KR102238975B1 - Terrace type planting block for slope recovery and reinforce - Google Patents

Abstract

The present invention relates to a terrace-type vegetation block for restoring and reinforcing a natural slope, which increases structural stability and inter-block bearing capacity. The terrace-type vegetation block of the present invention comprises a block, a block body, a block side boundary part, a block vegetation part, a soil filling hole, and a block fixing hole.

Description

Terrace type planting block for slope recovery and reinforce}

The present invention relates to a terrace-type vegetation block for restoring and reinforcing natural slopes, and more particularly, a male/male type A-type block and a B-type block are made to be interlocked to be assembled, and vegetation in a conventional rectangular shape Compared to the checkered arrangement of blocks, the present invention relates to a vegetation block in which the contact area between blocks is maximized and the frictional force between blocks is increased to maximize the bearing power.

In addition, in the present invention, the male/male blocks are assembled and fixed by tenon alignment to increase structural stability as well as inter-block support, and can be manufactured in the form of an open-type terrace in which the amount of sunlight is maximized by forming the front part of the block inclined with respect to the upper surface. , Compared to the existing rectangular block, the front part is lowered regardless of the slope conditions of various slopes to minimize the blocking of sunlight by the upper block compared to the existing vegetation block, and to improve the vegetation growth conditions by increasing the amount of sunlight and water collection in the vegetation space. Therefore, it is possible to improve the vegetation function of the vegetation block by improving the survivability of the planted plants, and to improve the stability of the vegetation block and the landscaping function of the slope as it can be constructed without limiting slope gradients. About.

Retaining walls are generally structures constructed to prevent damage to people and property by preventing the collapse of the inclined terrain (slope) formed by natural or artificial causes by earth pressure. Such retaining walls are classified into an integral type constructed by a material such as concrete, and a masonry type constructed by a material such as a block. In the case of the integral type, a formwork is formed with reinforcing bars and panels, and then concrete is poured and then built by filling the backside with soil and crushed stone.The masonry type is to produce concrete blocks individually and connect them to each other through a fixing member. It is constructed in a way that it is stacked in several stages.

The retaining wall construction block used to construct the masonry retaining wall has been applied and constructed in the form of a vegetation block having a vegetation space that allows plants to vegetate as it enters in recent years. The vegetation block for the construction of the retaining wall is constructed in a staircase shape so that the slopes of the embankment or the incision do not collapse due to earth pressure, while the inside of the vegetation block has a structure in which soil, sand, gravel, etc. can be filled so that plants can grow. consist of.

The vegetation block for the construction of the retaining wall is made of concrete, and even if the retaining wall is built, it can be constructed more environmentally by allowing various plants such as grass to grow between them. In general, the vegetation block for building a retaining wall is provided in the form of a block having an empty structure. And the construction of the retaining wall is made by constructing the vegetation block for building the retaining wall in a stepped shape, and accordingly, a part of the soil filled in the body of the vegetation block for building the retaining wall can be exposed to the outside of the retaining wall. In the exposed space, grass or flowers for landscaping can be planted.

However, conventional rectangular vegetation blocks often lose their function as vegetation blocks because plant viability in a vegetation space decreases due to light interference between top and bottom. In addition, the front part must protrude forward for plant vegetation, and there is a problem that the survival rate of planted plants is poor due to the narrow planting part, and the lower plant dies because rainwater is not transferred smoothly from the top of the retaining wall to the bottom. , There is a problem in that vegetation growth is difficult due to the fact that the shadows easily fall on the planting part and ventilation is not smooth, and the use of the grid has a problem that when the earth pressure is strong, slip occurs between blocks and the retaining wall collapses.

In addition, the conventional vegetation construction block focuses on the slope protection function and has excellent structural stability, but there is a problem that it not only greatly damages the natural environment during construction, but also does not harmonize with the surrounding environment due to exposure of concrete, which is not good in terms of aesthetics.

KR 10-0693480 KR 20-0393182

In order to solve the above problems, it is an object of the present invention to improve the stability of the slope by increasing the bearing capacity between blocks by being assembled and fixed at an angle to maximize the contact area and friction between blocks compared to the straight checkered arrangement of the existing rectangular blocks. The front part of the block is open type and the height of the front part and the back part of the block is different. Compared to the existing block, it has excellent sunlight and water collection in the vegetation space regardless of the slope shape, improving the vegetation growth conditions. It is not only to increase the sustainability of the vegetation block, but also to increase the stability of the vegetation block and the urban greening function by allowing construction without limiting slope gradients.

