KR20120051345A - A plantable retaining wall and construction method thereof - Google Patents

Abstract

PURPOSE: An environment-friendly reinforced earth retaining wall, capable of growing plants is for the plants and trees to be grown naturally by being harmonize with surroundings. CONSTITUTION: An environment-friendly reinforced earth retaining wall comprises a proportioning building of non-vegetation blocks with vegetation blocks(B). The vegetation blocks and non-vegetation blocks comprise the front side, reverse sides, left and right sides, upper and lower sides, through holes, protrusions, coupling protrusions, stiffener insertion grooves, and insertion grooves for support pins. The through holes are formed into the top and bottom. The protrusions are formed in the left and right sides to couple the blocks facing each other. The coupling protrusions are formed in the upper side of the both reverse sides to interlock the blocks laminated up and down. The coupling protrusions are interlocked with latching grooves at a rear side of the blocks or the reverse side of the through holes. The stiffener insertion grooves are formed in the front side and the reverse side of the coupling protrusions. The insertion grooves for support pins are formed in the reverse side of the coupling protrusions and the support pins are inserted to adjust an interlocking space with reinforcing an interlocking state.

Description

Eco-friendly reinforcement retaining wall for plant growth and its construction method {A PLANTABLE RETAINING WALL AND CONSTRUCTION METHOD THEREOF}

The present invention relates to an eco-friendly reinforcement earth retaining wall capable of plant growth and its construction method, and in detail, to solve the bleak problem of the existing greening retaining wall and to allow vegetation of vegetation on the retaining wall constructed of blocks, artificial management The vegetation roots can be extended vigorously to the reinforcement body behind the retaining wall to allow for natural growth without swelling, to induce rainwater to the vegetation space as much as possible, and to build up in a way that can block excessive heat from sunlight. Eco-friendly reinforcement earth retaining wall and its eco-friendly reinforcement retaining wall that enables plant stems and leaves to grow naturally in three dimensions in front of the retaining wall, and to grow vegetation in various patterns to suit the environment of the area where the retaining wall is installed. It relates to a construction method.

Applicants have searched for patents 654625 and 660379 as prior art associated with the present invention.

First, Patent No. 654625 shows that vegetation of small animals and vegetation is possible in the retaining wall itself, as shown in FIGS. 20 and 21, and the appearance of the retaining wall is relatively more beautiful than that of the existing retaining wall. Retaining wall building blocks having a sound absorption effect when installed on the side of the road where noise due to traffic often occurs, respectively, the front surface (10) forming the retaining wall, the rear surface 20 corresponding to the front surface, the left and right sides (30) In the retaining wall construction block having a 40 and an upper and lower surfaces 50 and 60, and a through hole 70 is formed therein; Middle portions of the left and right side surfaces 30 and 40 are provided with protrusions 32 and 42 for coupling between adjacent blocks; Coupling protrusions 52 and 54 for interlocking between blocks stacked up and down are formed on both sides of the rear surface of the upper surface 50 so as to be interlocked behind the through-holes 79 of the blocks stacked above; The front and inner portion of the coupling protrusion (52, 54) is made of a structure in which the reinforcing member insertion groove 80 is formed.

In addition, as shown in FIGS. 22 and 23, Patent No. 660379 uses a large block having a larger left and right width than the existing block to quickly construct the retaining wall, but uses the equipment to construct a physical burden on the worker. Relieves, and forms a soil filling part penetrating up and down inside the block, so that the soil filling part has a structure that can be partially exposed to the front surface of the retaining wall. The present invention relates to a retaining wall and a method for constructing the retaining wall, which provide a possible block and prevent the block from being damaged by shear force due to the load of the block itself, which may occur in the lower layer of the retaining wall constructed using the block. A front surface 10 and a rear surface contacting the reinforcement soil to form a (not shown); Left and right side surfaces 30 and 30 ′ in which corresponding uneven coupling portions are formed for uneven coupling between adjacent blocks; An upper surface 40 having a reinforcing member or a reinforcing member insertion groove 44 into which an anchor for connecting the reinforcing member is fitted in a front and rear direction; In the retaining wall building block having a lower surface (not shown) corresponding to the upper surface, the support pin insertion hole h for penetrating the support pin between the upper and lower blocks on the left and right sides of the upper and lower surfaces. ; The inside of the block is formed through the earth filling portion 60 from the upper surface to the lower surface, the front and rear sides of the block retreat side to the rear so that the earth filling portion is exposed to the front when the upper and lower cross-shaft of the block (12, 12) ') Is formed structure.

