KR101915105B1 - Vegetation block and its construction method - Google Patents

Abstract

The present invention relates to a vegetation block and, more specifically, to a vertical and inclined vegetation block and a construction method thereof. The vegetation block can be constructed in a vertical manner and a stepped manner, vegetation spaces of a lower vegetation block are secured regardless of the types of the construction, and stability is provided in a built state. Moreover, vegetation spaces of neighboring vegetation blocks can be connected to each other to enable the vertical and inclined vegetation block to be constructed so as to increase the growth of the vegetation such that cultivation of plants is conveniently performed. In addition, safety in construction is secured such that the neighboring vegetation blocks are stably supported in the process of cross-building, and soil filled in the vegetation block can be safely protected while stable construction is provided in accordance with an increase in binding of the soil filled in the vegetation spaces so that loss of the soil due to rainwater during rainy days can be prevented. Furthermore, safety in the construction can be secured through close connection with a grid installed to enable construction safety.

Description

[0001] The present invention relates to a vegetation block and a vegetation block,

The present invention relates to a vegetation block, and more particularly, to a vegetation block capable of vertically and vertically stacking a plurality of vegetation blocks, And a method of constructing the vegetation block.

Generally, a concrete retaining wall or an axle is constructed on the slope (slope) where the slope is urgent, in order to prevent the soil from collapsing due to soil pressure.

In case of concrete retaining wall, it is necessary to cut the gravel in the construction area or form a mold with reinforcing bars and panels to fill valleys and low areas in mountainous areas. The reinforcing concrete retaining wall is not preferable from the viewpoints of cost and air owing to the molding and curing, but also has a natural It is not easy to secure the dynamic permissible stress because the drainage is not made.

In addition, the concrete retaining wall as described above is very unfavorable in appearance, and in general, it may not be harmonized with the surrounding environment when installed in the mountainous area and the vicinity of the river, and may also damage the natural environment. In addition, ecologically, the environment is not so good that it can not grow, and it also affects the growth of agaric creatures such as fishes and reptiles, and is often treated as a dislike facility.

Thus, in place of the above-mentioned retaining wall in the recent era, the construction of the vegetation of the vegetation is being watched.

Typically, stone tiles are used to build up rocks in a step-by-step manner. These tiles are planted in rock gaps that are built and vegetated.

However, the above-mentioned stone pavement has a problem that the weight of the stone is considerable, so that it requires a considerable skill in order to match rocks that are irregular and irregular in construction, there was.

Therefore, in place of the above-mentioned tile, which is placed in the near-end, a large number of blocks are built up for the convenience of construction, and the construction of the shafts capable of plant vegetation is getting popular.

On the other hand, a concrete block is used for constructing such a shaft, and as shown in the Utility Model Application No. 20-0393052, it is made up of a rectangular or square concrete cube, and the upper, lower, left, .

In addition, a vegetation space with an open upper part is formed at the center, and vegetation of the plant is made possible if necessary.

However, the above-mentioned vegetation block is continuous to the upper part and covers the vegetated vegetation space of the lower vegetation block at the time of constriction so that the vegetation of the plant becomes impossible, so that the vegetation space must be built in a stepwise fashion to open the vegetation space, It is necessary to form a vegetation space between neighboring vegetation blocks, which is not efficient.

In addition, in the case of vertical construction, the vegetation space is formed between the adjacent vegetation blocks only when the front part is protruded forward for vegetation of the plant, and there is a limit in the production thereof. Especially, This was a difficult problem.

In addition, there is a problem that the soil is insufficient and the moisture of the ground is not properly transferred to the vegetation space due to the use of the gravel by backfilling and the plant is damaged and the stability of the construction is deteriorated.

Korean Utility Model Registration No. 20-0393052. Korean Utility Model Registration No. 20-0386423.

The present invention has been devised to solve the above problems, and it is an object of the present invention to provide a vegetation block that can be vertically installed and stepwise installed, while ensuring a vegetation space of a lower vegetation block at any time of installation, The present invention provides a vegetation block capable of vertically and inclined stacking and a method of constructing the vegetation block.

In addition, a vegetation block and a vegetation block for enabling vertical and inclined stacking to enable improvement of vegetation vegetation, such as facilitating the planting material, by connecting vegetation spaces between neighboring vegetation blocks, The present invention has another object of the present invention.

