KR101215838B1 - Vegetation block and retaining wall using the same - Google Patents

Abstract

PURPOSE: A vegetation block and a retaining wall using the same are provided to remarkably improve the rigidity of the retaining wall by securely coupling the vegetation blocks to a slope. CONSTITUTION: A vegetation block(100) comprises front and rear surfaces(101,103), right and left surfaces(105,107), top and bottom surfaces, and multiple soil filling portions. The front surface is curved in an arched shape, and multiple native rock patterns(102) are formed thereon. The rear surface is flat and has a narrower width than the front surface. An assembling protrusion(115) is formed on the right surface, and an assembling groove(117) is formed on the left surface. The soil filling portions are divided into a pair of front soil filling portions(111,112) and a pair of rear soil filling portions(113,114) by compartment walls(121,122,123).

Description

Vegetation building block and retaining wall using the same {VEGETATION BLOCK AND RETAINING WALL USING THE SAME}

The present invention relates to a vegetation building block, and more particularly, to a vegetation building block with improved strength of the retaining wall by combining the vegetation building block more firmly, such as land or inclined incision, and a retaining wall using the same.

In general, the retaining wall is a structure that is constructed on a sloped surface of a terrain such as a filly land or an incision to prevent deviation and collapse due to the loss of soil.

Such a retaining wall is made to mix a stone and cement of a certain type on the inclined surface such as land or incision, and to be constructed as a solid structure by curing their, so as to prevent the loss of soil of the land or incision.

Such a retaining wall is likely to deviate or collapse due to the weight of the cement cured by the action of external forces between the built stone and the stone when it is constructed in the above-described manner such as a large land or incision. Excessive time was spent to cure the cement. It is increasingly difficult to prepare natural stone as a stone, and to prepare such a stone, an additional process of cutting and cutting a large stone to a predetermined size is required.

In addition, the retaining wall is not properly discharged in the soil of the terrain, such as fill land or incision, and when the weather is cold, such as winter, when the water freezes and the volume expands, the retaining wall cracks and even the retaining wall collapses. There was a problem.

In order to overcome this point, recently, a method of combining a plurality of blocks and constructing a terrain such as a filly land or an incision is widely used. However, such a block has a problem in appearance that the appearance is monotonous to make the surrounding landscape. That is, the conventional retaining wall block is manufactured only for the safety of the land or slope, so that plants such as vegetation did not grow, thereby providing a heterogeneous landscape that cannot be assimilated with the surrounding environment.

In addition, when used in rivers, natural ecosystems are threatened by restraining the growth environment of animals and plants. As a result, the natural resources of the rivers are lowered and the natural environment of the inhabitants is not met.

In consideration of this, in recent years, vegetation building blocks that can plant plants on the retaining wall to create an environment-friendly space has been widely used.

However, the retaining wall using the conventional vegetation building block has a disadvantage that the strength of the retaining wall is relatively weak because the vegetation building block is not firmly coupled to the land or slope.

The present invention has been made in view of the above, and an object of the present invention is to provide a vegetation building block and a retaining wall using the same, which have improved strength of the retaining wall by more tightly coupling the vegetation building block to a land or a slope.

Vegetation building block according to the present invention for achieving the above object includes a front surface, a rear surface, a right surface, a left surface, an upper surface, a bottom surface, a plurality of soil filling portion,

The front surface is formed to be curved in an arc shape, the front surface is formed with a plurality of natural stone patterns protruding, the rear surface is formed in a narrower width than the front surface, each of the right side and left side assembly projections and The assembly groove is formed to extend in the vertical direction,

The plurality of soil filling portions are formed to be partitioned by partition walls, and the plurality of soil filling portions are divided into a pair of front soil filling portions and a pair of rear soil filling portions by a first partition wall extending in the width direction. The pair of front side soil fill portions are symmetrically partitioned in the left and right directions by a second partition wall, and the pair of front side soil fill portions are formed to penetrate in the vertical direction, and the second partition wall has an upper surface thereof. Notched grooves are formed in the not only to reduce the overall concrete weight, but as the soil is flatly covered, the area of the soil filling portions 111 and 112 is increased to form a uniform load, thereby forming a load corresponding to the vertical direction and the horizontal force. It is increased to increase the coupling force, the inclined surface is formed on the front side and the rear side, the pair of rear soil filling portion is symmetrically partitioned in the left and right direction by the third partition wall, the rear soil filling portion It is characterized by being formed in a mole groove structure.

