KR102564283B1 - Structure of retaining wall block without geogrid parts - Google Patents

Abstract

The present invention relates to a retaining wall block structure having a configuration excluding a geogrid, and specifically, having the shape of a polyhedron made of a synthetic resin material, but forming a cavity inside, by injecting a predetermined material into the cavity Retaining wall blocks to withstand loads related to earth pressure; And, while having the shape of a polyhedron made of synthetic resin material, a cavity is formed inside, so that a predetermined material is injected into the cavity to withstand the load related to earth pressure, but installed between two or more retaining wall blocks, A connection block that functions to expand and connect two or more retaining wall blocks; but, the retaining wall block is constructed in horizontal and vertical directions with respect to the ground on which the retaining wall block structure is installed by combining one or more retaining wall blocks and one or more connection blocks , Retaining wall block structure for the front wall to form the front wall; By combining one or more retaining wall blocks and one or more connecting blocks, the retaining wall block structure for the front wall is supported, but the retaining wall block is embedded on the ground, and the shape of the horizontal cross section with respect to the ground on which the retaining wall block structure for the front wall is installed is the head It is characterized in that it includes; a retaining wall block structure for reinforcement to have a T-shaped coupling structure composed of a portion and a body portion.

Description

Retaining wall block structure with geogrid excluded configuration {STRUCTURE OF RETAINING WALL BLOCK WITHOUT GEOGRID PARTS}

The present invention relates to a retaining wall block structure having a configuration excluding a geogrid, and specifically, even if a geogrid member, which is a reinforcing material used to fix the initial installation form of a retaining wall structure, is excluded, a reinforcing retaining wall block having a T-shaped coupling structure It relates to a retaining wall block structure that allows the retaining wall blocks constituting the front wall to reinforce the force resisting earth pressure by embedding it on the stratum and connecting it to the front wall, thereby maintaining the initial installation shape intact.

In general, an inclined surface is often provided on the outside of a building complex or on a variable road, and a retaining wall is installed to support the inclined surface to prevent soil from flowing into the building complex and the road from the inclined surface.

Such a retaining wall means a wall structure for preventing the collapse of soil by resisting the earth pressure of a slope, and is provided as a structure having a certain height by stacking several layers of retaining wall blocks made of stone or concrete.

As in Korean Patent Publication No. 10-2019-0000257, the retaining wall block structure is constructed at a certain distance from the cut slope in constructing the retaining wall block structure on the cut slope, and then the backfill aggregate is filled between the retaining wall blocks It is common to have a construction method in which a geogrid is installed between each layer of a wall and a fixing device is used to secure the stability of the retaining wall by fixing the geogrid to the cut slope.

However, in the case of a retaining wall block structure that includes a geogrid, it is necessary to compact the entire surface of the ground during the installation and construction of the geogrid, and to finish the construction surface of the next layer by compacting the equipment so that the compaction equipment does not directly ride on the geogrid at the same time as the backfill material is brought in. There was a limitation that it was difficult to expect improvement in the reinforcement function of the retaining wall block structure by the geogrid if the precautions such as the above were not observed.

Accordingly, the present invention embeds a reinforcing retaining wall block having a T-shaped coupling structure on the stratum and connects the front wall to the front wall, even if the geogrid member, which is a reinforcing material to fix the initial installation form of the plurality of retaining wall blocks, is excluded. Its purpose is to provide a retaining wall block structure that allows the constituting retaining wall blocks to reinforce the force resisting earth pressure so that the initial installation form can be maintained intact.

In order to achieve the above object, the retaining wall block structure having a configuration excluding the geogrid according to an embodiment of the present invention has the shape of a polyhedron made of a synthetic resin material, but a cavity is formed therein, A retaining wall block for enduring a load related to earth pressure by injecting a predetermined material into the cavity; And, while having the shape of a polyhedron made of synthetic resin material, a cavity is formed inside, so that a predetermined material is injected into the cavity to withstand the load related to earth pressure, but installed between two or more retaining wall blocks, A connection block that functions to expand and connect two or more retaining wall blocks; but, the retaining wall block is constructed in horizontal and vertical directions with respect to the ground on which the retaining wall block structure is installed by combining one or more retaining wall blocks and one or more connection blocks , Retaining wall block structure for the front wall to form the front wall; By combining one or more retaining wall blocks and one or more connecting blocks, the retaining wall block structure for the front wall is supported, but the retaining wall block is embedded on the ground, and the shape of the horizontal cross section with respect to the ground on which the retaining wall block structure for the front wall is installed is the head It is characterized in that it includes; a retaining wall block structure for reinforcement to have a T-shaped coupling structure composed of a portion and a body portion.

