KR200420393Y1 - The vegetative block - Google Patents

Abstract

The present invention relates to a vegetation block for construction for protection of land, incisions, etc. More specifically, the built retaining wall secures its structural stability by minimizing the vertical and horizontal displacement of the block due to earth pressure or creep. In order to achieve the above object, the vegetation block structure forms an upper support portion and a lower support portion that can be combined with the block on the other side, and both sides of the support portion are provided. Side locking portions protruding by the height of each is formed, and the upper and lower rear portions of the structure are formed as an upper locking portion and a lower locking portion, respectively, which can support the other side block to be coupled, as well as integral with the locking portion The furnace block support and the block reinforcement are integrally formed to improve the interconnection structure between vegetation blocks and Even a thousand barriers are characterized by easy installation.

Vegetation block, block, block structure

Description

Vegetative Block {The vegetative block}

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

Figure 2 is a side view of the vegetation block according to the present invention.

Figure 3 is a front view of the vegetation block according to the present invention.

Figure 4 (a) (b) is a perspective view of a state in which the main portion of the present invention is assembled.

5 is a front view of a state in which the main portion of the present invention is assembled.

Figure 6 is a side cross-sectional view showing an installation state of the vegetation block according to the present invention.

Explanation of symbols on the main parts of the drawings

10. Block structure 11. Upper support

12. Lower support 13. Upper latch

14. Lower hook 15. Block support

16. Block reinforcement 17. Side catches

The present invention relates to a vegetation block for retaining wall construction for protection of land, incisions, etc. More specifically, the retained wall has a structural stability by minimizing the vertical and horizontal displacement of the block due to earth pressure or creep. It's about a vegetation block that lets you do that.

Conventionally used blocks are provided with a through-hole in the center, and the front and rear surfaces are formed in a plane, by stacking the blocks alternately to form a constant space between the upper and lower blocks to inject the mold to bind to each other. It has a configuration, which has the following problems.

Since the front and rear surfaces of the block are formed in a plane and cannot accommodate soil, not only the aesthetics are not excellent, but vegetation, such as plants, is impossible, and thus, there is a problem in that the ecosystem is not harmonized with the surrounding environment. In particular, as the interest in environmental protection is increasing recently, the demand for environmentally friendly products is also increasing, so that blocks are not limited to the function of simply preventing the settlement of soil, but also to enable vegetation such as plants. Increasingly, interest in environmentally friendly vegetation blocks is increasing.

As a result, the conventional block has a disadvantage that it is insufficient to meet this requirement because the front and rear are both formed in a flat surface, which cannot naturally provide a space for plant vegetation. Since friction between the front surface of the block formed as the plane of the building block and the river water does not occur at all, there is a problem that the vegetation of the plant becomes more difficult at the same time as the ground subsidence is accelerated by increasing the flow velocity and flow rate.

In addition, in recent years, in the case of a slope with a gentle slope, a flat-plating method is applied, or a bar-shaped block is laid in a reticular manner, and a precaster method in which grass is planted in the space or a mixed soil of seeds is attached to the surface layer. The construction method is used to prevent the loss of soil on the slope and to prevent the collapse of the slope. However, the conventional methods constructed to prevent the loss of soil on the slope and to prevent the collapse of the slope are conventional vegetation layers for plant habitat. Since it is thinly constructed on the surface of this slope, it is weak in robustness, especially during the rainy season, and is easily lost due to rapids, and has a problem of collapse during thawing.

On the other hand, in order to prevent the dike and the loss of waterways, various types of vegetation blocks are formed in the waterways such as rivers and rivers, and the vegetation blocks have a constant construction surface to prevent the loss of the dike due to flooding. It will be constructed to be in a dense state.

In this situation, if one block is lost or detached from the blocks constructed due to heavy rain, each of the raft blocks gradually fixed to each side and bottom may be lost or even collapsed over time. In recent years, construction by concrete blocks with molding beauty has been made, but there is still a demand for an environment-friendly and landscape-oriented environment without leaving the hard feeling of concrete.