Another object of the present invention is to provide a vegetation block and a vegetation block construction method for securing stability during construction such as enabling stable support of neighboring vegetation blocks in a cross building process.

In addition, it is possible to secure the soil to be filled in the vegetation block while allowing a strong construction due to the increase of the binding force of the soil filled in the vegetation space, and to prevent the soil from being lost due to rain, And a method for constructing the vegetation block. The present invention has another object of the present invention.

Another object of the present invention is to provide a vegetation block capable of vertical and inclined stacking and a method for constructing the vegetation block for securing the stability of construction through a close connection with a grid installed for stability of construction.

In order to achieve the above-mentioned object, there is provided a method of manufacturing an electronic device,

Both side portions protruding from both sides of the rear portion of the front portion in such a manner as to be inclined toward the rear;

A rear portion connecting and closing the rear ends of the side portions; And

A vegetation inducing surface is formed at an inner front side of the front surface portion and between a side surface portion and a rear surface portion and is inclined so as to extend from the upper end of the front surface portion toward the lower end in a rearward direction, Including the vegetation space,

On the front side,

A vegetation guide groove is formed in the lower part of the front surface so as to be recessed rearward than the thickness of the front part so as to reach the lower part of the vegetation guide surface and open to the front and the lower part. At both ends, a semicircular vertical projection and a vertical groove And an earth retaining jaw protruding upward to prevent oil leakage from the soil is formed in the upper part of the upper part and a retaining groove corresponding to the upper earth retaining jaw is formed on both sides of the lower part,

In the rear portion,

At least one or more rows of drainage guiding grooves in the vertical direction on the rear surface and a horizontal water supply tube insertion groove opened upward at the center,

In order to construct a vegetation block, the slope is cut to form a building space. The bottom surface of the building space is filled with gravel or concrete so that the drain pipe connected to the slope in the rear and the front earth in the interior is filled, The basic steps of construction;

A vegetation block is connected and arranged on the basis of the vertical protrusions and vertical grooves on both sides in the left and right direction so as to form a straight or curved shape on the upper part of the foundation layer and the soil is inserted into the vegetation space and vegetation block gaps A base block construction step of filling the rear part with gravel or concrete between the slope and the slope;

In the upper part of the vegetation block constructed as a foundation, a plurality of other vegetation blocks are stacked on the upper and lower vegetation blocks at the upper and lower sections, respectively. In the adjacent left and right vegetation blocks, The soil is filled in the vegetation space and the clearance between the vegetation blocks of the vegetation blocks and the gravel is filled up to the portion contacting the water when the river is constructed. A step of constructing a vegetation block in which the vegetation space of the lower vegetation block and the vegetation guide grooves of the upper vegetation block are connected to each other while being filled with gravel between the slope and the backside; And

And a vegetable planting step of planting the plant in the vegetation space of the vegetation block located at the lower part through the vegetation induction groove of the front part opened to the front,

In the foundation block construction step and the vegetation block building step,

The soil filled in the vegetation space is constructed to be connected to each other through the vegetation space connecting grooves, and in the case of contacting with the water, the soil is covered with the geosynthetic fiber to prevent the loss of the soil by the water.

In the process of filling the soil and gravel, a water pipe connecting the soil of the vegetation space and the slope of the rear side is further installed in the water pipe insertion groove of the rear part,

The neighboring vegetation block can be achieved by inserting both ends of the connection pin into the connection pin insertion groove so as to be connected to each other.

As described above, the vegetation block and the vegetation block construction method capable of vertically and inclinedly stacking the present invention have the vegetation guide grooves that are opened to the front and the bottom at the lower part of the front part. The vegetation space of the lower vegetation block can be secured and the planting material according to the structure can be conveniently used. In particular, the water communication member connected to the backside ground is constituted to induce the moisture of the ground surface to reach the root of the plant It is possible to obtain an effect capable of improving vegetation vegetation.

In addition, the vegetation spaces on both sides of the lower part are connected through the vegetation space connecting grooves formed on the side part, and sufficient space for planting the plants is secured. Especially, It is possible to increase the binding force between the soil and the soil.

In addition, since the support block for supporting the side surfaces adjacent to the vegetation space in the cross building process is constituted, the effect of securing the stability in the building can be obtained.

