KR200403455Y1 - Block for plants - Google Patents

Abstract

The disclosed invention relates to a vegetation block which is installed in a river, a lake, a slope, an incision, and the like, so that plants can grow in a gap while preventing loss or collapse of soil. In a vegetation block that is installed in a lake, a surface, an incision, etc. to prevent loss or collapse of soil, the vegetation block 1 is based on reinforcing bars 12, and concrete is poured into the foundation rebar. The overall shape is changed according to the shape of the reinforcement, the front of the concrete is cast natural stone-like projections 10 are formed, between the projections 10 due to the bending of the projections 10 naturally the vegetation space (14) ) Is formed to fill the soil to plant the plant, the outer ring is connected to the connection ring 16 is connected to another neighboring vegetation block, and is located at the corner of the four sides of the projection (10) At the outer periphery of one projection, the contact piece 18 for surface contact with another vegetation block adjacent thereto is formed as a gist of the construction.

Description

Vegetation Blocks {BLOCK FOR PLANTS}

The present invention relates to a vegetation block that is installed in rivers, lakes, slopes, incisions, etc. to prevent the loss or collapse of earth and sand, and to allow vegetation to grow in the gaps. It is about vegetation blocks that create natural scenery and promote vegetation, and have high elasticity in deformation of river's curves and straight lines.

The existing river maintenance type has been promoted with the focus on the change of river structure to simply reduce flood damage, and has maintained rivers with cement blocks, stone blocks, and concrete retaining walls.

River maintenance using cement blocks, stone blocks, and concrete retaining walls has advantages in terms of durability and economics, but as a result, rivers tend to be simply channeled, and the riverbed and rivers are blocked by concrete to disconnect the river ecosystem. In addition, environmental impacts such as destruction of ecological environment, damaging natural landscape, and loss of river purification capacity have been adversely affected. Therefore, construction methods that promote natural rivers have recently emerged.

Pure reproductive method is suitable for the natural state of the stream, but it is difficult to select suitable plant species according to the characteristics of the river and the soil, and to reduce the flood communication cross-sectional area in terms of dimensions and function, There are major disadvantages such as the possibility of the loss of plants and lakes due to the increase of the roughness coefficient and the drift force during flooding.

In addition, generally, construction methods for protecting slopes by installing retaining wall blocks and gabions having various shapes and shapes on one side of a river embankment, dike or drainage are known, but this is not beautiful in appearance and requires a lot of budget. There are problems such as natural destruction due to the production of stones, especially in the state of being installed on the weak ground, the case of the dike is lost due to flooding is often avoiding construction.

That is, in the conventional construction structure using the retaining wall block, concrete blocks, which are never environmentally friendly, are exposed too much on the entire surface of the construction site, which is very monotonous and environmentally friendly, thus harming the natural landscape. It is made of a structure that simply laminates the weight of the concrete body is not easy to construct, there is a problem such as long air.

The present invention is devised to solve the problems of the prior art as described above, the block is in the form of natural stone, the vegetation space portion is provided in the gap to grow plants, while creating a beautiful natural landscape and promote vegetation, curve of the river Its purpose is to provide a vegetation block that has high elasticity in deformation of straight lines and excellent harmony with the natural environment and construction, and ensures the stability of the flow rate due to the increase of the roughness coefficient after construction.

As a specific means for achieving the above object, the present invention is installed in rivers, lakes, slopes, incisions, etc. to prevent the loss or collapse of earth and sand, based on the reinforcing bars As the concrete is poured, the overall shape varies according to the shape of the reinforcement of the foundation reinforcement, and natural stone-like protrusions are formed on the front of the concrete, and vegetation space is naturally formed due to the bending of the protrusions. Fill the plant can be planted, the outer periphery by providing a vegetation block, characterized in that the connection consists of a buried structure for connection with another neighboring block.

Here, the vegetation block is made of a structure in which the reinforcing bars are generally arranged in a box-shaped quadrangular shape and reinforced bars are reinforced in diagonal directions to ensure structural stability, and may be configured to form a quadrangular shape after concrete placement. Reinforcing bars are generally reinforced in a hexagonal shape, and the reinforcing bars are arranged in a reinforcing bar in a direction crossing the reinforcing bar, and may be configured to form a hexagonal shape as a whole after concrete pouring.

