KR200345937Y1 - Precast concrete block for retaining wall - Google Patents

Abstract

The present invention discloses a retaining wall block provided with a vine plant and a small animal moving passage.

The present invention is a rectangular concrete block used to prefabricate a retaining wall that can be inhabited by plants or small animals so that the backfill soil is partially exposed to the front of the retaining wall, the passage intersecting a "XX" shape on the front of the block. The front groove 11 is formed to a predetermined depth while forming a, and the planting hole 12 penetrating back and forth while being located at two points on the left and right intersecting diagonally of the XX-shaped passage is formed, the upper surface and the work of the block Protrusions 13 and 14 are formed on the side to serve as a shear key, and socket grooves 15 are formed on the bottom and the other side of the block so as to fit the protrusions 13 and 14 when stacked up, down, left and right. (16) is formed, and the back side of the block is formed with a quadrilateral cell (18a) (18b) (18c) having a portion dug downward from the upper surface with the left and right subwalls (17) in between. Provide The.

Description

Retaining wall block with vine plant and small animal moving passage {Precast concrete block for retaining wall}

The present invention relates to a concrete block used for prefabricating retaining walls such as slopes, banks of rivers, banks, or banks around roads or complexes by stacking them vertically and vertically, and in particular, neighboring blocks through socket joint structures. Not only can they be piled up firmly, but also through the planting hole penetrating back and forth through the central part of the block, the groundwater from the ground behind the retaining wall is naturally discharged, and the soil is filled in the planting hole to induce plant growth. The stems of the vines extend along the grooves formed in the front part, or can be used as a passageway for small animals to move up and down the retaining wall, thereby creating a structurally stable and ecological environment as advantageous as possible. Retaining walls with moving passages of vines and small animals It relates to a lock.

As is well known, retaining walls are civil structures that are constructed to stabilize slopes by supporting the soil on the back while reducing the amount of soil when the site is restricted in creating roads, railroads, complex factories, rivers, etc. in cut soil.

The retaining wall is constructed considering the topographical conditions and factors affecting the retaining wall after the construction of the retaining wall, and traditionally forms a form to cut the soil of the construction area or fill the valley part and the lower part of the mountain area, It was common to pour concrete and cure it, then build it by filling the soil and crushed stone on the back of the concrete structure.

However, these reinforced concrete retaining walls are not preferable in terms of cost and construction period because they are concrete in the field, and it is often difficult to secure mechanical allowable stress, and there is a problem of poor aesthetics.

In view of this point, conventionally, a block retaining wall for constructing a factory-prepared concrete block in a laminated manner has been widely constructed.

The block retaining wall is formed of a concrete block that forms the front wall of the retaining wall and prevents the soil from being pushed forward, the soil filled in the rear of the block, and an appropriate anchor means. It is common to construct a backfill material such as crushed stone or earth and sand on the back of the stacked blocks while being stacked.

Thus, the retaining wall constructed by the blocks has better aesthetics than the reinforced concrete retaining wall due to the site casting, but since the block is molded into concrete, if the retaining wall surface is left as it is, there is a limit to the aesthetic improvement of the retaining wall due to the unique color of mortar or concrete. have.

Therefore, in order to improve the aesthetics of the retaining wall, the surface of the block may have a roughness, a pattern, or coloring at the time of manufacturing, but in this case, the manufacturing cost increases, and as time passes after installation, it becomes dirty by air pollutants. There is a drawback that aesthetic triggers can only be expressed temporarily.

In addition, the existing block retaining wall blocks the space where vegetation can grow in consideration of the stability of the slope, so that the heterogeneous landscape that does not fit with the surrounding environment cannot be avoided, and the habitat of microorganisms and small animals disappears and the natural ecosystem is destroyed. have.

In recent years, as the above-mentioned environmental problems are seriously recognized and people's desire for environment-friendly urban landscapes is increasing, attempts to regenerate and recover ecologically damaged surroundings have been actively made.

Their measures focus primarily on creating a natural ecosystem by introducing vegetation into the front of civil engineering structures.

In order to introduce vegetation to the front of civil engineering structures, several attempts have been made, and some of them have induced the vegetation by constructing civil structures such as retaining walls by stacking soil while putting soil inside the box-shaped concrete blocks. Doing.

As an example of civil engineering construction using a box-shaped concrete block, Japanese Patent Laid-Open No. 5-33346 has been disclosed.