In addition, since a tight bonding force can be secured in the vertical building process through the earth retaining jaws and the earth retaining jaw coupling grooves formed in the upper and lower parts of the front part, stable vertical building can be achieved. In particular, the soil filled in the vegetation block by the earth retaining jaw It is possible to obtain the effect of preventing the loss of the image.

In addition, for the sake of stability of the construction, the installed grid is fixed to both sides of the upper part through a removable fixing pin. Thus, a more stable construction can be obtained through close connection between the vegetation block and the slope through the grid.

1 is a perspective view of a vegetation block capable of vertical and inclined stacking according to the present invention.
2 is a plan view of a vegetation block capable of vertical and inclined stacking according to the present invention.
3 is a cross-sectional view of a vegetation block capable of vertical and inclined stacking according to the present invention.
4 is a cross-sectional view of a vegetation block capable of vertical and inclined stacking according to the present invention.
FIG. 5 is an overall process diagram showing a method of constructing a vegetation block capable of vertical and inclined stacking according to the present invention. FIG.
6 is a simplified schematic diagram of a basic step of a method for constructing a vegetation block capable of vertical and inclined stacking according to the present invention.
7 is a cross-sectional view of a method of constructing a vegetation block capable of vertical and inclined stacking according to the present invention, in the step of constructing a foundation block.
FIG. 8 is a plan view of a basic block construction step of a method of constructing a vegetation block capable of vertical and slanting.
FIG. 9 is a plan view of another embodiment of the basic block construction step of a method of constructing a vegetation block capable of vertical and slanting.
10 is a front view of the construction step of the method of constructing a vegetation block capable of vertical and inclined stacking of the present invention.
11 is a vertical cross-sectional side view of a method for constructing a vegetation block capable of vertical and inclined stacking according to the present invention.
12 is a cross-sectional view of the method of constructing a vegetation block capable of vertical and inclined stacking according to the present invention, which is a side view of a slope building step.
FIG. 13 is a cross-sectional view of another embodiment of a sloping and building step of a method of constructing a vegetation block capable of vertical and slanting.
FIG. 14 is a cross-sectional view of a vegetation plant side of a method for constructing a vegetation block capable of vertical and slanting.
Fig. 15 is another embodiment of the vegetation planting step of the method for constructing the vegetation block capable of vertical and slanting.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a perspective view of a vegetation block capable of vertical and inclined stacking according to the present invention, FIG. 2 is a plan view of a vegetation block capable of vertical and inclined stacking according to the present invention, and FIG. 3 is a sectional view of a vegetation block capable of vertical and inclined stacking .

As shown in Figs. 1 to 3, the vegetation block 1, which can be vertically and inclinedly stacked, has a trapezoidal shape .

The vegetation block 1 according to the present invention includes a front portion 100 having a front surface and a front surface portion 100. The front surface portion 100 is formed with a patterned protrusion 101, 1).

The side portions 200 and 200 'are formed on both sides of the rear end of the front portion 100 so as to protrude rearward. The side portions 200 and 200' have inclined widths Respectively.

The rear ends of the side portions 200 and 200 'are connected to the rear portion 300.

In addition, a vegetation space 400 is formed between the front part 100 and the side parts 200, 200 'and the rear part 300 to enable filling of soil and planting of plants.

At this time, a vegetation inducing surface 410 having an inclination extending downward from the upper rear end of the front part 100 is formed on the inner front side of the vegetation space 400.

In the vegetation space 400, a through hole 430 is formed at the rear of the vegetation inducing surface 410 so as to pass through the upper and lower portions 300.

That is, the vegetation block 1 according to the present invention is formed in such a manner that the peripheries are closed through the front part 100, the side parts 200 and 200 ', and the rear part 300, The vegetation space 400 is constructed so that filling of the soil and vegetation of the plant are possible.

The front part 100, the side parts 200 and 200 ', the rear part 300 and the vegetation space 400 of the vegetation block 1 according to the present invention will be described in more detail.

The vegetation guide groove 110 is formed in the front part 100 so that vegetation and vegetation can be planted in the lower part of the front surface of the vegetation space 400. In this case, 410, and is configured to be opened to the lower portion. In particular, the depth of the recess is configured to be further rearward than the thickness of the front portion 100. [

The vegetation guide grooves 110 formed in the front part 100 allow the vegetation block 1 to open at the upper part of the vegetation space 400 located below the vegetation block 1 when the vegetation block 1 is constructed. And so on.