Retaining wall construction method of Patent No. 660379 includes the steps of vertically stacking at least two or more unit blocks and unitizing them with support pins; A primary construction step of constructing the unitized block on the concrete foundation; Laying a reinforcement soil on the rear of the primary structured block, connecting the reinforcement to the block, laying the reinforcement soil on the reinforcement soil, and compacting the reinforcement soil; Filling the soil filling part of the primary constructed block and planting (planting or transplanting) vegetation; Stacking at least two or more unit blocks vertically and uniting the support blocks; A secondary construction step of constructing the second unitized block on the primary constructed block unit so as to cross left and right; Laying reinforcement soil on the rear of the secondary-constructed block, connecting the reinforcement to the secondary-constructed block, and laying the reinforcement soil on the reinforcement soil; Filling soil with a soil filling part of a secondly constructed block and planting vegetation; Consists of including.

On the other hand, although the vegetation is possible in the retaining wall according to the above-mentioned patents 654625 and 660379, the vegetation base of vegetation planted between the blocks forming the retaining wall is not so substantial, so the vigorous rooting of the vegetation is taken. This resulted in a situation in which the permanent greening became difficult when retaining walls were constructed in dry seasons or in dry climates. This means that the roots of vegetation are behind the retaining walls in the design of the block itself. It was due to the fact that it was not sufficiently considered to be deeply rooted into the earth's soil, and the vegetation space of vegetation exposed to the front of the retaining wall was also narrow so that it could not be a structure capable of absorbing moisture, that is, rainwater. The supply of phosphorus is not made smoothly naturally If watering is not done periodically, the plant will die.

In addition, in the above-mentioned patents 654625 and 660379, the retaining wall surface itself constructed by blocks is generally planarized, and the planting position of the trees is in a narrow space formed in the adjacent block and the gap between the blocks. Therefore, the amount of rainwater and the amount of sunshine are low, which makes it inefficient for vegetation of vegetation. Even if the vegetation is made, the vegetation landscape itself is not three-dimensional and it is a flat, flat landscape.

The present invention has been made in order to solve the above problems, an object of the present invention is to allow vegetation of vegetation on the retaining wall is made of blocks, the supply of factors (water and sunlight, etc.) necessary for growth without artificial management It allows the roots of vegetation to grow vigorously to the reinforcement soil at the rear of the retaining wall to enable natural growth, and to supply the moisture and sunshine, which are the essential vegetation factors of the vegetation, to the stems and leaves of the vegetation. The purpose of the present invention is to provide an eco-friendly reinforced soil retaining wall and its construction method that can grow plants in a variety of patterns so that they can grow naturally in three dimensions and suit the environment of the area where the retaining wall is installed.

In order to achieve the above object, the present invention is constructed on the side or top of the vegetation block and the vegetation block and the reinforcement retaining wall for the vegetation landscape production is formed by a combination of the vegetation block protruding in front of the front of the vegetation block To provide.

In one embodiment, the vegetation block and vegetation block provides a reinforcing soil retaining wall for the vegetation scenery direction is cross-constructed by one step up or down, or cross-constructed by two steps up and down.

In another embodiment, the vegetation block is constructed in two or more stages, and the vegetation block provides a reinforcing soil retaining wall for directing vegetation scenery, which is repeated in one stage on the vegetation block.

