KR200403507Y1 - Cellular Block Of A Plant Community Type - Google Patents

Abstract

The present invention relates to a vegetation hollow block constituting the relief structure. The main configuration of the present invention, the base member is installed on the bottom of the inclined surface on which the revetment structure is to be installed, the upper fixing groove is formed on the top, and is formed by curing with concrete; Coupled to the upper portion of the base member in a double layer, the upper portion is formed in a rectangular box shape with a space formed therein, the lower fixing groove is formed at the bottom and the upper fixing groove is formed at the upper portion, the river A hollow block filled with materials and tonang (environmentally friendly net which naturally corrodes over time with a net containing a mixture of cultured soil and seeds); The base member and the hollow block coupled to the multi-layer is characterized in that it consists of a connector that is fitted into the corresponding upper and lower fixing grooves of the hollow block and the hollow block to firmly fix them.

Therefore, the present invention has the effect of improving the safety, environment, and ecological functionality at the same time in constructing the revetment structure, to secure the economics by reducing the construction period and construction cost.

Description

Vegetal Block Of A Plant Community Type

The present invention relates to a vegetation hollow block constituting the relief structure. More specifically, the construction of a river bank using a hollow block manufactured at the factory, and filling the river material (sand, earth and sand, etc.) into the space of the hollow block to resist earth pressure and water pressure by its own weight In addition to the installation, by filling the vacant bag (environmentally friendly network which is a natural erosion over time with a mixture of cultured soil and seeds) in the space, at the same time to improve safety, environment and ecological functionality, construction It is to provide a vegetation hollow block that can secure economic feasibility by reducing the period and construction costs.

At present, the slopes are formed to prevent the loss of rivers or roads by wind or rain, and the bulky stones are cut or processed to a suitable size to accumulate stones to prevent the soil from falling down or sweeping out during rainy weather. have.

However, to accumulate the stonework as described above, the work takes a long time, as well as cutting or processing heavy stones, and to secure materials, other natural damage and noise, dust scattering, etc. In case of urgent construction, there are difficulties in supply and transportation of materials and construction costs, and there is a risk of safety accidents during construction. Plants (eg vegetation such as trees or grass) can not be planted and grown at the upper part of the plant, which causes a problem that the natural green space is reduced and brings an imbalance of the ecosystem.

In order to improve the above problems, various types of revetment structures have been produced in recent years, and the revetment structures form spaces on the inside to fill the spaces with soil, manure, and so on. While planting, a plurality of through holes are formed on the bottom of the revetment structure so that the drainage and the planting can take root on the ground.

Therefore, the present applicant has also devised a vegetation-type hollow block that can obtain a more improved function in accordance with the current trend and at the same time easy to maintain and firmly fixed.

The present invention has been made for the purpose as described above, the purpose is to provide a vegetation-type hollow block that can improve the safety and environment, ecological functionality at the same time, and secure economic efficiency by reducing the construction period and construction costs.

The purpose of the present invention and many of the accompanying effects will be readily understood by the following detailed description.

The present invention has the following features to achieve the above object.

The main configuration of the present invention, the base member is installed on the bottom of the inclined surface on which the revetment structure is to be installed, the upper fixing groove is formed on the top, and is formed by curing with concrete; Coupled to the upper portion of the base member in a double layer, the upper portion is formed in a rectangular box shape with a space formed therein, the lower fixing groove is formed at the bottom and the upper fixing groove is formed at the upper portion, the river A hollow block filled with materials and tonang (environmentally friendly net which naturally corrodes over time with a net containing a mixture of cultured soil and seeds); The base member and the hollow block coupled to the multi-layer is characterized in that it consists of a connector that is fitted into the corresponding upper and lower fixing grooves of the hollow block and the hollow block to firmly fix them.

At this time, the upper and lower fixing grooves are formed in the hollow block, and the upper fixing grooves are formed to be positioned to the rear side of the lower fixing groove so as to give an inclination to the hollow block coupled to the multilayer. It is preferable to further provide the irregularities of various shapes on the front vertical surface.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention to which the feature is applied will be described in detail.

1 is a view of a hollow block installed state according to the present invention, Figure 2 is a view showing a coupling structure of the present invention hollow block.

As shown in the drawing, a base member 20 having a rectangular cross-sectional shape is installed below the inclined surface 40, and a hollow block 1 having a rectangular box shape is coupled to a plurality of layers on the top of the base member 20. The block 20 and the hollow block 1 and the hollow block 1 and the hollow block 1 are firmly connected by the connector 30 having a rectangular cross-sectional shape.