Vertical vertical protrusions 121 and vertical grooves 122 having a semicircular shape are formed at both ends of the front part 100 so as to have a bonding force between neighboring ones when the vegetation block 1 is connected to the left and right sides The vertical protrusions 121 and the vertical grooves 122 are configured so as to be able to be adjusted as needed as well as to be coupled with each other.

The soil retaining jaw 130 is provided at the upper part of the front part 100 so as to protrude upward from the upper part of the front part 100. The earth retaining jaw 130 prevents the overflow of the soil filled in the vegetation space 400 do.

The front portion 100 is further provided with an earth retaining jaw coupling groove 140 corresponding to the earth retaining jaw 130 on both sides of the lower end of the vegetation inducing groove 110. The earth retaining jaw 130, And the joining groove 140 provides the joining force in vertical building up the vegetation block 1.

At this time, the earth retaining jaw 130 prevents the soil from overflowing when the soil is filled in the vegetation space 400, and in particular, when the soil block jut 130 is coupled with the lower earth retaining jaw coupling groove 140 during the building process of the vegetation block 1 So that a firm bonding force is given during the construction.

The vegetation space connecting grooves 210 and 210 'formed to be recessed at the upper ends of the both side surfaces 200 and 200' are further formed such that the vegetation space connecting grooves 210 and 210 ' The connection of the soil filled in each vegetation space 400 is imparted to the vegetation block 1 during construction to increase the binding force between neighboring vegetation blocks 1 and to provide a sufficient space for plant vegetation.

The vegetation space connecting grooves 210 and 210 'formed in the side parts 200 and 200' are adjacent to each other to connect neighboring vegetation spaces 400 when the vegetation blocks 1 are arranged. The vegetation space 400 can be expanded.

The vegetation space connecting grooves 210 and 210 'further include a vertical fixing pin insertion groove 220 formed in each of the side portions 200 and 200' A fixing pin 221 for fixing a grid (not shown in the figure) installed in the process of installing the fixing unit 1 is inserted and protruded upward.

The horizontal portions 200 and 200 'further include horizontal connection pin insertion grooves 230 formed on the side surfaces thereof. The connection pin insertion grooves 230 are formed in the side walls 200 and 200' A connecting pin 231 for connecting the connecting pin 231 is inserted.

The drainage guiding grooves 310 are formed in the rear part 300 of the vegetation block 1 so as to extend upwardly and downwardly and at least one or more rows of drainage guiding grooves 310, ), That is, when moisture is introduced into the raw soil, it is easily guided downwardly.

The water pipe insertion groove 320 is formed in the rear portion 300 at the center of the upper end thereof. The water pipe is formed in the vegetation space 400, And to be connected to the backward earth.

In addition, the vegetation space 400 further includes a support block 500 for supporting the vegetation block 1 to be stacked on top.

At this time, the support block 500 is vertically protruded vertically from the lower center of the vegetation guide surface 410, and the upper surface of the support block 500 is formed to be flush with the upper surface of the vegetation block 1 do.

That is, the support block 500 is formed at the center of the vegetation space 400 to support the vegetation block 1 stacked on the vegetation block 1 when the vegetation block 1 is stacked on top.

The support block 500 configured as described above may be configured in various ways in the vegetation space 400.

1 to 3, the support block 500 may be integrally formed on the vegetation induction surface 410 and may extend vertically from the lower center of the vegetation induction surface 410 Can be configured.

4, the support block 500 can be detachably attached to the vegetation inducing surface 410. [

To this end, a support block insertion groove 411 may be formed at the lower center of the vegetation guide surface 410 so as to pass through the upper and lower portions.

The lower end of the support block 500 is configured to be inserted into and removed from the support block insertion groove 411 while the lower end of the support block 500 is inserted into the support block insertion groove 411, (Not shown).

That is, if the supporting block 500 is separated from the vegetation inducing surface 410 as described above, the supporting block 500 can be attached and detached as needed.

Hereinafter, a method of constructing a vegetation block capable of vertical and inclined stacking according to the present invention will be described in detail with reference to the accompanying drawings.

FIG. 5 is a whole process view showing a method of constructing a vegetation block capable of vertical and inclined stacking according to the present invention.

