KR200389250Y1 - Slope-Protect Weight Block for Prevent Degradation - Google Patents

Abstract

 In the present invention, there is provided a slope protection weight block body for preventing collapse that has a three-dimensional binding force can be quickly installed along the slope to improve the binding force of the slope.

The present invention for this purpose is to provide a three-dimensional rectangular concrete block body 10 is divided into a plurality of wall layers for pressing it with respect to the inclined surface, the concrete block body 10 is coupled to the inclined surface 12 The inclined coupling protrusion 14 is formed in the lower portion of the block body 10, and the inclined coupling groove 16 is formed in a plurality so that the inclined coupling protrusion is adopted along the inclined surface, and the concrete block body 10 is formed thereon. The left and right binding protrusions 18 are formed on one side and the left and right binding grooves 20 are formed on one side thereof so that left and right coupling corresponding to the tensile force is performed on both sides of the side). In the groove 20, the front and rear binding protrusions 22 and the front and rear binding grooves 24 are formed such that the front and rear coupling of the concrete block body 10 adjacent to the side is performed.

In addition, the concrete block body 10 has a vegetation groove 28 is filled with the soil for the composition of the green vegetation is formed in the exposed area of the upper portion of the front of the inclined coupling groove, the vegetation groove 28 is a concrete block body 10 It is characterized in that connected to the drain pipe (30).

Description

Slope-Protect Weight Block for Prevent Degradation

The present invention relates to a slope protection weight block body for preventing collapse, and more particularly, to a slope protection weight block body for preventing collapse that has a three-dimensional binding force and improves the binding force of the slope while enabling rapid construction along the slope.

In general, slope reinforcement or protection is performed as a stabilization method to suppress the collapse and sliding of slopes, and is divided into various types such as activity reduction method, resistance increase method, and surface protection method according to the purpose of construction. Reinforcement method (safety factor enhancement method) is a typical example, such as rock bolt, earth anchor, nail, stepped retaining wall.

It is inevitable to develop slopes such as mountain roads such as foundation roads and complexes as the industry develops. Currently, the sliding reality of slopes is constantly occurring regardless of time and place. Because it is working.

However, these slope reinforcement methods are provided to provide a peripheral boundary for securing the area or road plan or foundation ground area where the surface is expected to collapse, and cannot provide a structure for urgent recovery of the collapsed area. have.

In other words, this is because there are numerous slopes besides the incision site due to the topography of Korea, and the slope reinforcement work cannot be performed for all these slopes, and the above-described methods do not provide rapid construction for urgent restoration. In the rainy season, gentle slopes and naturally-formed slopes often collapse, but it is difficult to take prompt action.

For this reason, the present invention has a technical field in a legal restraint structure that is applied in a law requiring urgent repair or prevention, and more specifically, to provide a restraint layer on the law in a prefabricated manner for urgent construction. There is a block retaining wall structure.

The block retaining wall structure through the assembly may include a gabion retaining wall and a step retaining wall or a reinforcement earth retaining wall. As described above, the retaining wall structure is a resistive augmentation method. It does not provide.

For example, Gabion retaining wall is intended to be used as a block retaining wall structure by filling a three-dimensional wire mesh structure with stone, and it has eco-friendly elements by using natural materials such as gravel, and it is a gravity retaining wall structure for slopes. To provide.

However, when there is a shortage of stone such as gravel in the construction environment, there is a problem in that it is inconvenient to procure it and the construction of the retaining wall structure is inconvenient, and the process of filling the stone into the wire mesh is not suitable for an urgent recovery environment. It is suitable for retaining wall of planned construction rather than retaining wall.

On the other hand, as a retaining wall using a concrete block, a stepped retaining wall or a reinforced earth retaining wall is known, for example, in a prefabricated retaining wall AL block (application number 20-1999-0026228) or a prefabricated block for reinforcing nose retaining wall construction (application number 10-1998-0017269). It is.

