a rear block and a front block that can be separated and combined with each other, the front block of the retaining wall block in various forms such as comb-shaped pattern. The retaining wall block is separated from the retaining wall block used in the construction of retaining wall of the land or incision, so that the retaining wall block can be separated or broken during handling for transportation or construction. In addition, the compaction work is performed on the filled soil filled on the back of the rear block, but the incomplete compaction portion due to the 85-95% compaction is inevitably generated due to the structure of the fill portion, so the load is concentrated according to the floating settlement that occurs when the fill portion is stabilized. Therefore, even if a crack occurs in the rear block, the crack does not progress in the front block. It is possible to form a recess in the upper surface of the retaining wall block to fit the head of the rigid grid, the hollow portion of the rigid grid with a T-shaped connecting pin in the connecting pin hole provided on the upper surface of the retaining wall block to install the rigid grid The present invention relates to a rigid grid mounting structure of a retaining wall block, which improves the stability of the retaining wall block even after construction by installing a rigid grid.

In general, the retaining wall refers to a wall which is made so that the soil of the land or incision surface does not collapse or flow due to earth pressure, and the stable slope of the ground surface is made to be steeper than that. In this case, the structure is constructed to prevent ground collapse.

Such conventional retaining wall is formed by weaving and installing reinforcing bars in horizontal and longitudinal directions on the ground or incision surface, wrapping them with formwork, and then forming concrete in the formwork to form walls. The walls were constructed in such a way that the reinforcement soils including soil, crushed stone and rubble were filled on the back surface of the wall.

In order to solve such a conventional problem, a retaining wall construction technique has recently been proposed in which a plurality of retaining wall blocks are stacked in a longitudinal direction and a transverse direction along a fill surface or an incision surface, and then built in such a manner as to fill rubble and the like on the back surface thereof. .

However, there is a problem in that the retaining wall constructed using the conventional retaining wall block is also not beautiful because its whole is made of concrete.

Accordingly, the present inventors have recently proposed a retaining wall block to which a front natural stone is attached as a patent application No. 2008-0131833.

The prior art of the patent application No. 2008-0131833 is a technique that is advanced compared to the existing retaining wall block, by retaining a separate locking piece on the front surface of the retaining wall block body, and mounting a natural stone plate, etc., the retaining wall block body Since there is a single body weight is heavy, there is a problem that handling is inconvenient and poor construction.

In addition, in the prior art, since the natural stone board mounted on the front of the retaining wall block is simply made of a structure attached by an adhesive, it may be easily separated or broken from the attached state by an external impact during transport or construction, and after construction If the adhesive strength is reduced over time, there is a problem that it is easy to separate from the state attached to the front block.

Accordingly, the present inventors recently proposed a retaining wall block to which a rigid grid is attached as a patent application No. 2009-0033495. However, the rigid grid has a problem that the thickness of the head portion is thicker than the body of the grid, so that when the retaining wall blocks are stacked, it cannot be horizontal, resulting in difficulty in construction. Therefore, such reinforced concrete retaining wall has a disadvantage in that it can not secure a strong bearing capacity by using only the flexible grid (50) in the construction process.
In addition, the connection part connecting the retaining wall blocks of the front and rear surfaces is not provided with a cushioning material, and thus, there is a problem in that the precise construction is not performed because it does not adequately cope with the earth pressure after the construction.

The present invention is to solve such a conventional problem, the purpose of which is separated into a rear block and a front block that can be separated and combined with each other, compacting work for the filling soil filled on the back of the rear block, but the fill Due to the structure of the part, the cracks do not progress on the front block even if the crack occurs on the rear block due to the concentrated load caused by the stabilization of the incomplete compaction part due to the 85-95% compaction. The front surface of the block is composed of various shapes such as a comb-pattern shape, the retaining wall block upper surface to form a recess for fitting the head of the rigid grid, the connection pin hole provided on the upper surface of the retaining wall block to install the rigid grid T-type connecting pins penetrate the hollow part of the rigid grid to fix the rigid grid Another object of the present invention is to provide a retaining wall mounting structure having a rigid grid for the purpose of improving the stability of the retaining wall block even after the retaining wall block construction of the incision is made.
Another object of the present invention is to provide a buffer material in the connection portion of the front and rear blocks so that the fill portion of the rear surface of the rear block after the construction to cope with the earth pressure due to incomplete settlement or concentrated load, the front block and the connection is not broken, the rear block The cracks generated in the front block are blocked to provide a retaining wall block mounting structure provided with a rigid grid to protect the front block.