In another embodiment provides a reinforcement retaining wall for the vegetation landscape production that the vegetation block protruding to the front of the vegetation block is constructed in a variety of patterns including a diamond shape or a circle.

The vegetation block and the vegetation block basically has a front surface forming a retaining wall and a rear surface, left and right sides, and an upper and a lower surface corresponding to the front surface, respectively, and through holes are formed in the upper and lower sides, respectively, Protrusions for coupling between adjacent blocks to the left and right are formed; A coupling protrusion for interlocking between blocks stacked up and down is formed on both sides of the rear part of the upper surface to be interlocked at the rear of the through hole of the block stacked on the upper part; Reinforcement insert grooves are formed at the front and the inner side rear of the coupling protrusion.

The through-hole of the vegetation block is a space for planting of vegetation, is formed relatively wide inside the block and is open toward the front upper portion, the front of the vegetation block has a shape protruding relatively compared to the front of the vegetation block, A rainwater induction part is formed on the upper surface of the protruding portion to induce rainwater into the through hole, and the vegetation block made of concrete is heated with sunlight by the vegetation planted inside the through hole on the inner surface of the through hole of the vegetation block. A heat shield plate is attached to block the transfer of the heated heat, and the lower part of the through hole of the vegetation block is connected to the soil filled in the rear of the block through the space between the side surfaces of the vegetation block that is constructed below the vegetation block. The roots of vegetation planted in the through hole of the can be extended.

In the present invention, the reinforcing material for supporting the vegetation block and the vegetation block is a band-shaped fiber reinforcement.

Reinforced soil retaining wall construction method of the present invention comprises the steps of building a vegetation block in more than one stage; Fill the permeable aggregate to a certain height in front of the rear end of the at least one erected vegetation block, place the nonwoven on the back of the vegetation block above the permeable aggregate, and lay the lower part of the nonwoven on the permeable aggregate and the adjacent non- vegetation of the upper part of the nonwoven fabric. Filling a soil body in which roots of vegetation can extend on the nonwoven fabric with both sides of the nonwoven fabric positioned between the blocks cut away; Constructing a vegetation block on the vegetation block, first placing a heat shield plate on the front surface of the through hole formed inside the vegetation block, and placing the cut nonwoven fabric thereon and filling the vegetation body inside the through hole; Filling the permeable aggregate behind the vegetation block; It is made, including, by repeating these steps to build a reinforcing soil retaining wall for the vegetation scenery direction of the desired height, the final step of installing a steel grating for rainwater inlet in the upper rear of the top block; .

In the method of constructing the reinforcement soil retaining wall of the present invention, the connection of the reinforcement and the compaction of the reinforcement soil are the same as the conventional block-assembled reinforcement soil retaining wall construction method, so a detailed description thereof will be omitted. At the same time, the adjacent blocks are folded or unfolded at the same time, and the reinforcement soils are laid out and laid down so that they are embedded in the reinforcement soils.The rear end of the reinforcement soils is turned to a U-shape to be embedded in the reinforcement soils in the upright state. In addition, passive supporting resistance can be added.

In the present invention, since the strip-shaped fiber reinforcement is continuously installed in a zigzag state, the construction speed is fast and the construction is easy. Even in construction sites with short backfill lengths, solid construction may be possible.

Reinforced soil retaining wall of the present invention solves the problem of the vegetation retaining wall that was only available for conventional flat planar vegetation, three-dimensional vegetation is possible, the rainwater flows into the through-hole planted vegetation is smooth and concrete heated by sunlight at the same time By effectively blocking the heat from the heat transfer to the soil and vegetation roots inside the through hole, the vegetation can grow in the natural environment without the need for artificial management, and the vegetation can be suitable for the environment where the retaining wall is installed. It has a useful effect that can be planted in a variety of patterns.