In order to solve this problem, a grid block capable of introducing plants such as trees or herbaceous plants may be applied, but this is a problem that the stability of the soil is reduced due to the outflow or sliding of the soil, and the concrete block is applied in the lake shore to prevent erosion. By considering only the water supply function at the time of flooding and flooding, it is bringing down the disadvantages of the river ecosystem and thus cannot use the original function of the river.

In addition, various vegetation blocks currently developed to solve such a problem have been developed to have a shape and a predetermined thickness so as not to be separated from the ground, but the soils accumulated in the vegetation block during rainy weather are flowed down without any countermeasures. As the bearing capacity of the vegetation block is weakened, there is a disadvantage that collapse, settlement and loss of the dike can occur.

The present invention has been devised to solve the conventional problems as described above, by closely coupling the bonding force between the vegetation block of the other side or the bonding force with the ground to the maximum to support each other so as not to be separated when connecting the vegetation block, when discharge of flowing water The purpose is to keep the soil from flowing down.

In order to achieve the above object, the vegetation block structure forms an upper support portion and a lower support portion that can be combined with the block on the other side, and both sides of the support portion form side engaging portions protruding by a predetermined height, respectively, The upper and lower rear portions of the structure may each form an upper catching portion and a lower catching portion capable of supporting the other block to be coupled thereto, as well as integrally forming the block supporter and the block reinforcing portion integrally with the catching portion and between the vegetation blocks. The aim is to improve the interconnect structure and provide a vegetation block that is easy to install on top of the curved river barrier.

Hereinafter, the configuration of the preferred embodiment of the present invention in detail by the accompanying drawings as follows.

1 is a perspective view of a vegetation block according to the present invention, Figure 2 is a side view of the vegetation block according to the present invention, Figure 3 is a front view of the vegetation block according to the present invention, Figure 4 (a) (b) is 5 is a front view of a state in which the main part of the present invention is assembled, and FIG. 5 is a front view of a state in which the main part of the present invention is assembled, and FIG. 6 is a side cross-sectional view showing an installation state of a vegetation block according to the present invention.

As shown in FIG. 1, the block structure 10 of the present invention is composed of side locking portions 17 formed on both sides, and an upper support portion 11 and a lower support portion 12 formed up and down, as well as the upper portion. An upper locking portion 13 and a lower locking portion 14 are formed at the rear of the supporting portion 11 and the lower supporting portion 12 to protrude to a predetermined height, and the upper portion of the locking portions 13 and 14 is formed. The lower part of the block supporter 15 and the block reinforcement 16 is formed.

The side locking portions 17 formed on both sides of the block structure 10 on the front and the bottom thereof are stacked in close contact with the other side of the block structure 10 assembled to the side as shown in FIGS. Another block structure 10 which is to be configured to be integrally coupled with the lower support portion 12, the lower engaging portion 14 formed integrally with the lower support portion 12 in the process of coupling as described above is in close contact with the The plurality of side locking portions 17 are supported from the rear. In addition, the block supporting portion 15 and the block reinforcing portion 16 which are integrally formed with the lower locking portion 14 protruding by a predetermined height, the block reinforcing portion 16 of another block structure 10 is stacked The block supporting part 15 formed integrally with the block reinforcing part 16 is stacked on the stack reinforcement part 16 and is formed of a separation membrane that can make a vegetation space as shown in FIG.

On the other hand, the front surface of the block structure 10 is formed in the form of a natural stone that corresponds to the rapid flow rate of the river, and can reduce the flow rate.

As a result, the portion of the side locking portion 17 formed on both sides of the block structure 10 is supported by the lower locking portion 14 and the upper locking portion 13 of another block structure 10 to be stacked by hydraulic and earth pressure. It is possible to prevent the situation to be pushed backward, the block supporter 15 and the block reinforcing portion 16 formed integrally with the upper locking portion 13 and the lower locking portion 14 is to block the block structure (10) It can support overall and make vegetation space.