However, this means that the concrete block acts as a finishing material or restraint on the surface of the inclined surface, restrains the strand of steel as a tension member through the anchor to the ground, and then fills the space between them with concrete or the like to form the retaining wall. Even if concrete blocks are used, the construction of strands and anchors or the curing of concrete are not suitable for urgent recovery.

Another use of the concrete block itself is a prefabricated block for retaining wall (Application No. 10-2002-0081674), which is a prefabricated block as a wall structure, not a retaining wall as a reinforcement against a collapsed slope.

This allows the construction of a boundary wall, retaining wall, or shaft in a prefabricated manner, with a block body (1) laminated and assembled to form a retaining wall, the engaging projection (2) is formed on one side of the block body, the other side is coupled Grooves (3) are formed to be assembled in the horizontal direction by the adjacent and abutting both sides, the assembly grooves (4) on the upper and lower ends of both sides of the block body (1) to be stacked vertically through the connecting pin (5). .

However, this does not provide a structure corresponding to the surface of the surface in order to cope with the collapse of the surface, it is merely a structure that is squeezed into a horizontal and vertical puzzle type by concrete block in the construction of the wall.

Moreover, in order to increase the resistance by restraining it in response to the law surface, the blocks must be three-dimensionally coupled to each other to distribute the load, but the retaining wall prefabricated block does not provide this.

That is, one block as a unit and the neighboring blocks are intertwined in all three directions before and after, up, down, left and right. In the vertical stacking structure, the coupling is merely a coupling between the up and down gravity coupling and the front and rear.

In addition, there is no means for restraining the tension that stretches to the left and right, and only secures the coupling in the vertical stacking.

Accordingly, the prefabricated block for the retaining wall is difficult to be applied to the retaining wall as a vertical wall but to be applied as a structure for restraining the entire surface of the normal surface with respect to the normal surface.

On the other hand, as a surface protection method (safety maintenance method), a method of confining the surface of the surface with a rockfall prevention net or a corenet, and a method of confining the surface by using a plant with a greening method or spraying grout liquid or lattice type on the surface There is a confinement using the concrete block of the, there is also a problem that is not suitable for the urgent construction and continuity of stability after construction.

The present invention has been devised to improve the above problems, it provides a prefabricated structure to provide the construction of the fast weight of the slope, while providing a three-dimensional binding force to provide an anti-collapsing slope protection weight block to improve the binding force of the slope. The purpose is to.

The present invention for this purpose is to provide a concrete block to be tangled with each other in the three-dimensional direction of up, down, left, right, front and rear, by adopting a method of assembling following the inclined surface to constrain the inclined surface as a concrete block quickly as a prefabricated.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the most preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily implement the present invention. . Other objects, features, and operational advantages, including the purpose, working effects, and the like of the present invention will become more apparent from the description of the preferred embodiment.

For reference, the embodiments disclosed herein are only presented by selecting the most preferred examples to help those skilled in the art among various possible examples, and the technical spirit of the present invention is not necessarily limited or limited only by the embodiments. Various changes and modifications are possible within the scope without departing from the technical spirit of the present invention, as well as other embodiments that are equally clear.

Figure 2 is a four-story facility showing the slope protection weight block body according to the present invention, Figure 3 is a four-story facility showing the assembly of the slope protection weight block body according to the present invention, Figure 4 is a slope protection according to the present invention It is a side conceptual view which shows the construction state of a heavy block body.

And, Figure 5 is a facility name map showing the intermediate block between the weight block body applied to the curved surface, Figure 6 is a facility name map showing that the vegetation groove is formed as another embodiment of the slope protection weight block body according to the present invention , Figure 7 is a private facility showing the assembly of a weight block body is formed vegetation grooves in another embodiment, Figure 8 is a side conceptual view showing the construction state of the weight block body is formed with vegetation grooves in another embodiment.