And, the concrete to be poured on the reinforced reinforcement, the aggregate and the cement is mixed in a 4: 1 weight ratio, and the water is composed of a mixture so as to have a weight of 30% of the weight of the mixed cement, many holes are formed after casting It may be cured in the form of a pitcher cone material, and the concrete may further form a vegetation block in the form of basalt with many pores after pouring by adding a black pigment.

In addition, the connecting ring applied to the present invention is preferably galvanized on its surface to prevent corrosion due to immersion.

Hereinafter, various embodiments of the vegetation block according to the present invention will be described in detail with reference to the accompanying drawings.

<Example 1>

1 to 2 is a view showing a first embodiment of the vegetation block of the present invention.

The vegetation block, which is designed to prevent the loss or collapse of earth and sand, is installed in rivers, lakes, slopes, and incisions, and concrete is poured based on the reinforcement bars. The shape is different, in this embodiment, the reinforcing bars 12 are generally arranged in a box-shaped quadrangular shape, and the reinforcing bars 12 'are arranged to secure structural stability in the diagonal direction. It is characterized by forming a square shape.

At this time, the front of the block by the concrete curing is provided with a protrusion 10 in the form of a natural stone to produce a natural landscape after construction, between the protrusions 10 can be planted naturally due to the bending of the protrusion (10) Vegetation space 14 is formed.

In addition, the outer periphery of the protrusion 10 is connected to another block adjacent to the connection ring is buried so that the vegetation block can be continuously arranged by the required area, the protrusion located on the four corners of the protrusion (10) At the outer periphery, a contact piece 18 for surface contact with another vegetation block adjacent thereto is formed.

Here, the connection ring 16 is preferably plated by melting zinc on its surface to prevent corrosion due to immersion.

The vegetation block according to the first embodiment having such a configuration is constructed in a zigzag manner as shown in FIG. 3. That is, the vegetation block 1A is continuously disposed in the horizontal direction so that the connecting rings 16 provided at each corner thereof are adjacent to each other, and in the vertical direction, the connecting rings 16 formed at the upper and lower centers of one vegetation block. Rows adjacent to the adjacent link of the plurality of vegetation blocks of the plurality of vegetation blocks 16 are arranged adjacent to each other to connect the connecting ring 16 using a connection member such as a chain.

When zigzag construction is carried out as described above, the gap between the earth and sand is reduced to minimize the soil outflow due to heavy rain or flooding, to prevent scour and to ensure structural stability after construction.

According to the first embodiment to be constructed as described above, when the block construction for the deformation form of the curved surface, the straight surface, etc. of the stream is high elasticity is excellent in workability and aquatic environment and natural harmony, natural stone-like projection 10 and Plant vegetation (see Fig. 4) in the vegetation space 14 is able to produce an environment-friendly natural landscape.

<Example 2>

5 to 6 is a view showing a second embodiment of the vegetation block of the present invention, the same member name and reference numerals will be used for the same configuration as the first embodiment described above.

The present embodiment also has a natural stone-like protrusion 10 is formed on the front surface of the block by the curing of the concrete, and the vegetation space 14 is naturally formed due to the bending of the protrusion 10 between the protrusions 10 to the earth and sand It is possible to plant plants, and the outer periphery is composed of a connection ring 16 is embedded for connection to another block adjacent to this configuration, which is the same as the first embodiment.

However, in the present embodiment, the reinforcing bars 12 are arranged in a hexagonal shape as a whole, and the reinforcing bars 12 'are arranged in a direction transversely to the reinforcing bars inside, and are configured to form a hexagonal shape overall after concrete pouring. The point is different from the above first embodiment.

The vegetation block 1B of this second embodiment is constructed as shown in FIG. That is, any one contact piece 18 of neighboring blocks on one surface of six blocks is placed in surface contact with each other so that the connecting ring 16 provided at each vertex is adjacent to each other, and then each connecting ring 16 When connecting by using a connecting member such as a chain, it is possible to continuously arrange the vegetation block 1B by the required area.

According to the second embodiment as described above, as in the first embodiment, the elasticity is high in the construction of the block for the deformed form of the curved surface, the straight surface, etc. of the river, and the workability and the hydration environment and the natural harmony are very excellent. Therefore, seven natural stone-like protrusions are formed, such that the stability of the flow velocity due to the increase in the roughness coefficient can be sufficiently secured.

