KR101200190B1 - The block of protecting the banks for grass growing - Google Patents

Abstract

PURPOSE: A coupling structure of a vegetation block is provided to prevent a mold from becoming separated from a mold housing groove through a latching protrusion. CONSTITUTION: A coupling structure of a vegetation block comprises multiple T-shaped mold housing grooves(10), H-shaped binding reinforcement cores, stepped latching protrusions(30), and bottom portions(40). Each mold housing groove has a connection(11) and a latching portion(12). Each binding reinforcement core has latching wing portions inserted into the latching portion of each mold housing groove. Each bottom portion is integrally formed on the bottom of each mold housing groove and separates the bottom of the mold housing groove from the ground.

Description

BLOCK OF PROTECTING THE BANKS FOR GRASS GROWING}

The present invention is to provide a vegetation block installed on the surface of a common slope or river, etc. and having a vegetation space capable of vegetation inside the interconnection with other adjacent blocks. On the binding structure,

More specifically, the tensile stress in the occurrence of the tensile external force in the block by placing the locking step on the inner side of the connecting portion of the "T" shaped mold receiving groove which is combined with other blocks adjacent to all four sides of the block to form the "H" shape. The binding mold, which is cured in the mold receiving groove by maintaining the support rigidity against the tensile external force of the block, is induced to be dispersed and reduced to several places instead of being concentrated in one place, thereby minimizing cracks and fractures. Even when the binding mold part in the catching part of the receiving groove is broken, the mold in the connecting part connecting the block is not detached from the mold receiving groove through the catching jaw and is continuously maintained in the supporting state so that a stable binding state of each block is possible. In addition, the bottom of the mold receiving groove is to be placed on the bottom of the mold receiving groove so that the bottom portion of a certain thickness It is designed to be closed and not connected, so as to reinforce the block rigidity near the mold receiving groove, to prolong the service life through the improvement of durability, and to bind the binding reinforcement core embedded in the mold receiving groove to be blocked from the moisture on the ground. It is possible to extend the service life through the suppression of corrosion, and it is possible to maintain the depth of embedding of the binding reinforcement core at all times as the binding mold is placed while the binding reinforcement core is placed on the bottom part. By improving the structure of the pre-applied invention to prevent the occurrence of functional deviation between each block binding structure to give uniformity to the support stiffness, it is possible to pursue the robustness and stability of the construction state.

In order to protect the surface of the conventional river banks to prevent the loss of the surface by laying the banks of the banks, in particular, the banks of the banks were formed on the surface of the concrete mortar product formed in a predetermined size to form a frame.

Therefore, as the construction of simple rafting block as shown above, there is no space for grass to grow around the raft block, and because it was not able to plant plants, it not only damages the environmental aesthetics but also adversely affects the natural state system. It is true that the old lakes block the ground so that the grass cannot grow, so that insects cannot live in the rivers, and therefore, birds do not fly and also affect the reproduction of fish and larvae.

In view of these problems, in recent years, there are known vegetation blocks having a vegetation space inside the block. However, this is simply a method in which adjacent blocks are folded in contact with each other while being placed on the construction surface, so the earth pressure from the construction surface to the front surface is increased. In this case, the blocks of the earth pressure generating unit were protruded and separated separately, so that there was a problem that stability could not be achieved.

Due to the problems described above, the construction of the block is limited to only the places where the slope is gentle, so there is a problem that the use effect and the purpose are deteriorated, and when the lateral finishing portion is weakened or damaged, the entire vertical line flows in the transverse direction. There is a possibility that the entire vertical line may flow and escape because there is no restraint or prevention structure, and there is a high possibility that the construction state may be deteriorated. The end of the block, which could not completely stabilize the construction state of the block, is exposed. .

In view of the above problems, the present invention, the "binding structure of the vegetation block" in the present application, forms a "T" shape mold receiving groove so as to combine with other blocks adjacent to all four sides of the block to form a "H" shape and both ends thereof. Structure that binds reinforcement cores to function as reinforcement cores in the state where the binding reinforcement cores are completely embedded in the mold receiving groove by inserting the binding reinforcement cores made of metal of "H" type with locking wings in the state to be cured. This was to expose the following problems.

? The structure of the mold accommodating groove 10 for accommodating the binding mold M is formed in a "T" shape having a straight locking portion 12 perpendicular to both ends of the straight connection portion 11 as shown in FIG. As a result, the tensile stress applied to the binding mold M when the external force opposite to the vegetation block 1 is generated in the direction of the arrow is concentrated in the vicinity of the connection corner of the connecting portion 11 and the engaging portion 12. This can cause cracks and fractures in these areas.