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In order to achieve the above object, according to the first embodiment of the present invention, installation holes are provided on the top, bottom, left, and right sides of the retaining wall according to the position and size determined according to the design on the front, rear, left, and right sides of the retaining wall block. A rear block to which the retaining wall blocks are stacked and constructed continuously and repeatedly in the longitudinal and transverse directions along the land or incision using the installation pins in the installation hole; A front block formed with a thickness thinner than the front and rear thicknesses of the rear block, formed to have various colors and patterns, and having a mounting piece protruding from the mounting groove on the rear block along a longitudinal center line of the rear surface; In the state where the rigid grid is installed on the upper surface of the retaining wall block, a retaining wall block formed of a rear block and a connecting pin insertion hole having a predetermined diameter are formed at positions coincident with each other at the front center of the front block and the front center of the rigid grid. It is characterized in that it is configured to be fixed by the T-type connecting pin fitted through the vertical portion of the T-type connecting pin in the hollow portion provided on the head of the rigid grid.

According to the first embodiment of the present invention, the mounting holes are fixed to the upper and lower blocks based on the connecting pins at the front, rear, left, and right sides of the upper and lower surfaces of the retaining wall according to the position and size determined according to the design. A rear block stacked repeatedly by repeating the retaining wall block in a longitudinal direction and a transverse direction along the? A front block formed with a thickness thinner than the front and rear thicknesses of the rear block, formed to have various colors and patterns, and having a mounting piece protruding from the mounting groove on the rear block along a longitudinal center line of the rear surface; In the retaining wall block consisting of a rear block,

The retaining wall block upper surface is formed with a recess for inserting the head of the rigid grid, the T pin connecting pin hole provided in the upper surface of the retaining wall block to install the rigid grid through the hollow of the rigid grid with a T-shaped connecting pin T The rigid grid is fixed to the horizontal part of the type connecting pin.

The connection portion connecting the front block and the rear block is characterized in that the cushioning material is provided.

According to the present invention, the retaining wall blocks used in the retaining wall construction of the fill surface or the cut surface are separated into a rear block and a front block that can be separated and combined with each other, and the front surface of the retaining wall block has various shapes such as a comb-tooth pattern. Since it can be made, the appearance of the retaining wall can be beautiful after construction.
In addition, since the connection part connecting the front block and the rear block is provided with a cushioning material, when the crack occurs partially in the rear block or the front block due to the unbalanced load after construction, the rear block and the front block are separately configured. Not only does the crack generated in one block does not proceed to the other block, but only the corresponding block in which the crack is generated can be easily replaced, so that the retaining wall repair work can be performed with minimal maintenance cost.
In addition, since the weight of the retaining wall block itself is divided into a rear block and a front block, handling such as transportation is relatively free, and the workability is greatly improved.
In addition, the hollow portion formed on the head of the rigid grid with a T-shaped connecting pin in the connection pin hole provided on the upper surface of the retaining wall block to form a rigid grid by forming a recess for fitting the head of the rigid grid on the upper surface of the retaining wall block. As the rigid grid is fixed by the horizontal part of the T-type connecting pin, the retaining wall block is firmly mounted to increase the stability, and the buffer part is provided at the connection part of the front block and the rear block to flexibly respond to the variable load. Even after construction, the front block is not damaged for a long time.