That is, the connector 30 is coupled to the upper fixing groove 21 of the quadrangle formed on the upper portion of the base member 20, the lower fixing groove of the hollow block 1 to be coupled to the upper layer of the connector 30 in multiple layers Coupling (4) and combine the hollow block (1) on top of the base member (20). At this time, it is very important that the size of the upper and lower fixing grooves 21 and 4 is the same and the size of the connector 30 is the same. This is because when the connector 30 is larger, it is not coupled, and when the connector 30 is smaller, the base member 20 and the hollow block 1 coupled in multiple layers are allowed to flow, so that the relief structure may easily collapse. .

In addition, the foundation member 20 is formed integrally by pouring concrete on the inclined surface 40 to be formed in the revetment structure, the connector 30 is formed to a predetermined length of the upper fixing groove of the foundation member 20 ( 21), the hollow block (1) is manufactured in a unit standard is to combine a plurality of in a row.

At this time, in forming the upper and lower fixing grooves 3 and 4 in the hollow block 1, the upper fixing grooves 3 are formed on the rear side, and the lower fixing grooves 4 are on the front side. It is very important that the hollow block 1 is formed to have an inclination angle inclined backward when the hollow block 1 is coupled to the multilayer.

That is, in order to increase the inclination angle of the hollow block (1) coupled to the double layer, the horizontal block between the upper and lower fixing grooves (3) (4) is further formed, the hollow block (1) coupled to the multilayer In order to reduce the inclination angle of, the horizontal distance between the upper and lower fixing grooves 3 and 4 may be made close.

In addition, the front of the hollow block (1) is shown as a square projection in the drawing, but not limited to this is formed in the concave-convex portion 5 of various shapes, the hollow block (1) by the concave-convex portion (5) It is possible to improve the adaptability to the flow characteristics of the river.

On the other hand, after coupling the hollow block (1) on the upper portion of the base member 20 as described above, by coupling the connector 30 to the upper fixing groove 3 of the hollow block (1), the connector 30 Coupling the lower fixing groove (4) to the top of the) and combines the new hollow block (1) in multiple layers.

At this time, after combining one layer of the hollow block (1) to fill the space (2) of the hollow block (1) by using the river material to form a stuffing portion (8), the river material is Sand, earth and sand, etc. generated during construction on the site, and by using it to fill the space (2), work efficiency is improved, and no additional costs can be installed very easily.

In addition, by forming the stuffing portion 8 filled with the river material in the space 2 of the hollow block 1, the self-weight is increased to be able to achieve a solid relief structure to resist the back ground pressure and river water pressure .

In addition, the hollow block (1) in the upper portion of the space (2) is filled with a mixture of cultured soil and seeds to fill the swelling portion (9) by filling the bag of environmentally friendly nets that become natural corrosion over time The seed is germinated naturally after the construction by the sack part 9 and the plant 10 grows, which can be environmentally friendly and, of course, can be constructed without causing great adverse effects on the ecosystem.

On the other hand, the front and rear lower portion of the hollow block (1), by combining the drain pipe (6) provided with the filter (7) in front and rear to facilitate the flow of water when a large amount of rain to break the revetment structure It is desirable to prevent it. At this time, it is preferable that the hollow block 1 to be installed at a position that is in contact with the water in general is provided with a hollow block 1 to which the drain pipe 6 is not coupled.

3a to 3f is a view showing a process of installing the hollow block of the present invention, Figure 4 is a flow chart showing a process of installing the hollow block of the present invention.

First, as shown in Fig. 3a, after the construction of a water barrier upstream of the construction section where the revetment structure is to be formed, forming a trench 41 at the bottom, inserting and arranging the steel pipes according to the ground conditions, curing the concrete to the foundation member ( 20) and proceeds to the basic work step (S1) to compact the surface soil and slope. At this time, the upper fixing groove 21 of the square is formed in the upper front of the base member 20 is a matter of course.

Then, after the basic work step (S1) proceeds to combine the connector 30 to the upper fixing groove 21 of the base member 20, as shown in Figure 3b, the lower side on top of the connector 30 Inserting the fixing groove 4 and proceeds to the primary block construction step (S2) for coupling the hollow block (1). At this time, the hollow block (1) is made in advance in the factory in the unit standard can be installed very quickly, the inside of the hollow block (1) by filling the stream material into the filling material (8) Forming, but filling the sacking on top of it will leave a space to form the sacking section (9).