As shown in FIG. 5, the method of constructing a vegetation block capable of vertical and inclined stacking according to the present invention includes a basic step S100, a basic block construction step S200, a vegetation block building step S300, a plant planting step S400 ).

Referring to FIGS. 1 to 3,

First, in the basic step S100,

Referring to FIG. 6, first, a foundation space 10 is prepared by cutting a slope for laying a normal vegetation block 1, as a foundation for building the vegetation block 1 according to the present invention.

Thereafter, the ground surface is reinforced on the bottom surface of the building space 10, and the ground layer 11 is formed by filling gravel or concrete in the inside with additional excavation. At this time, So that the drain pipe 12 connected to the rear slope and the front earth is inserted.

In other words, the base layer 11 secures the ground supporting force with respect to the weight of the vegetation block 1 to be constructed as described below, and smoothly discharges the moisture of the slope forward through the drain pipe 12, 11 can be protected.

In the basic block construction step S200,

7 to 9, the vegetation block 1 serving as a basis for constructing the vegetation block 1 is arranged and seated.

In detail, the vegetation block 1 arranged at one end of the base layer 11 is arranged adjacent to the left and right sides along the slope direction. The vegetation block 1 arranged at this time is shown in FIG. 8 Or they can be arranged in a curvilinear shape as shown in Fig.

The vegetation block 1 to be arranged at this time is formed by the combination of the vertical protrusions 121 formed on both sides of the vegetation block 1 and the vertical grooves 122. The vertical protrusions 121 and the vertical grooves 122 It becomes possible to arrange them in a straight line or a curvilinear shape by the inclination of the side portions 200 and 200 ', especially when arranging the curvatures.

In the vegetation space 400 of each vegetation block 1 and each vegetation block 1, necessary soil for plant vegetation is filled in the clearance, and a vegetation space 400 is formed in the vicinity of the river, The soil is covered with gravel or geosynthetic fiber and charged. The gravel block is filled between the vegetation block (1) and the rear and slopes and closed.

The soil filled in the vegetation space 400 as described above is preferably constructed such that the vegetation space connecting grooves 210 and 210 'are formed on the respective side surfaces 200 and 200' It is possible to connect the vegetation spaces 400 adjacent to each other by filling the soil 210 and 210 'with the soil, and it is possible to connect the vegetation spaces 400 to each other through the vegetation space connecting grooves 210 and 210' The connection of the vegetation block 1 to the vegetation space 400 enables the increase of the binding force of the soil to be filled in the vegetation space 400 and the expansion of the vegetation space 400 in which the soil is filled.

In the water pipe insertion groove 320 formed in the rear part 300 in the course of filling the soil and the gravel as described above, the water pipe 20 connecting the soil to be filled in the vegetation space 400 with the slope in the rear part Water can be guided from the rear through the water pipe 20 and transferred to the vegetation space 400 to supply water required for vegetation.

The vegetation blocks 1 arranged adjacent to each other can be connected to each other by using a separate connection pin 231. At this time, the connection pin 231 is connected to both sides of the side portion 200 of the vegetation block 1 200 ', it is possible to increase the connecting force of the neighboring vegetation block 1, and it is possible to stabilize the vegetation block 1 according to the increase of the connection force .

In the vegetation block building step (S300)

10 to 13, the vegetation block 1 of the multiple means is stacked on the upper part of the vegetation block 1 constructed as described above.

In detail, the upper part of the vegetation block 1 constructed as a base is laminated in the same direction as the lower vegetation block 1, that is, in a straight line or a curvature direction.

At this time, in the stacking, the lower vegetation block 1 and the upper vegetation block 1 are stacked in an intersecting manner, and the side portions 200 and 200 'of the upper vegetation block 1 are stacked on the lower vegetation block 1 The vegetation space 400 of the lower vegetation block 1 and the upper part of the vegetation block 1 are formed in front of the upper vegetation block 1 at the time of the lamination construction. So that the vegetation inducing grooves 110 are connected to each other.

The vegetation block 1 arranged left and right with respect to each stage is formed by the combination of the vertical protrusions 121 formed on both sides of the vegetation block 1 and the vertical grooves 122, The regulation of the rotation of the grooves 122 will enable a linear or curvilinear arrangement of the vegetation block 1 and the lower vegetation block constructed as a base.

The soil required for plant vegetation is filled in the vegetation space 400 of each vegetation block 1 and the clearance between the vegetation blocks 1 and gravels are formed between the vegetation block 1 and the rear and slopes Charge and close.