That is, by installing the vegetation block as described above in the vegetation of small and medium rivers, as well as ecological retreat, apartment complex, roadside park, etc., it is possible to prevent the outflow of soil.

Hereinafter, the operation and effects of the present invention made of the above configuration will be described in detail.

6 is a cross-sectional view showing a state in which the vegetation block of the present invention is built on the embankment, in order to construct the vegetation block on the steep slope or other incision of the dike in the shape as described above, generally, one reference to the bottom or top of the dike The vegetation block is constructed step by step.

That is, at the lower end of the embankment or other incision, the foundation concrete is poured as shown in FIG. 6 to form a blunt, and then a rubble filler (not shown) and a soil filler (not shown) are sequentially formed on the upper slope. The method of allowing the vegetation block to be built is similar to or the same as in the prior art.

The block structure 10 to be constructed is arranged in a straight line in the left and right direction as shown in Fig. 4 (a) (b), the side engaging portion 17 formed on both sides of the front surface of the block structure 10 is After being formed in a single fixed body while being in close contact with the block structure 10, it is laminated in a manner of being closely fixed to the lower support portion 12 of the stacked block structure (10).

In the above situation, the block support part 15 and the block reinforcement part 16 formed on the block structure 10 serve to support the upper support part 11 and the side locking part 17 from the rear side.

Another block structure 10 stacked in the above structure is a side engaging portion 17, which is mounted on the upper support portion 11 as shown in Figure 4 (a) (b) of Figures 1 and 4 (a). Since the lower catching portion 14 formed as shown above supports and supports it, it is not easily separated by a force generated from the outside.

At this time, the block supporter 15 and the block reinforcing portion 16 formed integrally with the upper locking portion 13 and the lower locking portion 14 are stacked on the lower side by the weight and the load of another block structure 10. Press), and also the separating support 15 can be used as a space for plant vegetation.

As a result, the pressing force according to the stacking step can be safely stacked with the stacked block structure 10 with the effect of increasing.

On the other hand, rubble and soil are filled in a space formed in both sides of the block supporting tool 15 of the block structure 10 stacked as shown in FIG.

And, in the process of being combined as shown in Figure 4 (b) is formed on both sides of the block support (15) as a vegetation part of the space where plants can grow.

That is, it is possible to effectively cope with the pressure of the river blowing in the rain in the situation of building the block structure 10 in the form as shown in Figures 5 and 6, the built-in retaining wall is the occurrence of vertical and horizontal displacement of the block by earth pressure or clips There is a feature that can minimize the to ensure the structural stability.

The present invention described above is limited by the above-described embodiments and the accompanying drawings as various substitutions and modifications can be made without departing from the technical spirit of the present invention for those skilled in the art. It doesn't happen.

As described above, the present invention is able to maintain the dimensions effectively by assuring the bonding force of the vegetation block as closely as possible, and it is environmentally friendly as well as the shape of the polygon as it can serve as the growth of the plant according to the formation of the vegetation part and the drainage pipe of the retaining wall and the stone shaft Minimize the outflow of soil by using the body consisting of the existing stonework and canine block and beautifully elapsed while the ease of assembly, as well as structurally effective to maintain the effect.

Claims (2)

In vegetation block, The vegetation block structure is formed with an upper support portion and a lower support portion, respectively, which can be combined with the block of the other side, each side of the upper support portion and the lower support portion to form a side engaging portion protruding by a predetermined height, respectively, The upper and lower rear portions of the vegetation block structure are integrally formed with an upper catching portion and a lower catching portion that can support the other block to be coupled, as well as a block supporter and a block integrally with the upper catching portion and the lower catching portion. Vegetation block, characterized in that configured to support and reinforce the vegetation block to be laminated by forming a reinforcement The method of claim 1, The side locking portion of the block structure accommodated in the upper support portion and the lower support portion is in close contact with the side locking portion of the block structure on the other side and configured to be laminated while being coupled to the support portion in the vertical direction

Images