<Example 3>

8 is a perspective view showing another embodiment of the vegetation block according to the present invention.

The vegetation block 1C applied to the present embodiment is different from the vegetation block in the first and second embodiments described above.

That is, the first embodiment 전술 described above mixes concrete, which is poured into reinforcement bars as in the second embodiment, with the aggregate and the cement in a 4: 1 weight ratio, and has water at 30% by weight of the total weight of the cement to be mixed. When mixed, it will be cured in the form of a permeable cone formed with pores (H) as shown in FIG.

Here, if the black pigment is further added to the concrete, it is possible to produce a block in the form of basalt having a lot of pores after pouring.

According to the present embodiment, the appearance is beautiful and not only can produce an eco-friendly natural landscape, but also the high water permeability of the block can prevent the flooding of the river.

As described above, according to the vegetation block of the present invention, the block has a natural stone shape and a vegetation space part for plant growth is provided in the gap to create a beautiful natural landscape and to structurally activate the root uptake of the plant to promote vegetation. It has high elasticity in the deformation of the curves and straight lines of the river, so it is excellent in harmony with the natural environment and construction, and ensures the stability of the flow rate due to the increase of the roughness coefficient after construction, and prevents the loss of soil and vegetation soil. Many effects, such as being able to, are expressed.

Although the present invention has been illustrated and described in connection with specific embodiments, it should be understood that the present invention may be variously modified and changed without departing from the spirit or the scope of the present invention provided by the following claims for utility model registration. It will be appreciated that those skilled in the art can easily know.

1 is a perspective view showing a first embodiment of the vegetation block according to the present invention.

2 is a planar configuration diagram according to FIG.

3 is a plan view showing the construction of the vegetation block according to the first embodiment of the present invention.

Figure 4 is a construction state showing a state in which the vegetation block according to the present invention constructed on the river slope.

5 is a perspective view showing a second embodiment of the vegetation block according to the present invention.

6 is a plan view according to FIG.

7 is a plan view showing the construction of the vegetation block according to a second embodiment of the present invention.

8 is a perspective view showing a third embodiment of the vegetation block according to the present invention.

<Description of Signs of Major Parts of Drawings>

1 ... vegetation block

10 ... protrusion

12 ... rebar

14 ... vegetation space

16 ... connection

18.Contact

Claims (6)

In vegetation blocks that are installed in rivers, lakes, slopes, incisions, etc. to prevent loss or collapse of soil, The vegetation block (1) is concrete is poured on the basis of the reinforcement (12), the overall shape is changed according to the shape of the reinforcement of the foundation reinforcement, the natural stone-like projection 10 is formed on the front of the concrete is poured The vegetation space 14 is naturally formed between the protrusions 10 due to the bending of the protrusions 10 to fill the earth and sand to plant the plants, and the outer periphery is connected to another neighboring vegetation block. Connection ring 16 is embedded for the purpose, the outer periphery of the protrusion located on the four corners of the protrusion 10 is made of a configuration in which the contact piece 18 for the surface contact with another vegetation block adjacent to this A vegetation block characterized by. The method of claim 1, The vegetation block 1 is composed of a structure in which the reinforcing bars 12 are generally arranged in a box-shaped quadrangular shape and the reinforcing bars 12 'are arranged to secure structural stability in a diagonal direction. Vegetation block, characterized in that configured to form. The method of claim 1, The vegetation block (1), the reinforcing bars 12 are arranged in a hexagonal shape as a whole, and the reinforcing bars 12 'are arranged in a direction transverse to the reinforcing bar inside, so as to form a hexagonal shape as a whole after concrete pouring Vegetation block, characterized in that configured. The method according to any one of claims 1 to 3, The concrete to be placed on the reinforced reinforcement, the aggregate and the cement is mixed in a 4: 1 weight ratio, and the water is composed of a mixed composition to have a weight of 30% of the weight of the cement, the pitcher cone formed a lot of pores after pouring Vegetation block characterized in that it is cured in the form of a material. The method of claim 4, wherein The vegetation block is characterized in that the black pigment is further added to the concrete is cured in a basalt form having many pores after pouring. The method of claim 1, The connecting ring 16 is a vegetation block, characterized in that the galvanized treatment on the surface to prevent corrosion.