The soil filled in the vegetation space 400 as described above is preferably constructed such that the vegetation space connecting grooves 210 and 210 'are formed on the respective side surfaces 200 and 200' It is possible to connect the vegetation spaces 400 adjacent to each other by filling the soil 210 and 210 'with the soil, and it is possible to connect the vegetation spaces 400 to each other through the vegetation space connecting grooves 210 and 210' The connection of the vegetation block 1 to the vegetation space 400 enables the increase of the binding force of the soil to be filled in the vegetation space 400 and the expansion of the vegetation space 400 in which the soil is filled.

In the water pipe insertion groove 320 formed in the rear part 300 in the course of filling the soil and the gravel as described above, the water pipe 20 connecting the soil to be filled in the vegetation space 400 with the slope in the rear part Water can be guided from the rear through the water pipe 20 and transferred to the vegetation space 400 to supply water required for vegetation.

The vegetation blocks 1 arranged adjacent to each other can be connected to each other by using a separate connection pin 231. At this time, the connection pin 231 is connected to both sides of the side portion 200 of the vegetation block 1 200 ', it is possible to increase the connecting force of the neighboring vegetation block 1, and it is possible to stabilize the vegetation block 1 according to the increase of the connection force .

In addition, the stability of the vegetation block 1 to be laminated by further constructing the net-like grid 30 is ensured between the vegetation blocks 1 to be stacked as described above. In this case, Alternatively, it may be applied to all the stages or may be applied at regular intervals, and it is most preferable that the work is performed at intervals corresponding to 1 to 2 m above and below.

In order to construct the grid 30 as described above, the side portions 200 and 200 'of the respective vegetation blocks 1 are provided with the fixing pin insertion grooves 220 into which the fixing pins 221 are inserted, The net-like grid 30 is covered on the upper part of the vegetation block 1 while being fixed to the front side while the fixing pin 221 is inserted into the respective fixing pin insertion grooves 220 and protruded upward, , And the rear of the grid 30 may be fixed to a slope by using a pile (not shown in the figure) or the like.

That is, in the present invention, when the grid 30 is installed in the vegetation block 1 in the process of laminating the vegetation block 1, the fixing pin 221 fixed to the vegetation block 1 is used The stabilized construction of the grid 30 and the optimum connection between the vegetation block 1 and the slope using the grid 30 are ensured. Thus, the stability of the stacked vegetation block 1 is ensured.

In the vegetation block building step S300, the vegetation block 1 may be stacked in various forms. For example, the vegetation block 1 may be vertically constructed as shown in FIG. 11, As shown in the drawing, it is possible to construct a sloping construction in a stepped shape toward the upper part toward the upper part.

11, the vegetation block 1 stacked on the upper part of the planting block 1 is stacked on the upper part of the front part 100 of the lower part of the vegetation block 1, The vegetation block 1 can be vertically stacked while the soil block jaw coupling grooves 140 formed at the lower end of the vegetation block 1 can be vertically stacked. It is possible to perform a firm construction and a convenient positioning by the binding force of the coupling groove 140.

12 and 13, the support block 500 can be used for the vegetation block 1 when the slope construction is performed.

At this time, the support block 500 protrudes upward from the center of the lower part of the vegetation guide surface 410 of the vegetation block 1, and the vegetation block 1, which is stacked on the upper part of the vegetation block 1, The support block 500 may be mounted on both sides of the upper end of the support block 500.

That is, the vegetation block 1 on the left and right sides located on the upper side has one side of the vegetation block 1 positioned on the left side and the other side of the vegetation block 1 positioned on the right side on the upper side of the support block 500 Respectively, so that it is possible to carry out the construction while making it possible to impart a sense of stability at the time of the inclined lamination.

The support block 500 on which the vegetation block 1 is supported as described above may be integrally formed on the vegetation induction surface 410 as shown in FIG. 1 through FIG. 3 with reference to FIG. 1 to FIG. The support block insertion groove 411 can be selectively inserted and removed. In the integral construction, it is naturally possible to construct the support block 500 without assembling the support block 500, will be.