1 is a perspective view of the front portion showing the construction of the retaining soil retaining wall for vegetation landscape production according to the present invention,
Figure 2 is a perspective view of the rear portion of the reinforcement earth retaining wall shown in FIG.
Figure 3 is a perspective view of the vegetation block for reinforcing soil retaining wall construction of the present invention,
4 is a plan view of the vegetation block shown in FIG.
5 is a cross-sectional view taken along the line A-A of FIG.
Figure 6 is a perspective view of the vegetation block for reinforcement earth retaining wall construction of the present invention,
7 is a plan view of the vegetation block shown in FIG.
8 is a cross-sectional view taken along the line B-B of FIG.
9 is a plan view showing a mixed construction state of the vegetation block and vegetation block,
Figure 10 is a side cross-sectional view showing the construction of the reinforced soil retaining wall shown in Figures 1 and 2,
11 is a perspective view of a vegetation block showing another embodiment of the present invention;
12 is a plan view of the vegetation block shown in FIG.
13 is a cross-sectional view taken along the line C-C of FIG.
FIG. 14 is a plan view of the plant state of the vegetation block shown in FIG.
FIG. 15 is a plan view of the plant state of the vegetation block shown in FIG.
16 is a plan view of the building state of the vegetation block shown in FIG.
17 is a front perspective view of the retaining wall constructed of the vegetation block of FIG. 11;
18 is a rear perspective view of the retaining wall constructed of the vegetation block of FIG. 11;
19 is a side cross-sectional view of the retaining wall constructed of the vegetation block of FIG. 11;
20 is a side sectional view of a retaining wall for greening according to the prior art;
21 is a perspective view of the block shown in FIG. 20,
Fig. 22 is a view showing the construction of another retaining wall for greening according to the prior art;
FIG. 23 is a perspective view of the block shown in FIG. 22.

Hereinafter, with reference to the accompanying drawings, preferred embodiments that do not limit the present invention will be described in detail.

1 and 2 are respectively a perspective view of the front portion and the rear portion showing an example of the construction state of the reinforcing soil retaining wall for the vegetation scenery direction according to an embodiment of the present invention, Figure 3 to Figure 8 is a vegetation for reinforcing soil retaining wall construction of the present invention 9 shows a block and a vegetation block, FIG. 9 is a plan view showing a mixed construction state of the vegetation block and the vegetation block, and FIG. 10 is a side cross-sectional view showing the construction state of the retaining soil retaining wall shown in FIGS. 1 and 2. to be.

As shown in FIGS. 1 to 10, the reinforced soil retaining wall of the present embodiment is constructed as a vegetation block B ′ and a vegetation block protruding forward from the front side of the vegetation block, being constructed on the side, upper, and lower portions of the vegetation block ( It consists of the combination construction of B).

As shown in FIGS. 1 to 9, vegetation block B and vegetation block B ', which are blocks forming the reinforcement soil retaining wall of the present embodiment, basically correspond to the front surface 110 and the front surface, respectively, which form a retaining wall. It has a rear surface 120, left and right sides 130 and 140 and upper and lower surfaces 150 and 160, and a through hole 170 is formed therein, and the left and right sides 130 and 140 are adjacent to the left and right sides. Protrusions 180 are formed for coupling therebetween; Coupling protrusions 190 for interlocking between blocks stacked up and down are formed on both sides of the rear surface of the upper surface 150 to be interlocked behind the through-holes 170 of the blocks stacked thereon, and the coupling protrusions 190 are formed. Reinforcement insert groove 192 is formed in the front and rear of the inner portion.

Reference numeral 162 in the figure is a coupling groove formed in the left and right directions at the rear of the lower surface 160 of the block, so that the coupling protrusion 190 formed at the rear of the upper surface 150 of the block can be fitted when the block is transported. The front and rear widths of the coupling grooves 162 may be greater than the width of the coupling protrusion 190 so that a plurality of blocks may be stacked vertically during transportation.