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

1 is an exploded perspective view showing a retaining wall block mounting structure provided with a rigid grid of the present invention, Figure 2 is a perspective view of the coupled state of FIG. Figure 1a is a plan view of the retaining wall block of the present invention, Figure 1b is a cross-sectional view, Figure 1c shows a T-type connecting pin. Figure 3 is a perspective view of the bonded state showing the retaining wall block mounting structure provided with a rigid grid according to the present invention. 4 is a perspective view of the bonded state of the flexible grid of the retaining wall block according to the second embodiment of the present invention. 5 is an exploded perspective view of the buffer portion of the connecting portion of the front and rear retaining wall blocks according to the third embodiment of the present invention. FIG. 5A is a front block, FIG. 5B is a rear block, and FIG. 5C shows a combined state of front and rear blocks.
Referring to the above drawings, the present invention allows the appearance of the retaining wall to be beautiful after construction, and even if cracks are generated on the rear block due to incomplete compaction of the back fill portion constituting the constructed retaining wall block, the front block does not proceed. It is separated into the front and rear blocks and responsive to earth pressure, so that if a crack occurs in one of the rear block or the front block, it does not proceed to the other block and at the same time, it is mounted on the upper surface of the retaining wall block. The grid is firmly mounted so that the retaining wall blocks are unstable after construction.
To this end, the retaining wall block 10 to which the present invention is applied is installed having a predetermined position and size according to the design so that the retaining wall block 10 can be stacked in a continuous and repeating direction in the longitudinal and transverse directions along a fill surface or a cut surface (not shown). The ball 16 is installed on the front and rear left and right sides of the retaining wall block, and the installation hole 16 is inserted into the installation hole 16 so as to be longitudinally along the fill surface or cut surface (not shown). And lamination is carried out continuously and repeatedly in the transverse direction.
The retaining wall block 10 having a hexahedral shape having a predetermined size according to the design, and the retaining wall block 10 has a rear block when a crack occurs due to a concentrated load acting on the rear block 22 due to floating settlement in the fill area. 22 is separated from the front block 26, the progress of the crack is blocked, so that the beautiful front block 26 is formed,
The retaining wall block 10 is a mounting groove 12 formed in the front of the rear block 22, the mounting groove 12 is formed in a trapezoidal shape with a narrow outer side and a wide inner side along the longitudinal center line, the upper surface The left and right sides of the upper and lower block installation hole 16 of a predetermined size, the installation hole 16 is made of a structure formed so that the retaining wall block 10 can be coupled by inserting a connecting pin (not shown) to fill the ground surface or cut The rear block 22 of the concrete material which is laminated and constructed by continuous and repeated in the longitudinal and transverse directions along the ground 20,
Front mounting block (12) formed in the front of the rear block 22, the front mounting block to be detachably mounted by mounting the mounting piece 24 protruding from the rear of the front block 26 in the mounting groove 12 It consists of 26.
In addition, the retaining wall block 10 is the front block 26 is formed in a thin thickness than the front and rear thickness of the rear block 22, and may be molded in various colors for decoration, or various forms of patterns may be formed. The mounting piece 24 having a size and shape that fits and fits into the mounting groove 12 formed on the rear block 22 along the longitudinal center line of the rear side is protruded.
In addition, the rear block 22 and the front block 26 are inserted into the mounting groove 12 formed in the front of the rear block 22 by protruding the mounting piece 24 protruding from the rear of the front block 26. ) Coupled to the inner edge of the wood groove 12, a cushioning material 13 for elastically engaging in a state in which the mounting piece 24 formed in the front block 26 is fitted into the wood groove 12 Since the front block 26 and the rear block 22 are bonded by an adhesive material, cracks generated in the rear block 22 due to the earth pressure or the variable load due to the floating settlement of the fill portion proceed to the front block 26. It's a configuration that blocks you from doing.
On the other hand, as shown in Figures 1 and 3, the mounting piece 24 of the front block 26 of the rear block 22 for the application of the rigid grid mounting structure according to the first embodiment of the present invention In the state coupled to the mounting groove 12, the mounting rigid grid mounting groove 30 for mounting the rigid grid 40 is formed on the upper end of the retaining wall block 10 to a predetermined size according to the design, the mounting piece ( 24) is provided with a T-type connecting pin hole (28)
The upper end of the mounting piece 24 is provided with a T-shaped connection pin hole 28, the head 41 of the rigid grid 40 is inserted into the rigid grid mounting groove 30, the rigid grid 40 The vertical portion 45 of the T-type connecting pin 44 inserted through the hollow portion 42 is fitted into the T-type connecting pin hole 28 to be firmly mounted, but the horizontal portion 46 of the T-type connecting pin 44 is fixed. ) Is a mounting structure for a retaining wall block provided with a rigid grid, characterized in that the retaining wall block is continuously constructed while fixing the head portion 41 of the rigid grid 40 to the mounting recess 30.
The operation of the present invention made as described above is as follows.
1 to 5, when the retaining wall is constructed on the fill surface or the cut surface 20 using the retaining wall block 10 to which the present invention is applied, a plurality of retaining wall blocks 10 and 10 'are closed. Lamination is carried out by joining in a direction or a transverse direction.
To this end, first, the front block 26 having the mounting piece 24 is separately provided along the front installation line of the retaining wall block 10, and the rear block 22 is installed from the top of the mounting piece 24. Prior to fitting to fit into the mounting groove 12 of the), the cushioning material 13 is attached to the inner edge surface of the mounting groove 12 with an adhesive, and then the mounting piece 24 and the mounting groove 12 coincide with each other. When fitted according to the position, the flow is prevented in the coupled state, and the cracks are generated on the rear block 22 of the retaining wall block 10 in response to the irregular load caused by the fluctuation of the backfill of the retaining wall block 10. Since the progress of the crack is blocked in the front block 26, the safety of the front block 26 is improved.
As such, the retaining wall block 10 is placed on the zigzag installation position of the upper part in the state in which the retaining wall block 10 is coupled, and in this case, the rear block of the retaining wall block 10 located below (22) and the connecting pins (not shown) are inserted into the upper and lower block mounting holes 16 provided on the upper and lower portions of the front block 26, and then continue masonry, so that the retaining wall block 10 is The front block 26 and the rear block 22 are assembled.
In the case where the rigid grid 40 is to be mounted on the upper surface of the retaining wall block 10 by applying the rigid grid mounting structure according to the first embodiment of the present invention, FIGS. As shown in c, a rigid grid mounting recess 30 having a connection pin hole 28 is formed on an upper surface of the retaining wall block 10, and the rigid grid mounting recess 30 is formed of the rigid grid 40. In order to insert the head part 41, the vertical part 45 of the T-type connecting pin 44 passes through the hollow part 42 of the rigid grid with the T-type connecting pin 44 to the T-type connecting pin hole 28. Tilted and firmly mounted so that the horizontal portion 46 of the T-type connecting pin 44 presses the head 41 of the rigid grid 40 in the rigid grid mounting recess 30. Install the rigid grid 40 as shown in 3.
4 is a view showing a flexible grid 50, as shown in FIG.
The retaining wall block 10 having a predetermined thickness has a predetermined size so that the retaining wall block 10 can be stacked in a continuous and repeating direction in the longitudinal and transverse directions along the fill surface or the cut surface 20. In the stacking of 10, the flexible grid 50 is installed between the upper and lower surfaces of the upper and lower retaining wall blocks as shown in FIG.
Of the invention described in the claims of the mounting structure of the retaining wall block provided with the rigid grid
Within the category, various changes can be applied.