A pair of fitting protrusions protrude symmetrically on the rear side of the vegetation building block, and the fitting protrusions are formed in a conical protrusion structure in which the diameter thereof is narrowed upward.

A plurality of fitting grooves are formed on a rear bottom surface of the vegetation building block, and the plurality of fitting grooves are formed of a first fitting groove and a pair of second fitting grooves, and the first fitting groove is the width direction of the vegetation building block. And a pair of second fitting grooves are symmetrically formed on the rear side of the first fitting groove, and the second fitting grooves are positioned corresponding to the axial direction of the fitting protrusion. The second fitting groove may be formed in a conical groove structure corresponding to the shape of the fitting protrusion.

It is characterized in that it is firmly fixed by connecting to the adjacent vegetation building block by installing a connecting rod for binding to the first fitting groove of the vegetation building block.

One or more assembly protrusions and assembling grooves installed on the right and left sides of the vegetation building block can be installed, and the assembly protrusions and the assembly grooves can be installed by changing the left and right directions by selection, and the length can be adjusted in the vertical direction. It is characterized by.

The present invention, a plurality of vegetation building blocks are stacked and assembled in the vertical direction, the bottom of the stacked vegetation building blocks are constructed with a foundation concrete layer, the back side of the vegetation building blocks are constructed with the back filling, the vegetation building blocks Non-woven fabric is interposed between the rear and back filling of the, the upper concrete layer is constructed on the top of the laminated vegetation building block,

The vegetation building block is provided with a plurality of soil filling,

The plurality of soil filling portions are formed to be partitioned by partition walls, and the plurality of soil filling portions are divided into a pair of front soil filling portions and a pair of rear soil filling portions by a first partition wall extending in the width direction. The pair of front soil fill portions are symmetrically partitioned in the left and right directions by a second partition wall, and the pair of front soil fill portions are formed to penetrate in the vertical direction. A cutout groove is formed on an upper surface, and the cutout groove is formed on an inclined surface on the front side and the rear side thereof, and the pair of rear side soil filling portions are symmetrically partitioned in the left and right directions by the third partition wall, and the rear side. The earth filling part is formed in a recessed groove structure,

A pair of fitting protrusions protrude from left to right symmetrically on the rear surface of the vegetation building block, and the fitting protrusions are formed in a conical protrusion structure that narrows upward in diameter. A fitting groove is formed, and the plurality of fitting grooves are formed of a first fitting groove and a pair of second fitting grooves, and the first fitting grooves are formed in a structure extending in the width direction of the vegetation building block, and the pair of The second fitting groove is formed symmetrically on the rear side of the first fitting groove, the second fitting groove is located corresponding to the axial direction of the fitting protrusion, the second fitting groove is the shape of the fitting protrusion In response to the conical groove structure is characterized in that it is formed.

The plurality of vegetation building blocks are stacked and assembled in an inclined direction, and the fitting protrusion of one side of the vegetation building blocks is fitted into the first fitting groove side of the vegetation building blocks on the upper side thereof.

The plurality of vegetation building blocks are stacked and assembled in a vertical upright direction, and the fitting protrusion of one side of the vegetation building blocks is fitted into the second fitting groove side of the vegetation building blocks on the upper side thereof.

Placing a concrete layer on the upper part of the vegetation building block stacked and assembled in the vertical upright direction and installing a sprinkler on one side of the planting surface to supply water to the vegetation plants in the soil filling part of the vegetation building block. It is characterized by.

According to the present invention, as a plurality of soil filling portions are formed symmetrically, vegetation-building blocks are more firmly assembled in a filly land or a slope, and thus, the strength of the retaining wall is greatly improved, and rainwater and moisture flowing down from the upper part are formed. There is an excellent water flowability that can be passed through.

In addition, when a plurality of vegetation building blocks are assembled in the up and down upright direction, and the retaining wall is constructed, each fitting protrusion is fitted to the second fitting groove side, so that the plurality of vegetation building blocks can be precisely assembled in the vertical upright direction and at the same time upright on the slope. As it can be installed, there is an advantage that it is utilized for various purposes.