In this case, when the connection between the connecting portion 11 and the locking portion 12 of the binding mold M is cut off and broken, the binding mold M accommodated in the connecting portion 11 is tied in the locking portion 12 that is integrally connected to both ends. The separation between the mold and each other prevents the binding support function between the blocks at all, and the linear binding mold remaining in the connection portion 11 exits from the connection portion of the adjacent block even with a small tensile external force, thereby easily releasing the connection state between the blocks. As a result, there is a problem that the separation of the block construction surface is caused,

? In addition, since the mold receiving groove 10 is configured to penetrate in the longitudinal direction as shown in FIG. 7, the rigidity near the mold receiving groove 10 becomes weak due to the space through the configuration of the mold receiving groove 10. Even if a small external force is applied during the operation, it can be easily broken, resulting in reduced durability of the block and shortened service life.

In addition, since the lower portion of the mold receiving groove 10 is in direct contact with the ground, the binding reinforcing core material 20 embedded in the mold receiving groove 10 may be affected by the moisture of the ground even if it is buried in the binding mold. This leads to a shortened service life due to corrosion.

In addition, the buried depth of the binding reinforcing core material is irregular for each block because the binding mold filled with the binding reinforcing core material 20 in the mold receiving groove 10 is pressed before the curing is cured. There is a high possibility that a functional deviation between each block binding structure will occur, thus causing a problem that the robustness and stability of the construction state is degraded.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems,

It is an object of the present invention to induce a tensile mold to be dispersed and reduced in several places instead of being concentrated in one place when a tensile external force is generated in the block so that the binding mold filled in the mold receiving groove is stronger against the tensile external force of the block. By maintaining stiffness, it minimizes cracks and fractures, and in the case where the binding mold part in the locking part of the mold receiving groove is broken, the mold in the connecting part connecting the block is continuously supported without being separated from the mold receiving groove through the locking jaw. By maintaining the state, a stable binding state of each block is possible.

In addition, by strengthening the block stiffness near the mold receiving groove, the service life can be extended by improving the durability, and the binding reinforcement core embedded in the mold receiving groove can be blocked from the moisture of the ground to prevent corrosion. It is possible to extend the service life, and since the binding mold is placed in the state where the binding reinforcement core is placed on the bottom part, the buried depth of the binding reinforcement core can be maintained at all times, so that the functional deviation between each block binding structure can be maintained. It is to provide the binding structure of the vegetation block that can prevent the occurrence and to give uniformity to the support stiffness to pursue the robustness and stability of the construction state,

In order to achieve the above object,

The present invention is to provide a stepped locking jaw on the inner side of the connection portion of the "T" -shaped mold receiving groove which is combined with other blocks adjacent to all four sides of the block to form a "H" shape, and the bottom of the mold receiving groove. It characterized in that the bottom portion of the mold accommodating groove is blocked so as not to be directly connected to the ground by placing a bottom portion of a predetermined thickness,

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

As described above, the present invention has a structure in which the tensile stress is dispersed and reduced in several places without being concentrated in one place through the locking step when the tensile external force is generated in the block. Stronger support stiffness can be maintained, thereby minimizing cracking and fracture, and mold in the connecting portion connecting the block is separated from the mold receiving groove even when the binding mold portion in the locking portion of the mold receiving groove breaks. It is possible to maintain the binding support state continuously without making stable binding state of each block possible.

In addition, it is possible to reinforce the block stiffness in the vicinity of the mold receiving groove through the bottom portion to extend the service life through the improvement of the durability of the block, and the binding reinforcement core embedded in the mold receiving groove can be blocked from the moisture of the ground. It is possible to extend the service life by suppressing corrosion, and also to keep the embedding depth of the binding reinforcement core at all times as the binding mold is placed while the binding reinforcing core is placed on the bottom part. It is possible to give uniformity to the support stiffness by preventing the occurrence of functional deviation between each block binding structure.

1 is a perspective view showing an example of the configuration of the block to which the present invention is applied.
Figure 2 is a perspective view showing a planar connection construction state of FIG.
Figure 3 is a plan view of the connected block to which the binding structure of the present invention is applied.
Figure 4 is an exemplary cross-sectional view of the block to which the present invention is applied.
Figure 5 is an exemplary cross-sectional view showing a state in which the binding reinforcing core material is coupled to the mold receiving groove and the binding mold is filled.
Figure 6 is an enlarged view of the main portion showing the binding structure of the line application invention.
7 is a sectional view illustrating a main portion of the line application invention.

1 is a perspective view showing an example of the configuration of the block to which the present invention is applied, Figure 3 is a plan view showing a connected block to which the binding structure of the present invention is applied,

The present invention provides a well-shaped vegetation block 1 having a plurality of arc-shaped recesses 2 for forming a vegetation space PS on each side while penetrating the vegetation through hole 3 in the center. A plurality of mold receiving grooves 10 having a " T " shape having locking portions 12 orthogonal to both inner ends of the connecting portion 11, the outer sides of which are opened to the outside between each concave portion 2 of the; It is installed in the mold receiving groove 10, "H" type that is integrally connected to the engaging blade portion 22 that is fitted to the locking portion 12 of the mold receiving groove 10 on both ends of the connecting portion (21) In the structure comprising the binding reinforcing core material 20,

A stepped latching jaw (30) formed in a concave concavity in a state opposed to the inner surface of the connection portion (11) of each mold receiving groove (10);

It is characterized in that the bottom portion of the mold receiving groove 10 is configured integrally so that the lower portion of the mold receiving groove 10 is isolated from the ground 40.