The present invention is divided into a plurality of wall layers for pressing the weight with respect to the inclined surface is provided with a three-dimensional rectangular concrete block body 10, the concrete block body 10 is coupled to the concrete block body according to the inclined surface (12). An inclined coupling protrusion 14 is formed in the lower portion of the 10, and an inclined coupling groove 16 is formed in a plurality so that the inclined coupling protrusion is adopted along the inclined surface on the upper side of the concrete block body 10. The left and right binding protrusions 18 are formed on one side and the left and right binding grooves 20 are formed on the other side so that the left and right coupling corresponding to the tensile force is performed on both sides, and the left and right binding protrusions 18 and the left and right binding grooves ( 20 is a collapse protection slope block weight block body formed with the front and rear binding projections 22 and the front and rear binding grooves 24 to perform the front and rear coupling of the concrete block body 10 adjacent to the side.

Here, the left and right binding projections 18 are bent downward to protrude to the side of the concrete block body to be coupled while the concrete block body 10 is disposed in the up and down direction, the lower end of the upper end is coupled to guide the coupling It is formed in a tapered shape of the optical river narrow, the left and right binding groove 20 is characterized in that the shape is engaged with the left and right binding projections (18).

In addition, the concrete block body 10 has a vegetation groove 28 is filled with the soil for the composition of the green vegetation in the exposed area of the upper portion of the front of the inclined coupling groove, the vegetation groove 28 is a concrete block body 10 It is characterized in that connected to the drain pipe (30).

As described above, the present invention presses the surface by using a weight to prevent the collapse of the surface, while the construction is quick and easy to prevent the collapse of the emergency prevention or emergency recovery in the collapsed area where the collapse is expected A protective weight block body is provided.

The present invention for this purpose is to provide a concrete block to which the weight body is mounted to surround the law surface to restrain the law surface, the weight body is divided into a plurality of prefabricated for the construction of the weight body.

In addition, in the combination of the concrete block, it is to follow the inclined surface to be assembled to provide a quick construction along the inclined surface, and to provide a three-dimensional solidarity before and after the left and right to restrain the legal surface.

Therefore, the present invention will be referred to as a combination of resistance enhancement method, active force reduction method and surface protection method.

It responds to earth pressure that is about to collapse using gravity bodies (enhanced resistance), and supports and disperses concrete blocks (reduces active force) in the natural slope area where collapse is concerned (reduces active force), This is because barriers (surface protection) are formed against climate exposure, preventing natural decay.

When explaining the weight block body of the present invention in more detail, first of the present invention is a unit of three-dimensional rectangular concrete block body 10 is provided as a unit that is divided into a plurality of weights surrounding the collapsed area or the expected collapsed area is combined. .

In order to provide a three-dimensional coupling to the concrete block body 10, a binding means is provided in each direction, and the inclined coupling protrusion 14 and the inclined coupling groove 16 are stacked in the vertical direction and the lamination along the inclined surface of the normal surface. ) Is formed in the vertical direction of the concrete block body (10).

In detail, the inclined coupling protrusion 14 is formed to protrude to the chin across the left and right to the lower portion of the concrete block body 10, the inclined coupling groove 16 is formed across the upper left and right to be coupled thereto, In order to follow the inclination of the normal surface, many are repeatedly formed.

The inclined coupling protrusions 14 and the inclined coupling grooves 16 formed to cross the left and right of the concrete block body 10 retain the inclined stacks of the concrete block body, while the upper and lower coupling portions of the concrete block body 10 are retained. Corresponds to the torsion, and corresponds to the earth pressure to push the concrete block body 10 forward.

Therefore, in the coupling of the concrete block body 10, as the upper and lower lines, the inclined coupling protrusion 14 and the inclined coupling groove 16 is coupled along the inclined surface while the whole to correspond to the torsion and earth pressure in front of the coupling do.

Next, the two upper and lower binding protrusions and the front and rear binding protrusions are in charge of each other on both sides based on one single upper and lower bounds.

The left and right binding protrusions are performed by the left and right binding protrusions 18 and the left and right binding grooves 20, and the left and right binding protrusions are coupled while being placed up and down in the left and right arrangement of the concrete block body 10, the shape of which protrudes laterally. It takes the shape bent downward, and the left and right binding grooves have a shape to mesh with it.

