KR100947845B1 - A shore protection block having excellent ground fixing force - Google Patents

Abstract

PURPOSE: A vegetative embankment block with a superior ground anchoring force is provided to efficiently prevent the loss of earth due to a stable honeycomb structure. CONSTITUTION: A vegetative embankment block with a superior ground anchoring force comprises vegetation units(20), split vegetation units, fitting grooves(40), a butterfly-shaped connector(50), and a grout injection device. The vegetation units have a honeycomb structure vertically passing through inside of a block body(10). The split vegetation units are formed vertically passing through the outer periphery except for the vegetation units. The fitting grooves are opened on the top and sides with bottom closed. The butterfly-shaped connector is assembled in the fitting grooves when connecting revetment blocks. The grout injection device is selectively anchored in the ground by consecutively passing through a fixing hole(53) and an anchor groove(45) of the butterfly-shaped connector and grout is injected therethrough.

Description

Vegetation protection block having excellent ground fixing force {A shore protection block having excellent ground fixing force}

According to the present invention, the vegetation relief block is integrally connected and assembled using a butterfly connector, and then the anchor anchor penetrated in the ground through the butterfly connector is embedded in the support grout placed in the ground, and the ground fixing force of the relief block is It is one of the technical fields to drastically improve and prevent the loss of lanyard blocks.

In general, places such as cutouts generated on the slopes of rivers or banks, or dams or reservoirs, if left unattended without relief work, soils piled up on the original ground due to slopes of the slopes and the body of the cutouts gradually flow down, and in severe cases When floods or heavy snowfall occur due to rainfall, a large amount of soil is discharged at one time, which causes the ground to collapse and not be able to perform water and flooding functions, as well as to damage the surrounding natural environment and landscape.

Therefore, by installing various types of revetment blocks on slopes of rivers or banks or on slopes of various incisions, it is possible to prevent forced loss due to external pressure such as heavy rain and snowfall due to natural loss of soil and rainfall, thereby maintaining completion and dimensional effects. To help.

However, since the entire surface of the revetment block is made of concrete, it is impossible to grow vegetation, which not only destroys the ecosystem around the water surface or river banks, but also makes it difficult to inhabit microorganisms, insects and algae. There are disadvantages.

In view of such a situation, a natural stone-shaped block is formed in order to construct the lake block in a natural manner, and the vegetation hole can be formed between the blocks so that the root of the plant can be implanted on the ground. There is a nature-friendly construction, but the manufacturing process is very complicated, the manufacturing cost is high, there is a disadvantage that the economic efficiency is lowered.

In addition, in the conventional raft block, water flows through the contact gap between adjacent raft blocks during construction, causing scour to occur, thereby reducing the amount of soil cover of the raft block, thereby preventing the growth of plants smoothly and connecting the raft block. Since the means are easily released, the binding force of the raft block is weakened, so that the raft block is lost.

In order to solve such a conventional problem, "patent registration No. 506980 vegetation protection block", which has been filed by the applicant of the present invention and granted a patent decision, has been proposed.

However, the above-described pre-invention includes some improvements in providing useful effects.

First, plants can grow most vigorously only when they are rooted in the actual soil, but in the pre-registered invention, since the entire block is composed of porous concrete, it is actually difficult for the root of the plant to reach the soil through the pores of the porous concrete. There was great concern that the plant would die easily.

Secondly, when the fixing groove into which the fixing members for integrally connecting the protection block are inserted is formed up and down, when the scour occurs in the ground through the gap between the protection blocks, the fixing member falls into the scouring area and separated from the fixing groove. As a result, the fixing member as well as the raft block itself was lost.

Furthermore, although the fixing pins protruding from the lower part of the fixing member are sewn in the ground, the ground and the fixing pins do not maintain the united binding force, and the ground fixing force is weakened, so that the loss of the fixing member and the guard block cannot be avoided. It is true.

The present invention is to actively solve some of the improvements included in the above-described pre-registered invention, planting the plant in the vegetation portion of the honeycomb structure formed through the upper and lower portions of the porous concrete revetment block so that the roots of the plant in the soil To solve the problem of the invention is to make it smooth, and the butterfly connector is fitted in the locking groove groove is blocked in any case to escape to the bottom.

In addition, the present invention by using a grouting injector, the support anchor which is integrally embedded in the support grout placed in the ground to fix the butterfly connector fitted in the engaging groove in the penetrating state to significantly improve the ground fixing force It is a problem to solve.

In addition, the present invention is to solve the problem that the inhabitants can freely inhabit and move along the aquatic life passage formed on the bottom surface of the raft block.

The present invention forms a vegetation portion having a plurality of honeycomb structure penetrating up and down inside the revetment block as a means for solving the above problems, and forms a plurality of divided vegetation portion on the outer peripheral surface, While forming a recessed groove having a lower portion, a method of simultaneously fitting both sides of the butterfly connector to the latching grooves formed on the pair of rake blocks that abut when connecting the raft block in all directions is devised.