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Figure 1a is a plan view showing a retaining wall block is provided with a rigid grid according to a first embodiment of the present invention.

Figure 1b is a cross-sectional view showing a retaining wall block is provided with a rigid grid according to a first embodiment of the present invention.

Figure 1c is a perspective view showing a T-type connecting pin to the retaining wall block is provided with a rigid grid according to a first embodiment of the present invention.

Figure 2 is a perspective view of the coupled state of FIG.

Figure 3a, 3b is an exploded perspective view showing a retaining wall block mounting structure with a rigid grid according to a first embodiment of the present invention.

Figure 4 is a perspective view of the flexible grid coupled state of the retaining wall block according to the second embodiment.

Figure 5a is a front block of the retaining wall block according to a third embodiment of the present invention.

Figure 5b is a rear block of the retaining wall block according to a third embodiment of the present invention.

Figure 5c is a coupling state of the front and rear blocks.

* Explanation of symbols for the main parts of the drawings

 DESCRIPTION OF REFERENCE NUMERALS 10 retaining wall block 12 mounting groove 16 mounting hole 18 through hole 22 rear block 24 mounting piece

26: front block 28: insertion hole 30: mounting groove
40: rigid grid 41: head 42: hollow part

44: T type connecting pin 45: vertical part 46: horizontal part
50: flexible grid

Claims (5)

The retaining wall block 10 and the retaining wall block 10 having a hexahedral shape have a front block separated from the rear block 22 when a crack occurs in the rear block 22 based on the concentrated load due to the floating settlement in the fill section. 26, the front of the block 26 is formed so that the progress of the crack is blocked, The retaining wall block 10 is a mounting groove 12 formed in the front of the rear block 22, the mounting groove 12 is formed in a trapezoidal shape with a narrow outer side and a wide inner side along the longitudinal center line, The left and right sides of the surface is formed of a structure that is formed so that the retaining wall block 10 can be coupled by inserting a connecting pin (not shown) in the vertical block installation hole 16 of the predetermined size, or The rear block 22 of the concrete material which is laminated and constructed by continuous and repeated in the longitudinal direction and the transverse direction along the cut surface 20, The mounting groove 12 formed in the front of the rear block 22, the mounting groove 12 is fitted into the mounting groove 12 protruding formed in the rear portion of the front block 26 of the concrete material to be detachably mounted Front block (26), The front block 26 is formed in a thin thickness compared to the front and rear thickness of the rear block 22, and may be molded in various colors for decoration, or various types of patterns may be formed, and the rear side along the longitudinal center line of the rear side. The mounting piece 24 having a protruding shape and a size fitted and fitted to the mounting groove 12 formed on the block 22, Inserting the mounting piece 24 into the mounting groove 12 to couple the rear block 22 and the front block 26, the mounting piece 24 formed on the front block 26 is the wood groove ( 12) the front block 26 and the rear block 22 are bonded by adhering the cushioning material 13 to be elastically coupled in the coupled state by the adhesive, so that the earth pressure due to the floating settlement of the fill portion or the rear surface due to the variable load Cracks occurring in the block 22 blocks the front block 26 to proceed, The rigid grid mounting groove 30 for mounting the rigid grid 40 is formed on the upper end of the retaining wall block 10 to a predetermined size, and the head 41 of the rigid grid 40 is mounted on the mounting groove 30. ) Is inserted, the T-type connecting pin 44 is inserted through the hollow portion 42 of the rigid grid 40, the vertical portion 45 of the T-type connecting pin 44 is a T-type connecting pin hole ( 28) is firmly mounted, and the horizontal portion 46 of the T-shaped connecting pin 44 is mounted to the rigid grid mounting groove 30 to mount the head portion 41 of the rigid grid 40. A retaining wall mounting structure with a rigid grid, characterized in that the retaining wall block is constructed while being fixed to (30). delete delete delete delete

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