13, when the support block 500 is attached to and detached from the vegetation guide surface 410 as shown in FIG. 13, the support block 500 is formed on the vegetation guide surface 410 of the vegetation block 1 The support block 500 to be inserted is positioned at the center in the vegetation space 400 while the lower support tab 510 is positioned on the vegetation induction surface 410 So that it can be installed.

When the support block 500 is selectively used as described above, the vegetation block 1 can be constructed in a state in which the support block 500 is removed during the vertical construction, Thus, it becomes possible to increase the self-sustaining power of plants to be planted.

That is, in the step of constructing a vegetation block (S300) of the present invention, it is possible to vertically stack or obliquely stack in the process of stacking the vegetation block (1) of multiple means. Such stacking is suitable according to the shape of the slope and the construction environment Will be available.

In the plant planting step (S400)

14 and 15, by planting plants in the vegetation block 1 constructed as described above, it is possible to construct eco-friendly construction that harmonizes with natural landscape by planting plants according to the characteristics of the concrete material.

At this time, the vegetation block 1, which is laminated regardless of vertical stacking or sloping stacking of the vegetation block 1 at the time of planting the vegetation, has a vegetation block 110 in which the vegetation- It is possible to plant plants or seeds in the vegetation space 400 through the vegetation induction grooves 110. In addition,

Thus, when the vegetation block 1 is completed, the vegetation block 1 thus constructed is stably and tightly packed in the vegetation space 400 when a predetermined time elapses, A leaf or stem grows in the vegetation induction groove 110 of the plant native vegetation block 1 and the root of the plant grows along the vegetation induction surface 410 of the vegetation space 400 It becomes possible to stabilize the vegetation block constructed and attached to the soil in the vegetation space (400).

On the other hand, it is a matter of course that a usual ridge drainage path (not shown in the figure) can be further installed on the slope on which the vegetation block 1 is installed as described above.

The vegetation block of the present invention can be vertically and inclinedly stacked through the series of processes described above. The vegetation block of the present invention can be easily vertically and inclinedly stacked. ), And various countermeasures against slopes.

In addition, the soil filled in each vegetation block 1 is bound to the vegetation block 1 at the upper and lower sides through the through holes 430, and stability with respect to the binding of the soil to each other is ensured.

In addition, since the roof of each vegetation space 400 is formed through the vegetation guide grooves 110 of the front part 100, the rainwater inflow such as rainfall is minimized, and the loss of the soil caused by rainwater is prevented Particularly, due to the earth retaining jaw 130 formed at the upper end of the front portion 100, the soil of the vegetation space 400 is prevented from overflowing.

The vegetation space connecting grooves 210 and 210 'are formed on the side surfaces 200 and 200' of the vegetation block 1. The vegetation space connecting grooves 210 and 210 ' It is possible to expand the vegetation space 400, thereby enabling the vegetation of various plants to be large and small, while the stability of the adjacent vegetation blocks 1 due to the increased soil binding force is also increased.

In addition, the vegetation block (1) at the time of installing the stream surrounds the vegetation guide groove (110) of the front part (100) (400) not only adds bond strength with neighboring vegetation space (400), but also increases stability with the base layer.

In addition, since the vegetation space 400 and the slope are connected to the water pipe 20, it is possible to supply the necessary moisture to the vegetation during the natural vegetation, When the excessive moisture such as rain is generated in the rear of the gravel layer 11, the water is guided downward through the drain guide groove 310 formed in the rear portion 300, and smoothly guided through the drain pipe 12 formed in the base gravel layer 11 Lt; / RTI >

1: Vegetation block 10: Built-up space
11: foundation gravel layer 12: drainage pipe
20: water pipe 30: grid
100: Front part 101: Pattern part
110: vegetation guide groove 121:
122: vertical groove 130: retaining jaw
140: retaining jaw coupling groove
200, 200 ': side portions 210, 210': vegetation space connection groove
220: fixing pin insertion groove 221: fixing pin
230: Connection pin insertion groove 231: Connection pin
300: rear portion 310: drain guide groove
320: Water pipe insertion groove
400: vegetation space 410: vegetation induction surface
411: Support block insertion groove 430: Through hole
500: support block 510: support jaw
S100: basic step S200: basic block construction step
S300: vegetation block building step S400: plant planting step

Claims (8)