In order to achieve the above object, according to one aspect of the present invention, the contact area between the blocks is maximized by tenon matching between the male and female A-type blocks and B-type blocks, thereby increasing frictional force, and unlike the straight arrangement of the existing rectangular blocks, By assembling, it increases the stability of the slope by increasing the support between blocks, and prevents the loss and collapse of the block due to the rear earth pressure. In the vegetation block that has the function of restoring and reinforcing natural slopes by constructing at various slopes, concrete in the form of trapezoidal and historical trapezoids It is composed of a block body that has a male and female shape as a block and maximizes the contact area between blocks to increase friction and increases the support between blocks, but the vegetation that can cultivate vegetation is open in the front of the block and in the front of the block. It is formed in a structure, and is formed in a terrace shape with different heights of the front part of the block and the rear part of the block, and two rows of soil filling holes are recessed in the rear part of the block at the rear of the block, and there are three fixing holes in one row for masonry. , 3 in 2 rows and 2 in 3 rows are recessed, so it can be constructed regardless of the inclination gradient, and the terrace-type natural slope is restored and reinforced including a block side fitting that can increase the bearing capacity of the A-type block body and the B-type block body. Vegetation blocks are provided.

According to the vegetation block of the present invention, it is composed of male and female A-type blocks and B-type blocks. Compared to the straight arrangement of the existing rectangular block, the vegetation block is assembled and fixed alternately with a tenon fitting that maximizes the contact area and frictional force between blocks. By increasing the stability of the slope, it is possible to prevent block loss and collapse due to rear earth pressure.

In addition, according to the vegetation block of the present invention, it is possible to construct the vegetation block structure and the fixing member at an optimum ratio in consideration of the stability of the retaining wall without limiting the slope gradient, and the retaining wall can be easily constructed.

In addition, according to the vegetation block of the present invention, the front part of the block is of an open type, and it is a terrace-type vegetation block with different heights of the front part and the rear part. By increasing the catchment rate, it is possible to improve vegetation growth conditions and increase vegetation sustainability.

In addition, according to the vegetation block of the present invention, the use of waste materials (more than 40% of the raw material is used as waste-rock powder) is the principle to increase the recycling rate of waste materials, reduce the use of raw materials by improving the structure of the front part of the block to increase the amount of sunlight, and reduce material recovery. It can contribute to resource recycling and energy saving by improving the effect of resource saving/cost reduction by more than 10%.

1 is a view showing the names of each part of the vegetation block according to the present invention.
2 is a schematic perspective view of a vegetation block according to the present invention.
3 is a plan view of a vegetation block according to the present invention.
4 is a cross-sectional view of the vegetation block shown in FIG. 3 taken along line YY.
5 is a layout plan view showing a state in which vegetation blocks according to the present invention are continuously masonry on one end layer of a retaining wall.
6 is a conceptual diagram showing a cut surface of a retaining wall on which a vegetation block according to the present invention is masonry.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In describing the present invention, when it is determined that a detailed description of a related known configuration or function may obscure the subject matter of the present invention, a detailed description thereof will be omitted.

The vegetation block according to the present invention is installed on a retaining wall, which is an inclined terrain (slope) formed by natural or artificial causes, as shown in FIG. 1, and has two types of A-type block 10 and B-type block 20. However, the A-type block has the side protruding blocky, and the B-type block has a concave side, so that the convex part 60 of the A-type block and the concave part 160 of the B-type are in contact with each other and are interlocked with each other. It is masonry on the retaining wall in such a way that it is arranged and raised up and down.

According to FIG. 1, the upper surface of the block body 30 of the A-type vegetation block 10 of the present invention is a block in which a vegetation part 80 is installed, and a block front part 50 and a plurality of soil filling holes 85 are provided. It consists of a rear part (40). The shape of the block front part 50 viewed from above has an inverted isosceles trapezoid shape as shown in FIG. 3, and the shape viewed from the top of the block rear part 40 has an isosceles trapezoid shape.