This prior art, as shown in Figs. 1A and 1B, joins one end of the anchor rod 2 to a box-shaped concrete block 1 in which the receiving space is opened upwards and to the other end of the anchor rod 2. After the factory manufactures and prepares a large number of structures having the anchor body 3 fixed to increase the friction force, the concrete blocks 1 are piled up while being sequentially arranged to be adjacent to each other, and at the rear of the concrete block 1 It anchors and embeds the anchor rod 2 and the anchor body 3.

Such prior art expects the effect of planting the front wall through vegetation soil filled in the accommodating space of the concrete block, while constructing a solid front wall supported by the anchor.

However, the box-shaped concrete block according to the prior art has a problem that cannot be mass-produced due to the complicated structure of the box-type concrete block, which leads to an increase in the price of the block, thereby lowering economic efficiency.

In addition, since the construction of complex concrete blocks must be assembled and installed, and the work of joining the anchor rod and the concrete block, the anchor rod and the anchor body by welding is required, the construction is difficult and the air takes a long time. there is a problem.

In addition, as time passes after the construction of the structure is broken due to the corrosion of the junction of the concrete block and the anchor rod and the junction of the anchor rod and the anchor body, the anchor action is lost and as a result the stability of the structure is deteriorated have.

In particular, in the box-shaped concrete block according to the prior art, it is difficult for the small animal to freely travel to the upper and lower portions of the retaining wall because the upper and lower layers of the blocks to be stacked are blocked by the concrete surface. This results in the disconnection of the active area of the small animals inhabiting the retaining wall into the upper and lower parts, which leads to the problem of disturbing the food chain of the natural ecosystem, which has been a deteriorating natural ecological environment.

In addition, although the vegetation is induced through the soil part that is enclosed inside the box-shaped concrete block and exposed in a staircase shape, the space is narrow, so that the vegetation introduction rate is not very satisfactory, and the plant is maintained throughout the retaining wall. There is a problem that can not obtain a good aesthetic because the vegetation is made in the form of a thin line to the upper and lower tier by the blocking of the concrete blocks without evenly extending the stem of the.

Therefore, the present invention was devised to solve the problems of concrete blocks for greening retaining wall construction that allowed the growth of plants while preventing slope collapse of cut soils. The object of the present invention is to plant plants that penetrate back and forth in the center of the block. Through the hole, the groundwater generated from the ground behind the retaining wall is discharged naturally and at the same time, it induces plant growth through the soil filled in the planting hole, and the stem of the vine plant extends along the groove formed in the front part. By allowing small animals to move up and down the retaining walls, vines and cattle can create natural scenery that harmonizes with the surrounding natural environment as well as create a natural ecological environment. It is an object of the present invention to provide a retaining wall block having an animal moving passage.

Another object of the present invention is to allow the neighboring blocks to be stacked up, down, left and right through the socket joint structure, and to provide a structure that can be firmly and simply connected to the back-filled soil reinforcement such as anchor rod on the back of the block, It is to provide a retaining wall block having a vine plant and a small animal moving passage to further increase the structural stability and easy construction.

Figure 1a is a perspective view showing a conventional box-shaped concrete block

Figure 1b is a side cross-sectional view of the retaining wall constructed using the concrete block according to Figure 1a

Figure 2 is a front perspective view of the retaining wall block according to the present invention

Figure 3 is a rear perspective view of the retaining wall block according to the present invention

Figure 4 is a side cross-sectional view showing a state of stacking the block according to the present invention up and down

5 is a plan view showing a state in which the construction connecting the block according to the present invention from side to side

Figure 6 is a front view showing a construction example of building a retaining wall using a block according to the present invention

Figure 7 is a side view showing a construction example of building the retaining wall using a block according to the present invention

<Description of Symbols for Main Parts of Drawings>

10: block 11: the front groove 12: planting holes

13: Top protrusion 14: One side protrusion 15: Bottom socket groove

16: Other side socket groove 17: Side wall 18a, 18b, 18c: Each square cell

19: U ring 20: Fill 21: Reinforcement

Retaining wall block provided with a vine plant and a small animal moving passage of the present invention for achieving the above objects, it is used to prefabricate the retaining wall that can be inhabited by plants or small animals so that the backfill soil is partially exposed to the front of the retaining wall In the rectangular concrete block to be formed, the front groove is formed in the front of the block to form a crossway in the form of "XX" in a predetermined depth, and located at two points on the left and right intersecting the diagonal line of the XX-shaped passage A socket hole is formed in which a planting hole penetrates back and forth, and protrusions are formed on the top and one side of the block to serve as shear keys, and the protrusions are inserted on the bottom and the other side of the block when stacked up, down, left and right. The back portion of the block is formed with a quadrangular shape of a portion dug downward from the upper surface with the left and right subwalls in between. And that is formed by features on the technical configuration.