In addition, after the first block construction step (S2) proceeds as shown in Figure 3c, the hollow block (1) coupled in a multi-layer combined in the same way as the desired layer in the same manner as the primary block construction step (S2) The n-th block construction step (S3) to proceed. At this time, since the number of floors formed by the hollow block 1 is different according to the length of the inclined surface 40, the step of installing the hollow block 1 as much as the required number of floors is performed.

Then, after the n-th block construction step (S3) proceeds to the backfilling step (S4) to backfill the trench 41 formed in the initial foundation work step (S1) as shown in Figure 3d.

In addition, after the basic backfill step (S4) proceeds as shown in Figure 3e, the space remaining in the upper portion of the stuffing portion (8) filled by using the river material in the space portion 2 of the hollow block (1) Filling the sack in the stool working step to form the stool 9 is to proceed (S5). At this time, the seeds mixed in the sackcloth may be allowed to germinate naturally, and the plant 10 may be planted in the sack portion 9 in a state where the seeds are not mixed in the sackcloth.

Then, after the sacking work step (S5) proceeds to the finishing work step (S6), as shown in Figure 3f, to clean up the sack and clean up the work surroundings, as well as hollow coupled to the inclined surface (40) Check the coupling of the blocks (1) once again to achieve a certain relief structure, and to disassemble the water barrier to allow the water to flow.

Thus, with respect to the vegetation hollow block of the present invention, all the various design changes of each component within the scope of the present invention is considered to be included in the technical spirit of the present invention.

As described above, the present invention constructs a river embankment using a hollow block manufactured at a factory, and stuffs river materials (sand, earth and sand, etc.) into the space portion of the hollow block by self-gravity and earth pressure. By installing a structure that resists water pressure, and filling the space with tonang (environmentally friendly net that erodes over time with a net containing a mixture of cultured soil and seeds), safety, environment and ecological functionality In addition, it has the effect of improving economics by reducing the construction period and construction costs at the same time.

That is, if only the process of curing the base member to concrete proceeds from then on, since it can be easily combined by using a hollow block and a connector made in advance in the factory, it can be built a revetment structure can be installed quickly, of course, compared to the conventional site In addition, the amount of concrete to be used is also reduced, which has a great effect of reducing the cost of concrete and saving curing time.

In addition, since the hollow block is easily combined into a double layer, the operation is simple and the quality management is easy. There is a huge advantage, and the inclination angle can be adjusted according to the formation position of the upper and lower fixing grooves. There are also effects that can be achieved.

In addition, the front of the hollow block is formed in the concave-convex portions of various shapes, by the concave-convex portion also has the effect of forming a relief structure with a hollow block with improved adaptability to the flow characteristics of the river.

In addition, since the ton is used, it is possible to prevent the outflow of soil by heavy rain before the vegetation is completed, and thus the germination rate of the seed is significantly higher than that of other methods.

1 is a view of a hollow block installed state according to the present invention

2 is a view showing a coupling structure of the present invention hollow block

3a to 3f is a view showing a process of installing the present invention hollow block

Figure 4 is a flow chart showing the process of installing the subject innovation hollow block

<Explanation of symbols for main parts of the drawings>

1-hollow block 2-space part

3-Upper fixing groove 4-Lower fixing groove

5-uneven part 6-drainage pipe

7-Filter 8-Filler

9-Tongue 10-Plant

20-Base member 21-Upper fixing groove

30-End Connection 40-Slope

41-trench

Claims (3)

A base member 20 which is installed at a lower portion of the inclined surface 40 on which the revetment structure is to be installed, and has an upper fixing groove 21 formed thereon and is cured by concrete; The upper part of the base member 20 is coupled to a plurality of layers, the upper part is formed in a rectangular box shape with a space 2 formed therein, the lower fixing groove 4 is formed at the bottom and the upper fixing at the top Hollow block (1) is formed, the space (2) is filled with the river material and tonang (environmentally friendly net that is a natural corrosion over time with a net containing a mixture of cultured soil and seeds) and; The base member 20 and the hollow block 1 and the hollow block 1 and the hollow block 1 and the corresponding upper and lower fixing grooves 21, 3, 4 of the hollow layer 1 are coupled to each other and are coupled to each other. Vegetation-type hollow block, characterized in that consisting of a connector 30 for firmly fixing. According to claim 1, The upper and lower fixing grooves (3) (4) are formed in the hollow block (1), but formed so that the upper fixing grooves (2) to the rear side of the lower fixing grooves (4) Vegetation-type hollow block to give a slope to the hollow block (1) coupled to a multi-layer. The vegetation-type hollow block according to claim 1, further comprising irregularities (5) of various shapes on the front vertical surface of the hollow block (2).