In addition, according to Figure 1, the upper surface of the block body 130 of the B-type vegetation block 20 of the present invention is a block front part 150 on which a vegetation part 180 is installed and a plurality of soil filling holes 185 are provided. It consists of a block rear portion 140, and the shape of the block front portion 150 viewed from above has an equilateral trapezoidal shape opposite to the A-type block as shown in FIG. 3, and the shape viewed from the top of the block rear portion 140 is A Contrary to the type block, it has an inverted equilateral trapezoidal shape.

In addition, the front inclined edges 70 and 170 of the front portions 50 and 150 of the A and B-type blocks and the rear edges 75 and 175 of the rear portions 40 and 140 are at a constant angle (θ) as shown in FIG. , θ′) to form side boundary portions 60, 160, wherein the range of θ is 105° to 135°, preferably 115° to 125°, and the range of θ′ is 225° to 255 °, and preferably 235° to 245°.

According to the present invention, by maximizing the contact area between blocks through the masonry method through the male/male blocks as described above, it is possible to increase the frictional force by maximizing the contact area between blocks, and to increase the frictional force by maximizing the contact area between blocks by maximizing the contact area between blocks. It has the effect of preventing collapse and loss of blocks due to rear earth pressure by increasing the support capacity between blocks.

2 shows the dimensions of each part of the vegetation block according to the present invention, and the names of the parts are as follows. In other words, h is the height of the rear part of the block, h'is the height of the front part of the block, w is the longest width of the A-type block, w'is the shortest width of the A-type block, w1 is the longest width of the B-type block, and w1' is the B-type block. Is the shortest width of the block, d is the total straight length of the block, d'is the length of the straight line measured along the mirror plane of the front part of the block, l is the length of the side of the rear part of the block, and l'is the length of the side of the front part of the block.

Here, the block body (30, 130) is composed of a male/male type A-type block and a B-type block to maximize the contact area between blocks to increase friction and increase the bearing capacity between blocks, thereby improving frictional force and stability of slopes. To increase, the ratio of the width w and w′ of the A-type block is 1.25~2.5:1, and the ratio of the width w1 and w1′ of the B-type block body is also 1.25~2.5:1, so that the A-type block and the B-type block When these are arranged butt, they are designed to increase the bonding force between the blocks.

In addition, the straight length (d′) of the front part of the block is made to be 1/3 of the total straight length (d) of the block body to increase the support strength of the tetrahedron during construction. It is designed to increase stability.

In addition, the ratio of the side length (l′) of the front side of the block and the side length (l) of the rear side of the block is 2.5~3.5: 5, which increases the support strength of the tetrahedron during construction, and has a nature-friendly effect with vegetation growth at the rear. It is designed to increase structural stability compared to blocks.

In addition, in the rear part of the block, 3 fixed holes in the 1st row, 2 fixed holes in the 2nd row, and 1 fixed in the 3rd row are formed in both the male and female type A-type and B-type bodies to increase stability during block construction. It can be constructed fluidly according to the structure, and it is formed to increase the strength of the upper and lower limbs with a fixing member, and increase the structural stability compared to the existing block by adding friction and supporting power due to the increase in the contact area on both sides of the existing tenon fitting.

The vegetation block according to the present invention has an abundant amount of sunlight and ventilation regardless of the construction angle by opening the front slope of the block including the vegetation in a terrace shape at various angles, and improves vegetation growth conditions by increasing the rainwater collection rate. There is. In addition, the height (h') of the lower end of the block front part 50 is 40 to 80% of the height (h) of the block rear part 40, thus ensuring structural stability and increasing the amount of sunlight in the front part of the block while reducing raw materials during block production. It is supposed to have an effect.

In addition, the straight line length (d′) of the front part of the block is made to be 1/4 to 1/3 of the total straight length (d) of the block body to increase the support strength of the tetrahedron during construction, while having a nature-friendly effect by growing vegetation at the rear part. It is designed to increase structural stability compared to existing blocks.

3 is a plan view showing a state in which the A-type block 10 and the B-type block 20 are overlapped and combined according to an embodiment of the present invention.

4 is a cross-sectional view of the vegetation block shown in FIG. 3 taken along the Y-Y line. As shown in FIG. 4, in the case of the A-type block, the vegetation part 80 is formed as an empty space having a predetermined volume along the slope of the block front part 50, and in this space, grass or flowers for landscaping Can be planted. Since the space above the vegetation is inclined with a certain angle, it is possible to receive the maximum amount of sunlight even in seasons other than summer, and the vegetation blocks are designed to absorb rainwater flowing down the slope when it rains. The other two spaces of FIG. 4 are soil filling holes 85, which correspond to spaces that can contain soils that should be basically equipped if it is a vegetation block.