In addition, the present invention provides a technical configuration, characterized in that the U-ring for connecting the reinforcement is taken out to the outside while being fixed in the concrete body of the block on the left and right side walls.

Hereinafter, the technical configuration of the present invention will be described in detail with reference to the accompanying drawings of FIGS. 2 to 7 according to a preferred embodiment of the present invention.

2 to 5 is a view showing the configuration of the retaining wall block according to a preferred embodiment of the present invention, Figures 6 and 7 shows a front view and a side view showing a construction example of the construction of the retaining wall using the block according to the present invention. Doing.

As shown in these drawings, the retaining wall block according to the present invention is a rectangular concrete block that is used to prefabricate the retaining wall, which can be inhabited by plants or small animals, so that the backfill soil is partially exposed to the front surface of the retaining wall. The front grooves 11 are formed to form a passage intersecting in the form of "XX" and to be cut to a predetermined depth.

The front groove 11 is to provide a passage through which the stem of the vine plant extends or a small animal can move to the upper and lower portions of the retaining wall, and the cross section of the groove is preferably formed in an equilateral trapezoidal cross-sectional shape. When the blocks are stacked up, down, left and right, they are formed so that they can be continuously connected at the upper and lower ends of the center and the four corners over the entire retaining wall.

Planting holes 12 penetrating back and forth are formed at two points on the left and right of the XX-shaped passage that cross each other in a diagonal line. Such a planting hole 12 not only allows the groundwater generated in the ground of the retaining wall rear surface to be naturally discharged through the hole, but also serves to induce the growth of plants through the soil filled in the hole.

In carrying out the present invention, the planting hole 12 as described above is preferably formed as a truncated conical hole of a state that is expanded to a larger diameter from the rear side to the front side. That is, the planting hole 12 has a wide inlet in the front side to secure a place where the plant will be settled as wide as possible, and a narrow inlet on the back side to prevent the phenomenon of soil leakage to the front side by the groundwater discharged to the maximum. It is desirable to give.

On the top and one side of the block, protrusions 13 and 14 serving as shear keys are formed. In addition, socket grooves 15 and 16 are formed on the lower surface and the other side of the block so that the protrusions 13 and 14 are fitted when stacked up, down, left and right.

The configuration of the protrusions 13 and 14 and the socket grooves 15 and 16 as described above is such that when the blocks according to the present invention are stacked up, down, left and right, neighboring blocks are bound to each other in the form of interlocking with each other. To improve the resistance to earth pressure and to ensure the structural stability of the retaining wall structure.

The protrusions 13 and 14 and the socket grooves 15 and 16 have one side protrusion 14 and the socket grooves 15 and 16 having an equilateral trapezoidal cross-section like the front groove 11. It is preferable that the upper projection 13 is formed in a truncated cone.

The structure of the protrusions 13 and 14 and the socket grooves 15 and 16 is to increase the inlet of the groove and to reduce the head of the protrusion so that the fitting work can be smoothly performed during the lamination work. In the engaged state, it fits snugly, enabling a firm coupling force.

In the present invention, the left and right subwalls 17 are formed on the rear surface of the block, and the quadrilateral cells 18a, 18b, 18c having a portion dug downward from the upper surface with the subwalls 17 interposed therebetween are located at the center of one block. And two ends at each side. The subwalls 17 and the quadrilateral cells 18a, 18b, and 18c are designed to reduce the self-weight of the block and to move the center of gravity to the lower side, and between the rear surface of the stacked blocks and the cut soil layer surface. Soil is filled in the quadrilateral cells (18a) (18b) (18c) is generated to generate the earth pressure to press the block down, so that the self-weight and conduction resistance moment is increased to contribute to the structural stability.