In addition, since the concrete block body 10 of the present invention takes a considerable weight, the lower left and right binding protrusions 18 take a tapered shape and induce left and right binding grooves 20 to induce coupling to the right position during left and right coupling. It also forms a tapered groove coupled thereto.

The left and right binding protrusions 18 and the left and right binding grooves 20 are formed to have directions to both sides of the concrete block body, and the concrete block body corresponds to the tension force to open the left and right couplings by the left and right binding protrusions and the left and right binding grooves. .

Therefore, in addition to one line corresponding to the front force and the torsion by the inclined coupling protrusion, the line extending to both sides is coupled to the concrete block body on the region corresponding to the left and right tension force.

Further, the upper and lower sides of the upper and lower sides of the upper and lower sides of the upper and lower stretches corresponding to the tension force, and has a binding back and forth.

This is performed by the front and rear binding protrusions 22, and the front and rear binding protrusions are formed by repeating protrusions protruding in the longitudinal direction of the left and right binding protrusions, and the front and rear binding grooves 24 are grooves engaged with the front and rear binding protrusions in the left and right binding grooves. It is formed as.

In addition, in the expansion to the left and right, it is not possible to ensure that the concrete block body is mounted while maintaining one plane, it is necessary to perform the left and right binding while corresponding to the left and right curved surfaces.

Accordingly, the binding along the left and right curved surface is provided with an intermediate block corresponding to the curved surface in a planar arc shape, the intermediate block 32, the left and right binding projections 18 and the left and right binding grooves 20 and the front and rear binding projections on both sides thereof. (22) and the front and rear binding grooves 24 are formed.

In addition, the side end portion of the area constructed as the groove portion by the left and right binding portion or the front and rear binding portion is exposed, so it is necessary to close it.

Therefore, both ends of the area in which the concrete block body 10 is combined, characterized in that the closing panel 34 for closing the groove portion is installed.

 As a result, the concrete block body 10 of the present invention is combined with the other concrete block body, one unit of which is adjacent to it in the up, down, left, right, back and forth direction, this combination is to collapse the expected collapse zone or the collapse zone according to the curved surface It will be covered.

In applying the present invention to the inclined surface, the construction of the drainage, etc. is the same as the conventional, forming a drainage pipe 30 in a portion of the concrete block body 10 to be laminated is natural to correspond to the earth pressure, for example When the concrete block body of the present invention is about 1m × 1m × 1m, it is preferable to secure the drain pipe 30 every 5m in the vertical direction and the left and right directions.

In addition, in the lamination of the concrete block body, when the back filling method is adopted, non-woven fabric mounting on the back, or filling of stones such as gravel may be applied, which is also a general matter.

However, in the back filling, it can be cured by filling with concrete, in which case it is necessary to induce drainage to the front of the concrete block body using a separate drain pipe.

As the present invention is applied, the concrete block layer, which is a heavy body, restrains the surface to increase the resistance of the inclined surface, and each concrete block is entangled to reduce the active force of the surface. When the concrete block of the present invention is replaced with the present invention, the present invention can be sufficiently applied in an area where hard soil is hard to apply, while preventing the erosion due to weather by blocking the surface of the surface from the outside.

On the other hand, as a further developed application of the present invention, it is possible to protect the nature-friendly slope by using the present invention, which can camouflage the concrete block body using the concrete block body as a flower pot.

It is a vegetation groove 28 is filled with the soil for the composition of the green vegetation in the exposed area of the upper portion of the concrete block body 10, the front of the inclined coupling groove, which is connected to the drain pipe 30 of the concrete block body It is done.

The drain pipe 30 serves to supply water to the vegetation grooves 28, and the water is entirely supplied by the earth and sand filled along the vegetation grooves connected to the left and right.