A front portion 100 having a front surface and a front surface portion 101 formed on the front surface thereof; Side portions 200 and 200 'on both sides protruding from both sides of the rear portion of the front portion 100 in such a manner as to be inclined rearward; A rear portion 300 connecting and closing the rear ends of the side portions 200 and 200 '; And a sloping vegetation inducing surface extending from the upper end of the front part 100 toward the lower end toward the lower end in the front part of the front part 100. The front part 100, the side parts 200, 200 'and the rear part 300, And a vegetation space 400 is formed at the rear of the vegetation induction surface 410 to form a through hole 430 passing through the upper and lower portions 300,
A vegetation guide groove 110 is formed in the front part 100 such that the front part 100 is recessed rearward beyond the thickness of the front part 100 so as to reach the lower part of the vegetation guide surface 410, , A semicircular vertical projection (121) and a vertical groove (122) are formed at both ends, respectively,
A vertical and sloping vegetable block including a horizontal water pipe insertion groove (320) opened upward at a central portion of the rear part (300)
An earth retaining jaw 130 protruding upward from the upper part of the front part 100 to prevent leakage of the soil is formed on both sides of the lower part of the front part 100. The earth retaining jaw 130, Grooves 140 are further formed,
At least one or more rows of drainage inducing grooves 310 are further formed in the rear surface of the rear portion 300 in a vertical direction,
The recessed vegetation space connecting grooves 210 and 210 'are formed on both side surfaces 200 and 200' for soil binding between adjacent vegetation blocks,
The vegetation space 400 further includes a support block 500 protruding upward from the vegetation induction surface 410. The support block 500 has a top surface that is flush with the top surface of the vegetation block,
The vegetation space 400 further includes a support block insertion groove 411 penetrating the vegetation guide surface 410 upwardly and downwardly,
The support block 500 is constructed such that the lower portion of the support block 500 is detachably mounted to the support block insertion groove 411 and the lower portion of the support block 500 is supported by the support protrusion 510 supported on the vegetation induction surface 410 in the process of being inserted into the support block insertion groove 411. [ The vegetation block being vertically and slopingly stackable.
delete delete delete The vegetation block according to claim 1, wherein a slope is cut to form a building space (10) for constructing a vegetation block, and a bottom surface of the building space (10) (S100) for constructing the foundation layer (11) by filling gravel or concrete so that the drain pipe (12) connected to the front earth is inserted;
The vertical protrusions 121 and the vertical grooves 122 of the front part 100 are joined to the upper part of the base layer 11 in a left or right direction so as to form a straight or curved shape, A base block construction step S200 for filling the soil between the vegetation space 400 and the vegetation block 1 in the vegetation block 1 and filling gravel between the slope and the slope at the rear side;
A plurality of vegetation blocks (1) are stacked on top of a vegetation block (1) constructed as a base, and a plurality of layers are successively stacked on top of the vegetation block (1) The vertical grooves 121 and the vertical grooves 122 of the vegetation blocks 1 and the vegetation blocks 1 are filled with the soil and the slope of the vegetation block 1 and the vegetation blocks 1 are filled with soil, A vegetation block forming step S300 of stacking the vegetation space 400 of the lower vegetation block 1 and the vegetation induction grooves 110 of the upper vegetation block 1 so as to be connected to each other while the gravel is filled; (S400) planting the plant in the vegetation space (400) of the vegetation block (1) located below the vegetation induction groove (110) of the front part (100) opened to the front side ,
In the basic block construction step S200 and the vegetation block construction step S300, the soil to be filled in the vegetation space 400 is constructed to be connected to each other through the vegetation space connection grooves 210 and 210 '
In the course of filling the soil and the gravel, the water pipe insertion groove 320 of the rear part 300 further includes a water pipe 20 connecting the soil of the vegetation space 400 to the slope of the rear part,
The adjacent vegetation block (1) comprises a connection pin (231) inserted into the connection pin insertion groove (230), and both ends of the connection pin (231)
In the vegetation block building step (S300)
The upper layer is vertically stacked,
The earth retaining jaw coupling grooves 140 formed at the lower end of the front part 100 of the upper vegetation block 1 are coupled to the earth retaining jaws 130 formed on the front part 100 of the lower vegetation block 1, However,
The vegetation block building step S300 is performed such that the upper end of the vegetation block 1 is mounted on the upper part of the support block 500 while the upper part of the vegetation block 1 is mounted on the upper part of the support block 500, And a method of constructing a vegetation block capable of slope piling.
delete delete delete

Images