1 is a perspective view showing a vegetation building block according to an embodiment of the present invention.
Figure 2 is a plan view showing a vegetation building block according to an embodiment of the present invention.
Figure 3 is a bottom view showing a vegetation building block according to an embodiment of the present invention.
Figure 4 is a right side view showing the vegetation building block according to an embodiment of the present invention.
Figure 5 is a left side view showing the vegetation building block according to an embodiment of the present invention.
6 is a side view showing a retaining wall using the vegetation building block according to the first embodiment of the present invention.
7 is a side view showing a retaining wall using a vegetation building block according to a second embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. For the sake of convenience, the size, line thickness, and the like of the components shown in the drawings referenced in the description of the present invention may be exaggerated somewhat. The terms used in the description of the present invention are defined in consideration of the functions of the present invention, and thus may be changed depending on the user, the intention of the operator, customs, and the like. Therefore, the definition of this term should be based on the contents of this specification as a whole.

1 to 5 is a view showing a vegetation building block according to an embodiment of the present invention.

As shown, the vegetation building block 100 according to the present invention has a front surface 101, the rear surface 103, the right surface 105, the left surface 107, the upper surface, the bottom surface.

The front surface 101 is formed to be curved in an arc shape, the front surface 101 is formed so that a plurality of natural stone patterns 102 protrude.

The rear face 103 is formed flat, and the rear face 103 is formed to have a narrower width than the front face 101.

The assembly protrusion 115 protrudes outward on the right side 105, and the assembly groove 117 is recessed in the left side 107. Each of the assembling protrusions 115 and the assembling grooves 117 extends in the vertical direction of the right side surface 105 and the left side surface 107 of the vegetation building block 100.

Thus, when the plurality of vegetation control block 100 is assembled, the vegetation control block 100 adjacent to each other in the horizontal direction may be assembled by fitting the assembly protrusion 115 and the assembly groove 117 to each other. One or more assembly protrusions 115 and assembly grooves 117 installed on the right side and the left side of the vegetation building block 100 may be installed, and the assembly protrusion and the assembly groove may be installed by changing the left and right directions according to the selection. You can also adjust the length in the direction.

In the vegetation building block 100, a plurality of soil filling parts 111, 112, 113, and 114 are formed to be partitioned by the partition walls 121, 122, and 123.

The plurality of soil filling portions 111, 112, 113, and 114 is a pair of front soil filling portions 111 and 112 and a pair of rear soil filling portions by the first partition walls 121 extending in the width direction. It is divided into parts 113 and 114.

The pair of front side soil filling portions 111 and 112 are symmetrically partitioned in the left and right directions by the second partition wall 122, and the left and right pairs of the front soil filling portions 111 and 112 are left and right. The soil is symmetrically uniformly filled so that the native plants can be vegetated, and through this, the plurality of vegetation building blocks 100 may be more firmly coupled to the land or the slope. The front side soil filling portions 111 and 112 are formed to penetrate in the vertical direction as shown in FIGS. 4 and 5, thereby improving water permeability such as moisture and rain water.

On the other hand, the second partition wall 122 has a cutting groove 122a is formed on the upper surface, the inclined surface 122b is formed symmetrically on the front side and the rear side of the cutting groove 122a. Not only does the cutting groove 122a reduce the overall concrete weight, but as the soil is flatly covered on the cutting groove 122a side, the area of the soil filling portions 111 and 112 is increased, thereby providing a uniform load. This is to increase the coupling force by increasing the load corresponding to the vertical direction and the horizontal force, the exposure of the second compartment wall 122 is minimized and the appearance is beautiful.

The pair of rear soil filling portions 113 and 114 are symmetrically partitioned in the horizontal direction by the third partition wall 123, and the rear soil filling portions 113 and 114 are as shown in FIGS. 4 and 5. It is formed in a recessed groove structure. When the plurality of vegetation building blocks 100 are assembled in the inclined direction by the rear soil filling parts 113 and 114, the gradient between the vegetation building blocks 100 can be easily matched.

As shown in FIG. 2, a pair of fitting protrusions 131 protrude symmetrically from left and right, and the fitting protrusion 131 has a conical protrusion structure in which the diameter thereof is narrowed upward. Is formed.

As shown in FIG. 3, a plurality of fitting grooves 132 and 133 are formed at the rear bottom surface of the vegetation building block 100. The plurality of fitting grooves 132 and 133 may include a first fitting groove 132 and a pair of second fitting grooves 133, and the first fitting groove 132 may extend in the width direction of the vegetation building block 100. It is formed to extend through the left and right structure, the plurality of vegetation building block 100 is assembled in the inclined direction (see Fig. 6) or zigzag assembled when the retaining wall 10 is installed each fitting protrusion 131 is Inserted into the first fitting groove 132 side, the plurality of vegetation building block 100 can be assembled while being properly adjusted in the width direction of the retaining wall (10).