The left and right subwalls 17 are formed in the concrete body of the block is formed U-shaped ring 19 for connecting the reinforcement to the outside.

This U-shaped ring 19 is used to connect the restraint 21 to form the fill section 20 to be constructed on the back of the block 10 according to the present invention as a reinforcement soil, as shown in Figure 7 used to restrain By doing so, a separate welding operation is unnecessary when connecting the reinforcing material 21, so that the work is convenient and a structure having a high corrosion resistance of the structural part connecting the block and the fill reinforcing material can be obtained. Of course, the reinforcement can be replaced with other types of reinforcement, such as geogrid, strip steel sheet, wire mesh, depending on the site conditions.

On the other hand, the block 10 according to the present invention is formed in a trapezoidal planar shape that becomes narrower from the front side to the back side when viewed in a plane as shown in FIG. As such, the front surface of the retaining wall can be formed to be bent or refracted by adjusting the connection angle of neighboring blocks when the block is installed through the clearance between the rear surface formed to have a smaller width than the front surface. This is to build a retaining wall of the terrain, which is curved or protruded with obtuse angles.

The retaining wall block provided with the vine plant and the small animal moving passage of the present invention as described above allows the groundwater generated in the ground of the retaining wall back to be naturally discharged through the planting hole penetrating back and forth through the center of the block. The soil is filled in the hole to induce the growth of the plant, and the vine plant can be extended along the groove formed in the front part, or small animals can be used as a passage for moving up and down the retaining wall. Not only can it create a natural landscape that is in harmony with it, but it can also create a natural ecological environment as advantageous as possible.

In addition, the present invention allows the neighboring blocks to be stacked up, down, left and right through the socket joint structure, so that the construction is easy and the top and bottom left and right are firmly interlocked by the interlocking type to cope with the earth pressure or the hydraulic pressure of the back stably. It is possible to provide a retaining wall structure that can be.

In addition, since a protrusion through the planting hole is naturally formed on the front side of the block, the construction can reduce the flow rate when installed on the riverside, thereby providing a structure capable of reducing secondary damage of the downstream layer.

In addition, by providing a structure that can be firmly and simply connect the back-filled soil reinforcement such as anchor rod on the back of the block, it is easy to construct a reinforced earth retaining wall structure, and further increase the structural stability, anchor anchors on the back As a result, the steep retaining wall as well as the vertical retaining wall can be constructed.

Therefore, according to the retaining wall block of the present invention as described above, it is possible not only to construct an environmentally friendly retaining wall, which is advantageous to the ecological environment of vine plants and small animals, but also to have a high landscaping effect, and to obtain a structurally stable retaining wall structure. It is a very useful design with the effect of being excellent and versatile.

Claims (5)

In the rectangular concrete block used to prefabricate the retaining wall, which can be inhabited by plants or small animals, with the backfill soil partially exposed to the front of the retaining wall, The front groove 11 is formed in the front of the block to form a passageway intersecting in the shape of "XX" shape, and the planting penetrates back and forth while located at two points on the left and right of the XX-shaped passageway intersecting by diagonal lines. Holes 12 are formed, and protrusions 13 and 14 are formed on the top and one side of the block to serve as shear keys, and the protrusions are formed on the bottom and the other side of the block when stacked up, down, left and right. The socket grooves 15 and 16 are formed to allow the 14 and 14 to be fitted into each other, and a quadrilateral cell 18a is formed by digging a portion downward from the upper surface with the left and right subwalls 17 disposed on the rear surface of the block. Retaining wall block provided with a vine plant and a small animal moving passage, characterized in that (18b) (18c) is formed. The retaining wall block of claim 1, wherein the planting hole (12) is formed of a truncated cone-shaped hole that is enlarged to a larger diameter from the rear side to the front side. According to claim 1, wherein the front groove 11, one side projection 14 and the socket groove 15, 16 are formed in a trapezoidal cross-sectional shape, the top projection 13 is formed of a truncated cone Retaining wall block is provided with a vine plant and a small animal moving passage. The vine plant and the small animal moving passage is provided in the claim 1, characterized in that the left and right subwalls (17) are formed in the concrete body of the block to form a U-shaped ring (19) for connecting the reinforcement to the outside. Retaining wall block. The retaining wall block of claim 1, wherein the block is formed in a trapezoidal planar shape, the width of which decreases from the front to the rear when viewed in plan.