In addition, the coupling groove 162 is used to interlock between the upper and lower blocks without using a separate support pin when the unit of the block bar, the coupling protrusion 190 of the block upper surface 150 is a block The upper block is prevented from being pushed forward by being fitted into the coupling groove 162 of the lower surface 160, and the coupling protrusion 190 of the lower block is disposed in the upper block even when the upper block is stacked in one side. The lower surface 160 is to be interlocked by the engaging groove 162 formed to communicate in the left and right sides at the rear.

3 to 5, the through hole 170 of the vegetation block (B) is basically used as a space for planting of vegetation in addition to the purpose of lightening the block, for this purpose block (B) Widely formed in the left and right direction in the inner side and also wide in the front and rear direction, the front surface 172 inside the through hole 170 is formed to be inclined upward toward the front of the upper surface 150 of the vegetation block (B), The front surface 110 of the vegetation block B has a shape that protrudes approximately 70 mm forward compared to the front surface 110 of the vegetation block B '.

On the upper surface of the protruding front 110 of the vegetation block (B) is formed a rainwater induction part 175 for guiding rainwater into the through hole 170 inside the rainwater falling to the protruding portion of the vegetation block (B) in rainy weather It is to be able to flow into the through hole 170 as much as possible.

In addition, a heat shield for blocking heat from being heated by sunlight in the vegetation block made of concrete as vegetation planted in the through hole 170 inside the through hole 170 of the vegetation block B. Plate 176 is to be attached.

In addition, the bottom of the through-hole 170 of the vegetation block (B) is a vegetation block (B ') through the space between the adjacent side surfaces 130, 140 of the vegetation block (B) built under the vegetation block (B) The roots of the vegetation planted in the through hole 170 of the vegetation block (B) is connected to the soil filled in the rear so as to extend vigorously.

In addition, the through hole 170 of the vegetation block (B ') is mainly formed for the purpose of lightening the block, as shown in Figure 6 to 8, the middle portion of the through hole 170 in front and rear Reinforcing ribs are formed in the direction to increase the strength of the block, and the through holes on the left and right sides are formed in an isolated state by the reinforcing ribs.

The through hole 170 of the vegetation block (B ') is also used as a rainwater passage for supplying rainwater toward the vegetation block (B) built in the lower portion.

On the other hand, the vegetation block (B) and the vegetation block (B ') according to the present invention for the adjustment of the rear biting interval in the rear of the coupling protrusion 190 for interlocking between the upper and lower blocks, and for strengthening the interlocking state A plurality of support pin insertion grooves 195 and 196 into which the support pins 200 are inserted are formed, which is a first support pin insertion groove 195 overlapping about half of the back of the coupling protrusion 190 and the first support pins. Located in the rear than the insertion groove 195 and consists of a second support pin insertion groove 196 which is directly in contact with the front end of the engaging projection 190, the first and second support pin insertion grooves (195,196) As shown in FIG. 9, the upper block can be controlled in a multi-stage by selectively building the upper block on the lower block without the supporting pin 200 or without the supporting pin 200. The locking state can be enhanced.

The support pin 200 may be used by cutting the round bar of the fiber-reinforced plastic material to a predetermined length or may use a metal round bar such as stainless steel material.

When constructing without using the support pin 200 in the present invention it is possible to stack the vegetation block (B) to protrude as far forward as possible above the vegetation block (B '), in this case, the vegetation block located in the lower ( B ') the vegetation block (B) located in the upper portion as close as possible to the rear of the coupling groove 190 formed in the rear of the lower surface 160 of the vegetation block (B) to the rear of the coupling protrusion 190 formed in the rear of the upper surface The upper and lower blocks (B, B ') is purely by the interlocking action between the coupling protrusion 190 and the coupling groove 162, the upper vegetation block (B). This forward movement is prevented.