In addition, the present invention forms an anchor groove divided into two by vertically penetrating the outer end circumferential surface of the engaging groove, and through the butterfly connector and anchor groove selectively sewn in the ground and grouting in the ground A technique having a grouting injector that can be injected is devised.

In addition, the present invention seeks to provide a technique for recessing and installing an underground living passage that connects the vegetation part and the divided vegetation part to the bottom of the lake block.

According to the present invention, since the vegetation portion of the honeycomb structure penetrates up and down on the raft block made of porous concrete is formed, the vegetation area is wide, and a large amount of plants can be planted as well as the roots of the plants are smoothly slid into the soil to grow the environment of the plant. This excellent yet secured block is a honeycomb structure, which provides a highly stable structure and effectively prevents loss.

In addition, the butterfly-shaped connector is fitted in the locking groove recessed bottom is blocked even if the ground is scoured or separated from the bottom to prevent the loss of the butterfly-shaped connector as well as the relief block.

Furthermore, the support anchor for fixing the butterfly connector in a penetrating state is embedded in the support grout placed in the ground by using a grouting injector, so the ground anchoring force is very excellent and thus prevents the loss of the raft block more completely. An underground corridor that connects wealth to each other is formed at the bottom of the raft block, so that various beneficial terrestrial organisms (earthworms, etc.) freely move in and out, supplying fertilizer to soil and plants and improving physical properties to improve plant growth. It provides a further promoting effect.

It will be described a preferred embodiment for implementing the solution of the problem to be solved by the present invention in more detail.

Looking at the overall technical configuration according to the preferred embodiment of the present invention based on the accompanying drawings, a plurality of vegetation portion 20 having a honeycomb structure formed to penetrate up and down inside the block body 10; A plurality of divided vegetation parts 30 formed vertically through the outer circumferential surface 11 except for the vegetation part 20; A locking groove 40 formed at the same time as the lower portion of the circumferential surface 11 is blocked and the upper and side portions thereof are opened; Consists of an organic coupling configuration of the butterfly connector (50) that both sides are assembled at the same time in the seating groove (40) formed in each of the pair of block body (10) to be in contact with each other when connecting the revetment block (B) in all directions It can be seen.

Hereinafter, the present invention made of the schematic configuration will be described in more detail.

The revetment block (B) of the present invention is made of porous concrete with pores formed so that the roots of some plants dig into the pores formed in the porous concrete, as well as excellent permeability, and has a function to purify the water quality when contacted to the river.

As such, the block body 10 of the raft block B is formed with a plurality of vegetation parts 20 having a honeycomb structure penetrating up and down inside thereof, so that the vegetation part 20 is filled with vegetation soil as shown in FIG. 10. When plants are planted in most plants, they can be rooted directly in the soil to grow vigorously, and the honeycomb structure provides a more natural-friendly effect by securing a wider vegetation area while maintaining a very stable structure.

On the outer circumferential surface 11 of the block body 10 except for the vegetation part 20, a plurality of divided vegetation parts 30 penetrating up and down are formed, and the divided vegetation parts 30 have a honeycomb structure. Since the vegetation part 20 is formed in two divided shapes as shown in FIG. 3, the vegetation part 20 is completed while forming one set with the divided vegetation part 30 of the other raft blocks B which are in contact with each other as shown in FIG. 3. The vegetation part of the honeycomb structure is completed.

In the circumferential surface 11 is formed with a recess groove 40 for integrally connecting the revetment block (B), the locking groove 40 is fitted from the top to the lower as shown in Figure 4, but the assembly is completed Even when scrubbing occurs in the ground (1), the lower portion is blocked and at the same time the upper and side portions are formed to have an open structure to prevent falling or falling out.

The butterfly connector 50 is fitted into the locking groove 40 to be integrally connected to the rake block (B) in all directions, the pair of block body (10) to be in contact with each other when connecting the rake block (B) in all directions Both sides are fitted at the same time in a state seated in the engaging groove 40 formed in each.

Here, the butterfly connector 50 is formed in the horizontal plane 51 formed in the center of the engaging surface 52 of the reducer shape gradually progressing toward both sides are formed symmetrically from the center, while the butterfly connector ( The butterfly-shaped connector 50 is formed on the inner surface of the engaging groove 40 to which the 50 is fitted, respectively, and a catching surface 42 having the same shape as closely contacted with the engaging surface 52 of the butterfly-shaped connector 50. In the assembled state, it is possible to maintain a solid binding force without opening or separating the raft block (B).

On the other hand, the outer end circumferential surface 11 of the engaging groove 40 is driven by a support anchor 80 so that the butterfly connector 50 and the guard block (B) can be firmly fixed to the ground (1) at the same time An anchor groove 45 of two divided shapes is formed penetrating up and down.

And the present invention is a grouting injector 60 that continuously passes through the fixing hole 53 and the anchor groove 45 formed in the center of the butterfly connector 50 is fitted into the engaging groove 40 as shown in FIG. By additionally provided by selectively grind the grouting injector 60 in the ground (2) and then injecting grouting to support the ground grout 70 in the ground (2) without excavating the ground or lifting the raft block (B) It can be poured easily.