※ Description code in the drawing ※

(M) shows the binding mold.

Each vegetation block (1) of the present invention configured as described above is to be assembled on a slope such as a general slope or river,

As shown in FIGS. 2 and 3, the mold receiving grooves 10 of the vegetation blocks 1 closely adjacent to each other are joined to each other to form a “H” shaped hole. The mold receiving groove 10 is configured to be isolated from the ground to the bottom through the configuration of the bottom portion 40.

In this state, the binding reinforcing core material 20 is inserted into the binding mold M in a state in which the binding mold M is filled in the mold accommodating groove 10 that is connected to the “H” shape. When the binding reinforcement core 20 is touched on the bottom portion 40 as shown in FIG. 5, further entry is stopped and settled. The buried position of the binding reinforcement core material 20 is always constant by the bottom portion 40. Can be maintained.

Meanwhile, the thickness of the binding reinforcement core 20 is relatively smaller than the thickness of the vegetation block 1 so that the binding reinforcement core 20 is completely installed and completely concealed from the outside as shown in FIG. As the lower portion of the mold receiving groove 10 is blocked through 40, the binding reinforcing core 20 installed in the mold receiving groove 10 is minimized from being affected by moisture in the ground. In the buried state, air or external force cannot be contacted, thereby reinforcing the strength of the binding mold M after curing of the binding mold M in a state in which fear of corrosion or damage is prevented.

Thus, when the adjacent block is connected through the binding mold M and the binding reinforcement core 20 from all sides of the vegetation block 1, each connected vegetation block 1 is transversed through the binding in the front and rear, left and right directions. All the flow in the direction is prevented and the mold receiving groove 10, which is blocked by the bottom portion 40, the bottom of the vegetation block (1) even when the ground of the bottom of the binding mold (M) coupled It is possible to prevent the bottom departure so that the longitudinal flow of the block can also be completely suppressed.

On the other hand, in the case of the occurrence of tensile external force opposite to the direction of the arrow in each of the connected vegetation block (1) as shown in the enlarged portion of Figure 3 the tensile stress along with the connecting corner of the connecting portion 11 and the locking portion 12 It is applied in a form that is distributed in the connection corner portion between the 30 and the connection portion 11, thereby reducing the magnitude of the tensile stress applied to the corresponding portion to minimize the crack or fracture of the binding mold (M).

Even if the binding mold M is broken and separated at the connection portion between the locking portion 12 and the connection portion 11 of the mold receiving groove 10, the binding mold M in the connection portion 11 connecting each vegetation block 1 is separated. It is possible to maintain a state in which the binding is supported continuously without being separated from the mold receiving groove 10 through the locking jaw (30) to maintain the binding state between the vegetation block.

As described above, the vegetation block (1) to which the present invention is applied binds vegetation blocks adjacent to each other through the binding mold (M) as before, after, left, and right as a net.

The vegetation space (PS) and the vegetation passage (3) are filled with soil to fill the vegetation space. The vegetation space (PS) and the vegetation passage (3) ) Will be able to plant relatively large trees over shrubs.

In the above, one embodiment of the present invention has been described, but modifications and variations within the scope without departing from the technical spirit of the present invention by those of ordinary skill in the art belong to the scope of the present invention Of course.

1: Vegetation block 2: Indentation part
3: Vegetation through hole 10: Mold receiving groove
11: connection part 12: locking part
20: Bonded reinforcement core 21: Connection part
22: catching wing part 30: catching jaw
40: bottom part M: binding mold

Claims (1)

Each yaw of the well-known vegetation block 1 having a plurality of arc-shaped recesses 2 for forming a vegetation space PS on each side while penetrating the vegetation through hole 3 at the center thereof. A plurality of mold receiving grooves 10 having a “T” shape having locking portions 12 orthogonal to both ends of the connecting portion 11 whose outer sides are opened to the outside between the mouth portions 2, and the mold receiving portions; Tightening reinforcement of "H" type which is installed in the groove 10 and the engaging blade part 22 fitted in the locking part 12 of the said mold accommodating groove 10 is integrally connected to the both ends of the connection part 21, and is comprised. In the structure including the core 20,
A stepped latching jaw (30) formed in a concave concavity in a state opposed to the inner surface of the connection portion (11) of each mold receiving groove (10);
Bonding structure of the vegetation block, characterized in that it comprises a bottom portion 40 is integrally formed in the lower side of each mold receiving groove 10 so that the lower portion of the mold receiving groove 10 is isolated from the ground.

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