On the other hand, when constructing the vegetation block (B ') on the vegetation block (B), the vegetation block (B) in order to maintain the state protruding as far as possible in front of the vegetation block (B') B ') should be constructed so as to be retracted as much as possible. In this case, as shown in FIG. 9, the second support pin insertion groove behind the coupling protrusion 190 formed at the rear of the upper surface 150 of the vegetation block B 196) when the support pin 200 is fitted in the state in which the vegetation block (B ') is stacked on it, the upper vegetation block (B') of the upper stack corresponding to the thickness of the support pin 200 is laminated The upper portion of the support pin 200 fitted on the lower vegetation block (B) is in contact with the rear surface of the coupling groove 162 formed at the rear of the lower surface 160 of the vegetation block (B ') stacked on the upper, The front part of the support pin 200 is the rear of the coupling protrusion 190 formed on the rear of the upper surface 150 of the vegetation block (B) located at the bottom Since the state is supported on the interlocking state with the vegetation block (B ') stacked on the upper portion as the protruding length of the support pin 200 is strengthened, the vegetation block (B) located above the vegetation block (B) ') Can be more effectively prevented from moving forward.

In addition, the support pin 200 may be inserted into the first support pin insertion groove 195 instead of the second support pin insertion groove 196, and in this case, the bite of the block stacked on the upper side is reduced.

Hereinafter, the reinforced soil retaining wall construction method of the present embodiment will be described.

First, as shown in the side cross-sectional view of FIG. 10, the step of constructing the vegetation block B 'in at least one step on the concrete foundation C formed at the position where the reinforcement soil retaining wall of the present invention is to be built (two steps in the drawing) S1);

Permeable aggregate (R1) is filled up to a predetermined height (up to the height of the first stage vegetation block) in front of the rear part of the vegetation block (B) first constructed on the concrete foundation (C1), and the permeable aggregate (R1) ) The nonwoven fabric (Q) having a width of about 1 to 2 m is placed on the back of the upper vegetation block (B '), and the lower portion of the nonwoven fabric (Q) is about 0.5 to 1 m back and forth on the permeable aggregate (R1). In the position between the adjacent vegetation block (B ') of the upper portion of the nonwoven fabric (Q'), which is laid on the back of the vegetation block (B '), the sides of the nonwoven fabric (Q) are cut out by the width thereof. Filling the vegetation soil (R2) to the roots of vegetation on the nonwoven fabric (Q) laid on the permeable aggregate (R1) in and covering the remaining portion of the nonwoven fabric (Q) thereon (S2);

Construct one or more steps of vegetation block B on the vegetation block B ', and attach the heat shield plate 176 to the front surface 172 of the through hole 170 formed inside the vegetation block B. And then filling the vegetation soil (R2) inside the through hole 170, the non-woven fabric (Q) cut in the step (S2) thereon (S3); And

Filling the permeable aggregate (R1) on the nonwoven fabric (Q) behind the vegetation block (B) (S4); And,

The front end of the strip-shaped fiber reinforcement (T) is folded in half width by simultaneously connecting two blocks (B, B ') adjacent to the reinforcement insertion groove (192) formed at the rear of the upper surface (150) of the blocks (B, B'). The middle part of the strip-shaped fiber reinforcing material (T) is connected to the full width and embedded in the reinforcing soil, but the rear end of the strip-fiber reinforcing material (T) is embedded in the reinforcing soil in the stretched state, and the steps (S1, S2, S3). By repeating, S4) to build a reinforcement retaining wall for the vegetation scenery direction of the desired height, the final step of installing a steel grating for rainwater inlet in the upper rear of the top block (S5); .

The step (S3) may further include the step of planting the vegetation in the vegetation soil (R2) filled in the through hole 170 of the vegetation block (B), the vegetation planting is completed after the completion of the construction of the retaining wall Of course, you can proceed to the process.

In FIG. 9, R is a reinforced earth body, and T is a reinforced material.

In the construction method of the present invention, in addition to the embodiment shown in Figs. 1 to 10, the vegetation block (B) can be constructed in various patterns. For example, the vegetation block is constructed in units of two stages. However, the vegetation block is constructed by stacking the first stage on the vegetation block, and the vegetation block may be constructed by uniting the vegetation block into two stages on the vegetation block, which is illustrated in FIGS. 1 to 10. It is a construction method that can be used when the density of vegetation is to be made more densely than in the example.