The grouting injector 60 of the present invention as described above is formed with an injection hole 62 in the upper portion of the pedestal 61 which is stably seated on the top of the guard block (B), the pedestal 61 in the lower end of the injection hole 62 The spout pipe 63 is connected to be communicated through the installation is exposed, the spout pipe 63 is formed with a pointed lower end to facilitate the sewn work in the ground, the lower side to the ground to eject the grouting underground (2) A plurality of ejection holes 64 are formed on the support grout 70, which is a weight support.

Therefore, when grouting is injected into the inlet 62 using gravity or a pump in the state where the grouting injector 60 is sewn onto the ground 2 as shown in FIG. 8, the grouting is carried out to the ground 2 through the outlet 64. The support grout 70 can be poured while ejecting.

When the support grout 70 is poured into the ground 2 as described above, the grouting injector 60 is separated and removed to the outside, and then the support grout 70 is completely hardened before the support grout 70 is completely hardened. The fixing hole 53 and the anchor groove 45 of the 50 is sewn and fixed so that the support anchor 80 penetrates.

Therefore, the support anchor 80 is fixed to the head portion 81 formed at the upper end by pressing the butterfly connector 50 and the relief block (B) at the same time to the bottom at the same time the lower end is inserted into the support grout (70). The buried block (B) is grounded through the hardening in a state of being in a fixed state, and ground fixation force is greatly improved to prevent loss in rainy season and rainfall.

On the other hand, the present invention is a plurality of underground passage 90 for connecting the plurality of vegetation portion 20 and the divided vegetation portion 30 in a state capable of communicating with each other on the bottom surface of the block body 10 as shown in Figs. Since the formation of the revetment block (B) is completed after the completion of the construction of the subterranean passage 90 through the plurality of vegetation part 20 and the divided vegetation part 30 to form a single space connected to each other various beneficial underground organisms ( Earthworms, etc. can freely move in and out, thus preserving the ecosystem.

1 is a perspective view of a raft block to which the present invention is applied

Figure 2 is a bottom view of the lanyard block of the present invention

3 is a plan view of the connection state of the invention block

Figure 4 is a perspective view of the separation state of the butterfly connector and the locking groove of the present invention

Figure 5 is a plan view of the separated state of the butterfly connector and the locking groove of the present invention

Figure 6 is a longitudinal cross-sectional view of the grouting injector of the present invention is inserted into the butterfly connector and the anchor groove

Figure 7 is a longitudinal cross-sectional view of the grouting injector of the present invention is sewn in the ground through the butterfly connector and the anchor groove

8 is a longitudinal sectional view of the grouting injector of the present invention ejecting grouting in the ground;

9 is a longitudinal cross-sectional view of a support anchor of the present invention embedded in a support grout;

Figure 10 is a longitudinal cross-sectional view of a state in which the organism is free to move through the underground organism passage of the present invention

[Explanation of symbols on the main parts of the drawings]

1: ground 2: underground

10: block body 20: vegetation

30: split vegetation part 40: jam groove

42, 52: engaging surface 50: butterfly connector

60: grouting injector 63: ejection pipe

64: spout 70: support grout

80: Jiziangka 90: subterranean passage

Claims (7)

A plurality of vegetation parts 20 having a honeycomb structure formed by penetrating up and down inside the block body 10; A plurality of divided vegetation parts 30 formed vertically through the outer circumferential surface 11 except for the vegetation part 20; A locking groove 40 formed at the same time as the lower portion of the circumferential surface 11 is blocked and the upper and side portions thereof are opened; It consists of a butterfly connector (50) that both sides are fitted at the same time in a seating state in the engaging groove (40) formed in each of the pair of block body (10) in contact with each other when connecting the revetment block (B) in all directions; The outer end circumferential surface 11 of the locking groove 40 is formed by penetrating up and down the anchor groove 45 having a two-divided shape, of the butterfly connector 50 is fitted into the locking groove 40 The vegetation protection block with excellent ground fixation force, characterized in that it comprises a grouting injector (60) that selectively penetrates the fixing hole (53) and the anchor groove (45) in the ground (2). The method of claim 1, The grouting injector 60 has an injection hole 62 formed on an upper portion of the pedestal 61 seated on the upper surface of the revetment block B, and a lower end of the injection hole 62 allows communication through the pedestal 61. Connected blower pipe 63 is exposed and installed, the blower pipe 63 is formed with a pointed lower end and a plurality of spraying grout into the ground (2) in the lower side to pour the support grout 70 of the state in the ground Vegetation protection block excellent ground anchorage, characterized in that the ejection opening 64 is formed. The method of claim 2, After pouring the support grout 70 into the ground 2, the grouting injector 60 is removed to the outside, and the support anchor 80 is sequentially fixed to the fixing hole 53 of the butterfly connector 50 and the anchor groove. A vegetation protection block with excellent ground fixation force, characterized in that it continuously penetrates (45) and is integrally embedded in the support grout (70) placed on the ground (2). delete delete delete delete

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