In addition, since the first fitting groove 132 is formed to penetrate from side to side, the vegetation building block 100 is firmly installed by fixing a connecting rod (not shown) for interconnection with the adjacent vegetation building block 100. It is fixed.

 The pair of second fitting grooves 133 are symmetrically formed on the rear side of the first fitting groove 132, and the second fitting grooves 133 are positioned corresponding to the axial direction of the fitting protrusion 131. The second fitting groove 133 is formed in a conical groove structure corresponding to the shape of the fitting protrusion 131. Therefore, as shown in FIG. 7, when the retaining wall 10 is constructed as the plurality of vegetation building blocks 100 are assembled in the up and down vertical direction, the fitting protrusions 131 are fitted to the second fitting grooves 133 and thus the plurality of vegetation building blocks The block 100 can be precisely assembled in the vertical upright direction.

6 is a view showing the retaining wall 10 using the vegetation building block 100 according to the first embodiment of the present invention.

In the retaining wall 10 according to the first embodiment of the present invention, a plurality of vegetation building blocks 100 are stacked and assembled in an inclined direction (stepped type), and the fitting protrusion 131 of the one side vegetation building blocks 100 is upper side thereof. Can be assembled while being adjusted in the width direction on the side of the first fitting groove 132 of the vegetation building block 100.

The base concrete layer 20 is constructed at the bottom of the stacked vegetation building blocks 100, and the back portion 70 is constructed at the rear side of the vegetation building blocks 100, and the rear surface of each vegetation building blocks 100 and The nonwoven fabric 50 is interposed between the back filling portions 70. Such a nonwoven fabric 50 has an advantage that can effectively prevent the fall when the external force is applied to the reinforcement toe side of the back-filling portion 70 by the friction of the reinforcement of the back-filling portion 70 by friction.

The upper vegetation layer 30 is placed on the top of the stacked vegetation building blocks 100 and vertically constructed vegetation building blocks 100 by placing concrete on the upper surface and the fitting protrusion 131 formed on the vegetation building blocks at the bottom. By binding them to each other by the irregularities, the collapse of the vegetation building blocks 100 that are firmly supported and stacked are effectively prevented.

In addition, the upper concrete layer 30 serves as a finishing layer to prevent the inflow of moisture into the stacked vegetation building blocks 100 and to finish the aesthetic appearance, the sprinkler, etc. in the upper concrete layer 30 It is also possible to effectively supply moisture to the native plants that are vegetated in the soil filling portion (111, 112) side of the vegetation building block 100.

7 is a view showing the retaining wall 10 using the vegetation building block 100 according to the second embodiment of the present invention.

In the retaining wall 10 according to the second embodiment of the present invention, a plurality of vegetation building blocks 100 are stacked and assembled in a vertical upright direction, and the fitting protrusion 131 of one side of the vegetation building blocks 100 is a vegetation on the upper side thereof. It may be fitted into the second fitting groove 133 side of the building block 100.

Since the rest of the configuration is the same as the retaining wall 10 of the first embodiment, a detailed description thereof will be omitted.

As mentioned above, specific embodiments of the present invention have been described, but the present invention is not limited to the embodiments disclosed in the present specification and the accompanying drawings, and may be variously modified by those skilled in the art without departing from the technical spirit of the present invention. .

10: retaining wall 20: foundation concrete layer
30: upper concrete layer 50: nonwoven fabric
70: backfill 100: vegetation building block
101: front side 103: rear side
105: right side 107: left side
111, 112, 113, 114: soil filling section
131: fitting protrusion 132: first fitting groove
133: second fitting groove

Claims (9)