At this time, in the above-described retaining wall block, one or more connecting arms protrude and extend on the first side, and the connecting arm has a tapered shape so that the cross section gradually widens as it goes toward the protruding end, and the second opposite to the first side It is preferable that connection grooves corresponding to the shape and number of connection arms are formed in a concave shape on the side portion.

In addition, it is preferable that the above-described retaining wall block exerts frictional resistance against the slope by forming an embossed concave-convex surface in one region of the other side excluding the first side and the second side.

In addition, in the above-described connection block, one or more connection arms protrude and extend from the first side and the second side of one surface connected to the first side, and the area of the cross section of the connection arm gradually widens toward the protruding end. It is preferable that connection grooves corresponding to the shape and number of connection arms are formed in a concave shape on the third side and the fourth side opposite to the first side and the second side.

In addition, the above-described retaining wall block and connection block chamfer each corner region constituting a polyhedron so that a chamfered slope is formed, and when two or more retaining wall blocks are coupled, and when at least one retaining wall block and a connection block are coupled, It is preferable to make the pre-formed chamfered inclined surfaces contact each other so as to function as a first drainage hole through which drainage treatment for the inclined surface is performed.

In addition, in the above-described retaining wall block structure for the front wall, an arcuate recessed groove drawn into the upper part is formed in one area of the lower part, so that the recessed groove functions as a second drain hole for draining the slope. It is preferable .

In addition, in the above-described reinforcing retaining wall block structure, a head portion is formed by combining two or more retaining wall blocks, and a connection block is fitted in an area between two or more retaining wall blocks, and the connection block is fitted. One or more retaining walls starting from the area where the connection block is fitted It is preferable to have a T-shaped coupling structure by combining the blocks in a direction opposite to the head portion so that the body portion is formed.

In addition, in the above-described retaining wall block structure for the front wall, a plurality of retaining wall blocks are continuously horizontally coupled, but the connecting blocks are fitted and coupled at predetermined intervals to form a unit layer, and the plurality of unit layers correspond to the height of the slope It is built to a height to form a retaining wall block structure for the front wall, and the reinforcing retaining wall block is mutually coupled between the end of the body part and the connection block included in the unit layer of the retaining wall block structure for the front wall, and then T-shaped It is preferable to provide reinforcing force to the retaining wall block structure for the front wall by burying the whole block structure for reinforcing block having a coupling structure in the ground.

In addition, in the above-described retaining wall block structure for the front wall, a plurality of reinforcing retaining wall block structures buried in the ground corresponding to a plurality of unit layers are disposed at different positions by changing the position where the connection block is fitted for each unit layer. It is desirable to make

In addition, one or more materials of water, soil, cement, and synthetic resin including at least one of polyurethane, polystyrene, and polyethylene are injected into the cavity formed inside the above-described retaining wall block and the connection block, and the material injected into the cavity In the case of this synthetic resin, it is preferable to inject the molten synthetic resin into the cavity and then cure it by a curing means before using it.

According to one embodiment of the present invention, in the present invention, even if the geogrid member, which is a reinforcing material used to fix the initial installation form of the retaining wall structure, is excluded, a reinforcing retaining wall block having a T-shaped coupling structure is buried on the ground layer to form a front wall By connecting with, there is an effect of providing a retaining wall block structure capable of maintaining the initial installation form intact by reinforcing the bearing capacity against earth pressure by the retaining wall blocks constituting the front wall.

Accordingly, in the present invention, by simply assembling and installing a plurality of retaining wall block structures on a slope made of soil and the like to form a retaining wall structure, the risk of an accident from collapsing on the slope is prevented, and also to the characteristic shape of the retaining wall block and the connection block Accordingly, it is possible to form a retaining wall block structure having a smooth drainage function by providing a drainage hole for rainwater included in the slope in case of rain only by constructing one or more retaining wall blocks and connection blocks.