Another method of construction may include a method in which the vegetation block and the vegetation block are stacked up and down to cross each other by one step, which may be used to maximize vegetation density of vegetation on the retaining wall surface. Way.

Another method of construction is to avoid the tendency of the vegetation block to be built in a straight line along the horizontal direction of the retaining wall, and to construct the vegetation block to intersect the upper and lower portions of each layer (stage) to form a diamond pattern or other various vegetation patterns. can do.

In addition, the present invention by replacing a portion of the vegetation blocks stacked side by side in the horizontal direction by two stages to the vegetation block to form a variety of symbols on the front of the retaining wall to form a non-contiguous pattern along the horizontal direction Of course, it can be constructed to be a pattern or a pattern such as a symbol or a character.

Hereinafter, a brief description will be made of a method of connecting the reinforcing material used when constructing the reinforced soil retaining wall according to the present invention.

The reinforcing material used in the present invention is suitable to use a band-shaped fiber reinforcement (T) as shown in the drawings, in this case, the reinforcing material insertion groove 192 formed on the rear surface 150 of the block (B, B ') What is necessary is just to connect the strip | belt-shaped reinforcement T by connecting two adjacent blocks B and B 'simultaneously.

On the other hand, the rear end of the strip-shaped fiber reinforcement (T) is to be buried in the reinforcement soil in the unfolded state as shown in the figure so that the passive resistance can be given in addition to the frictional resistance.

The retaining wall of the present invention constructed as described above is capable of three-dimensional greening compared to the conventional vegetation retaining wall, and effectively absorbs and stores the rainwater received from the soil body in front of the retaining wall and the retaining wall, and the roots and soil Since the plants can grow vigorously toward the vegetation, the vegetation can grow naturally, and the vegetation blocks protrude forward than the vegetation blocks, so the stems and leaves of the vegetation can also grow vigorously.

11 to 13 are a perspective view, a plan view and a cross-sectional view showing a vegetation block (B) according to another embodiment of the present invention, Figures 14 to 16 is a plan view showing a state in which the different backing intervals, respectively, 17 to 19 are front and rear perspective views and side cross-sectional views of the retaining wall constructed of only the vegetation block B. FIG.

The vegetation block B of this embodiment also has the same structure as the vegetation block shown in Figs. 3 to 5, but the vegetation block B of this embodiment uses only the vegetation block without using the vegetation block. 14 to 16, it is possible to build a slope vegetation retaining wall having various back angles.

That is, the vegetation retaining wall (B) of the present embodiment has a structure in which the interlocking between the upper and lower blocks is made by the support pin 200, and for this purpose, three support pin insertion grooves 195, 196 and 197 are spaced back and forth on the rear surface of the block. The lower surface of the lower surface of the block is formed with a coupling groove 162 in which the support pin 200 is selectively fitted into the support pin insertion grooves 195, 196 and 197.

Accordingly, by selecting the fixing position of the support pin 200 from the three support plates (195, 196, 197) it is possible to build a slope vegetation retaining wall having a variety of inclination as shown in Figs.

110: front 120: rear
130140: Side 150: Top
160: lower surface 162: coupling groove
170: through hole 172: front
175: rainwater induction part 176: heat shielding plate
180: protrusion 190: coupling protrusion
192: reinforcing material insertion groove 195: first support pin insertion groove
196: second support pin insertion groove 197: third support pin insertion groove
200: support pin B: vegetation block
B ': vegetation block C: concrete foundation
G: Steel Grating Q: Non-woven
R1: Permeable Aggregate R2: Vegetative Soil
T: Band-shaped fiber reinforcement

Claims (4)