Including the front, rear, right, left, top, bottom, a plurality of soil filling,
The front surface is formed to be curved in an arc shape, the front surface is formed with a plurality of natural stone patterns protruding, the rear surface is formed in a narrower width than the front surface, each of the right side and left side assembly projections and The assembly groove is formed to extend in the vertical direction,
The plurality of soil filling portions are formed to be partitioned by partition walls, and the plurality of soil filling portions are divided into a pair of front soil filling portions and a pair of rear soil filling portions by a first partition wall extending in the width direction. The pair of front side soil fill portions are symmetrically partitioned in the left and right directions by a second partition wall, and the pair of front side soil fill portions are formed to penetrate in the vertical direction, and the second partition wall has an upper surface thereof. Notched grooves are formed in the not only to reduce the overall concrete weight, but as the soil is flatly covered, the area of the soil filling portions 111 and 112 is increased to form a uniform load, thereby forming a load corresponding to the vertical direction and the horizontal force. It is increased to increase the coupling force, the inclined surface is formed on the front side and the rear side, the pair of rear soil filling portion is symmetrically partitioned in the left and right direction by the third partition wall, the rear soil filling portion It is formed into a grooved structure,
A pair of fitting protrusions protrude symmetrically on the rear upper surface, and the fitting protrusions are formed in a conical protrusion structure that narrows upward in diameter.
A plurality of fitting grooves are formed on the rear bottom surface, and the plurality of fitting grooves are formed of a first fitting groove and a pair of second fitting grooves, and the first fitting grooves extend in the width direction of the vegetation building block. And the pair of second fitting grooves are symmetrically formed on the rear side of the first fitting groove, and the second fitting grooves are located corresponding to the axial direction of the fitting protrusion, and the second fitting grooves The groove is formed in a conical groove structure corresponding to the shape of the fitting protrusion,
Vegetation building block, characterized in that the fastening by connecting to the adjacent vegetation building block 100 by installing a connecting rod (not shown) for binding to the first fitting groove (132). delete delete delete The method according to claim 1,
One or more assembly protrusions 115 and assembly grooves 117 installed on the right side and the left side of the vegetation building block are installed, and the assembly protrusion 115 and the assembly groove 117 are installed by changing the left and right directions by selection. Vegetation building block, characterized in that the length can be adjusted in the vertical direction. A plurality of vegetation building blocks are stacked and assembled in the vertical direction, the bottom of the stacked vegetation building blocks are constructed with a base concrete layer, the back side of the vegetation building blocks are constructed with a back filling portion, the rear and rear of the vegetation building blocks Non-woven fabric is interposed between the filling parts, the upper concrete layer is constructed at the top of the stacked vegetation building block,
The vegetation building block is provided with a plurality of soil filling,
The plurality of soil filling portions are formed to be partitioned by partition walls, and the plurality of soil filling portions are divided into a pair of front soil filling portions and a pair of rear soil filling portions by a first partition wall extending in the width direction. The pair of front soil fill portions are symmetrically partitioned in the left and right directions by a second partition wall, and the pair of front soil fill portions are formed to penetrate in the vertical direction. A cutout groove is formed on an upper surface, and the cutout groove is formed on an inclined surface on the front side and the rear side thereof, and the pair of rear side soil filling portions are symmetrically partitioned in the left and right directions by the third partition wall, and the rear side. The earth filling part is formed in a recessed groove structure,
A pair of fitting protrusions protrude from left to right symmetrically on the rear surface of the vegetation building block, and the fitting protrusions are formed in a conical protrusion structure that narrows upward in diameter. A fitting groove is formed, and the plurality of fitting grooves are formed of a first fitting groove and a pair of second fitting grooves, and the first fitting grooves are formed in a structure extending in the width direction of the vegetation building block, and the pair of The second fitting groove is formed symmetrically on the rear side of the first fitting groove, the second fitting groove is located corresponding to the axial direction of the fitting protrusion, the second fitting groove is the shape of the fitting protrusion Corresponding to the conical groove structure,
The plurality of vegetation building blocks are stacked and assembled in an inclined direction, and the fitting protrusion of one side of the vegetation building blocks is fitted into the first fitting groove side of the vegetation building blocks on the upper side thereof.
Retaining wall using the vegetation building block, characterized in that the fastening by connecting to the adjacent vegetation building block by installing a connecting rod (not shown) for binding to the first fitting groove of the vegetation building block. delete The method of claim 6,
The plurality of vegetation building blocks are stacked and assembled in a vertical upright direction, and the fitting protrusion of one side vegetation building blocks is fitted into the second fitting groove side of the vegetation building blocks on the upper side, and retaining wall using the vegetation building blocks. . The method of claim 6,
Placing a concrete layer on the upper part of the vegetation building block stacked and assembled in the vertical upright direction and installing a sprinkler on one side of the planting surface to supply water to the vegetation plants in the soil filling part of the vegetation building block. Retaining wall using a vegetation building block, characterized in that.

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