The block front part 50 is a structure in which the slope can be formed at various angles according to the situation of the slope downward with respect to the block rear part 40, and the vegetation part 80 has a certain depth in the block front part 50. It is formed in an open-ended structure with a terrace shape. Through the terrace-type vegetation block as described above, the vegetation part is opened, so that abundant sunlight and ventilation can be secured regardless of the construction angle, and the vegetation growth conditions can be improved by increasing the collection rate of rainwater. will be.

In the masonry method of the vegetation block according to the present invention, in the horizontal direction, the A-type and B-type blocks are alternately connected and arranged in the same manner as in FIG. 5, and in the vertical direction, the inclination angle as shown in FIG. It is made by stacking vertically without a degree or by stacking it in an inclined manner according to the situation of the inclined surface at a certain angle as shown in FIG.

10: A-type block
20: B-type block
30: A type block body
40: A-type block rear part
50: A-type block front part
60: A-type block side boundary (convex)
70: A type block front bevel edge
75: Type A block rear edge
80: A type block vegetation
85: Type A soil filling hole
90: A type block fixing hole
130: B-type block body
140: B-type block rear part
150: B-type block front
160: B-type block side boundary (concave)
170: B-type block front bevel edge
175: Type B block rear edge
180: B-type block vegetation
185: B-type block soil filling hole
190: B-type block fixing hole
h: height of the rear part of the block
h′: height of the front part of the block
w: the longest width of the A-type block
w′: the shortest width of the A-type block
w1: the longest width of the B-type block
w1′: the shortest width of the B-type block
d: block total straight length
d′: straight length of the front side of the block
l: The length of the side of the block rear side
l′: side length of the front side of the block

Claims (7)

In the vegetation block in which a plurality of A-type blocks 10 and B-type blocks 20 are alternately arranged and connected to be masonry, the block front portion 50 of the A-type block 10 and the B-type block 20, In 150), vegetation parts 80 and 180 capable of cultivating vegetation are formed in an open structure, and the block front parts 50 and 150 and the block rear parts 40 and 140 are formed at a certain angle to become an inclined terrace. It is inclined, and a plurality of soil filling holes 85 and 185 are recessed in the block rear portions 40 and 140; A plurality of fixing holes 90 for masonry are formed so that masonry is possible regardless of the inclination angle of the inclined surface, and the A-type block 10 is convex at a certain angle to increase the bonding force of the block bodies 30 and 130. The convex side boundary portion 60 that protrudes in a manner is a terrace-type vegetation block in which a concave side boundary portion 160 that is concavely entered at a certain angle is formed in the B-type block 20, respectively,
The shortest width w′ of the A-type block 10 protrudes to 40-80% of the longest width w of the A-type block 10, and the shortest width w1′ of the B-type block 20 body is the longest of the B-type block 20 It is to increase the bonding strength between blocks by forming a depression with 40 to 80% of the width w1,
Terrace type, characterized in that the male and female A-type and B-type bodies are recessed in the rear of the block with 3 fixed holes in the first row, 2 fixed holes in the second row, and 1 fixed hole in the third row in order to increase the stability during block construction. Vegetation block. The method according to claim 1,
The convex side boundary part 60 is formed to protrude at an angle θ of 105 to 135° so that the support between the A-type block 10 and the B-type block 20 can be improved, and the concave side boundary part 160 is an angle θ'is a terrace-type vegetation block, characterized in that the concave formation of 225 ~ 255 °. delete The method according to claim 1,
The height (h') of the front part of the block is 40 to 80% of the height (h) of the rear part of the block, so that it has structural stability and at the same time increases the amount of sunlight in the front part of the block while reducing raw materials during block production. Vegetation block. The method according to claim 1,
The straight line length (d′) of the front part of the block is made to be 1/4~1/3 of the total straight length (d) of the block body to increase the support strength of the tetrahedron during construction. Terrace type vegetation block, characterized in that it improves structural stability compared to. The method according to claim 1,
The ratio of the side length (l′) of the front side of the block and the side length (l) of the rear side of the block is 2.5~3.5: 5 to increase the support strength of the tetrahedron during construction, and have a nature-friendly effect by growing vegetation at the rear side. Terrace type vegetation block, characterized in that it improves structural stability compared to. delete

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