In the reinforcement retaining wall formed by a combination of the vegetation block (B ') and the vegetation block (B) is built on the side or top, bottom of the vegetation block, and protrudes in front of the front of the vegetation block;
The vegetation block (B) and the vegetation block (B ') has a front surface 110, a rear wall 120, left and right sides 130 and 140 and upper and lower surfaces 150 and 160 corresponding to the front surface, respectively. The through hole 170 is formed up and down in the inside, and the left and right side surfaces 130 and 140 are provided with protrusions 180 for coupling between adjacent blocks left and right; Coupling protrusions 190 for interlocking between blocks stacked up and down are formed on both sides of the rear surface of the upper surface 150 so that the locking grooves at the rear of the through hole 170 of the block stacked on the upper side or the rear surface of the block lower surface 160 Interlocked at 162); A reinforcement insert groove 192 is formed at the front and the inner side rear of the coupling protrusion 190; Eco-friendly reinforcement soil retaining wall capable of plant growth, characterized in that the coupling protrusion 190 is formed in the support pin insertion groove (195,196) is inserted into the support pin 200 is inserted for the adjustment of the interlocking interval and reinforcement of the interlocking state. The method according to claim 1,
The through hole 170 of the vegetation block (B) is wide in the left and right direction inside the vegetation block (B) and is integrally formed in the front and rear direction, and the front surface 172 inside the through hole (170) is a vegetation block ( It is formed to be inclined upward toward the front surface 150 of B), the front surface 110 of the vegetation block (B) is projected forward 70mm compared to the front surface 110 of the vegetation block (B '). The environmentally-reinforced soil retaining wall capable of plant growth, wherein the rainwater induction part 175 is formed on the upper surface of the protruding portion to guide the rainwater into the through hole 170. The method according to claim 1,
The support pin insertion grooves 195 and 196 are formed in plural, and the first support pin insertion grooves 195 overlapping about half of the rear surface of the coupling protrusion 190 and the rear side of the first support pin insertion grooves 195. Eco-friendly reinforcement earth retaining wall capable of plant growth, characterized in that consisting of a second support pin insertion groove 196 which is directly in contact with the front end of the engaging projection 190. A method of constructing a reinforced soil retaining wall by combining the vegetation block and the vegetation block according to any one of claims 1 to 3,
Step S1 of building a vegetation block B 'on the concrete foundation C in at least one step;
Filling the permeable aggregate (R1) to a predetermined height in front of the rear of the vegetation block (B ') to a predetermined height, the nonwoven fabric having a width of about 1 to 2m on the back of the vegetation block (B') above the permeable aggregate (R1) ( Q) upright, but the lower part of the nonwoven fabric (Q) is laid on the permeable aggregate (R1) with a width of 0.5-1m in front and rear of the nonwoven fabric (Q) erected adjacent to the top of the nonwoven fabric (B ') Where located between the fresh block (B ') vegetation that can extend the roots of vegetation on the non-woven fabric (Q) on the permeable aggregate (R1) in a state in which both sides of the non-woven fabric (Q) cut in its width Filling the soil (R2) and covering the rest of the nonwoven fabric (Q) thereon (S2);
Construct one or more steps of vegetation block B on the vegetation block B ', and attach the heat shield plate 176 to the front surface 172 of the through hole 170 formed inside the vegetation block B. And then filling the vegetation soil (R2) inside the through hole 170, the non-woven fabric (Q) cut in the step (S2) thereon (S3); And
Filling the permeable aggregate (R1) on the nonwoven fabric (Q) behind the vegetation block (B) (S4); And,
The front end of the strip-shaped fiber reinforcement (T) is folded in half width by simultaneously connecting two blocks (B, B ') adjacent to the reinforcement insertion groove (192) formed at the rear of the upper surface (150) of the blocks (B, B'). The middle part of the strip-shaped fiber reinforcement (T) is expanded to be embedded in the reinforcement soil, and the rear end of the strip-shaped fiber reinforcement (T) is buried in the reinforcement soil in the stretched state. The method of constructing an eco-friendly reinforcement soil retaining wall capable of plant growth, comprising: constructing a reinforcement soil retaining wall for vegetation scenery production at a desired height by repeating S4).

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