In the vegetation groove 28, for example, vines or other shrubs are planted to camouflage the outer surface of the concrete block body, and such vegetation is to escape the simple concrete block, harmonize with the surrounding environment, and play a role of improving the aesthetics. Will be.

As described above, according to the present invention, the concrete block body has one unit coupled to another concrete block body adjacent to it in up, down, left and right directions, and according to the combination, the expected collapse zone or collapse zone has a weight according to the curved surface. By being covered as a sieve, there is an effect that the slope is stabilized by rapid construction.

In addition, vegetation grooves are formed in the concrete block body, drainage pipes are induced to drain the vegetation grooves to prevent the collapse of the slope to the vegetation grooves to grow the plants planted there, the surrounding natural environment and structure The law is harmonious and aesthetically beautiful.

Figure 1 is a prefabricated weight block, an external view showing a conventional weight block body,

Figure 2 is a facility name showing the slope protection weight block body according to the present invention,

Figure 3 is a facility name showing the assembly assembled slope protection weight block body according to the present invention,

4 is a side conceptual view showing a construction state of the slope protection weight block body according to the present invention,

Figure 5 is a facility name showing the intermediate block between the weight block body applied to the curved surface,

Figure 6 is a facility name showing that the vegetation groove is formed as another embodiment of the slope protection weight block body according to the present invention,

7 is a facility name showing the assembly of a weight block body is formed vegetation grooves as another embodiment,

8 is a side conceptual view showing a construction state of a weight block body in which vegetation grooves are formed as another embodiment.

-Explanation of symbols for the main parts of the drawings-

10-block body, 12-slope,

14-inclined coupling protrusion, 16-inclined coupling groove,

18-left and right binding protrusions, 20-left and right binding grooves,

22-front and rear binding protrusions, 24-Tension binding groove,

28-Vegetation Groove, 30-Drainage,

32-intermediate block, 34-finishing panel,

Claims (5)

 The concrete block body 10 of the three-dimensional rectangular shape is provided by separating a plurality of wall layers that press it against the inclined surface, and the concrete block body 10 is coupled to the inclined surface 12 according to the concrete block body 10. The inclined coupling protrusion 14 is formed at the bottom of the inclined coupling groove 16 is formed in a plurality so that the inclined coupling projection is adopted along the inclined surface on the upper side of the concrete block body 10 The left and right binding protrusions 18 are formed on one side and the left and right binding grooves 20 are formed on the other side, and the left and right binding protrusions 18 and the left and right binding grooves 20 are formed on one side to perform the left and right coupling corresponding to the tensile force. Side-by-side binding projection 22 and the front and rear binding grooves 24 are formed to prevent the front and rear coupling of the concrete block body 10 adjacent to the side collapse preventing weight block body formed. According to claim 1, the left and right binding projections 18 are bent downward to protrude to the side of the concrete block body to be coupled while the concrete block body 10 is disposed in the up and down direction, the lower end is coupled to the upper and lower coupling It is formed in the tapered shape of the ordinary light lower narrow, and the left and right binding grooves 20, the anti-collapsing slope protection weight block body, characterized in that the engaging shape with the left and right binding projections (18). The concrete block body 10 is a vegetation groove 28 is filled with the soil for the composition of the green vegetation is formed in the exposed area of the upper portion of the front of the inclined coupling groove, the vegetation groove 28 is a concrete block Collapse prevention slope protection weight block body, characterized in that connected to the drain pipe 30 of the main body (10). According to claim 1, wherein when the concrete block body 10 has a left and right curved surface at its adjacent boundary, the resulting binding is provided with an intermediate block 32 corresponding to the curved surface in a planar arc shape, the intermediate block ( 32) Slope protection weight block for preventing collapse, characterized in that the left and right binding projections 18 and the left and right binding grooves 20 and the front and rear binding projections 22 and the front and rear binding grooves 24 are formed on both sides thereof. The method according to claim 1, wherein the concrete block body (10) on the opposite side boundary of the assembled area, the closing panel 34 for preventing collapse of the slope, characterized in that the closing panel 34 is installed.