In addition, according to an embodiment of the present invention, when the retaining wall block and the connection block are transported to the construction site of the retaining wall block structure, the internal cavity is transported in an unfilled state, thereby reducing transport costs. , while forming a retaining wall block structure at the construction site, by injecting a predetermined material into the internal cavity, there is an effect of providing proof force to withstand the earth pressure of the slope.

In addition, according to an embodiment of the present invention, in the present invention, the retaining wall structure can be used in various ways according to the type of material injected into the internal cavity of the retaining wall block and the connection block. For example, when water and soil are injected, the hypothesis It is used as a retaining wall, and when cement and synthetic resin are injected, it can be used as a permanent retaining wall or an insulated retaining wall, so that its utilization is high.

1 is an example showing the shape of a retaining wall block according to an embodiment of the present invention.
Figure 2 is an example showing the shape of a connection block according to an embodiment of the present invention.
3 is an example of forming a retaining wall block structure for a front wall by combining a retaining wall block and a connection block according to an embodiment of the present invention.
4 is an example of forming a retaining wall by constructing a plurality of retaining wall block structures for a front wall according to an embodiment of the present invention.
5 is an example of forming a retaining wall block structure for reinforcement by combining a retaining wall block and a connection block according to an embodiment of the present invention.
6 is an example of combining a retaining wall block structure for a front wall and a retaining wall block structure for reinforcement according to an embodiment of the present invention.
7 is an example showing a shape in which a retaining wall block structure having a configuration excluding a geogrid is installed on a slope according to an embodiment of the present invention.
8 is an example of drainage holes formed in a retaining wall block structure having a configuration excluding a geogrid according to an embodiment of the present invention.

In the following, various embodiments and/or aspects are disclosed with reference now to the drawings. In the following description, for purposes of explanation, numerous specific details are set forth in order to facilitate a general understanding of one or more aspects. However, it will also be appreciated by those skilled in the art that such aspect(s) may be practiced without these specific details. The following description and accompanying drawings describe in detail certain illustrative aspects of one or more aspects. However, these aspects are exemplary and some of the various methods in principle of the various aspects may be used, and the described descriptions are intended to include all such aspects and their equivalents.

References to “embodiment,” “example,” “aspect,” “example,” etc., used in this specification should not be construed as indicating that any aspect or design described is preferable to or advantageous over other aspects or designs. .

Also, the terms "comprises" and/or "comprising" mean that the feature and/or element is present, but excludes the presence or addition of one or more other features, elements and/or groups thereof. It should be understood that it does not.

In addition, terms including ordinal numbers such as first and second may be used to describe various components, but the components are not limited by the terms. These terms are only used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention. The terms and/or include any combination of a plurality of related recited items or any of a plurality of related recited items.

In addition, in the embodiments of the present invention, unless otherwise defined, all terms used herein, including technical or scientific terms, are those commonly understood by those of ordinary skill in the art to which the present invention belongs. have the same meaning. Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the embodiments of the present invention, an ideal or excessively formal meaning not be interpreted as

The present invention relates to a retaining wall block structure having a configuration excluding a geogrid, and specifically, even if a geogrid member, which is a reinforcing material used to fix the initial installation form of a retaining wall structure, is excluded, a reinforcing retaining wall block having a T-shaped coupling structure It is an object of the present invention to provide a retaining wall block structure that allows the retaining wall blocks constituting the front wall to reinforce the force resisting the earth pressure by embedding it on the stratum and connecting it to the front wall, thereby maintaining the initial installation shape intact.

Hereinafter, as a description of the present invention for achieving the above object, a more detailed description will be given with reference to the accompanying drawings, and a plurality of drawings are simultaneously used to describe one technical feature and components constituting the invention. can be referenced.

Briefly describing the accompanying drawings, FIG. 1 shows an example showing the shape of a retaining wall block according to an embodiment of the present invention, and FIG. 2 shows the shape of a connection block according to an embodiment of the present invention. An example is shown. 3 shows an example of forming a retaining wall block structure for a front wall by combining a retaining wall block and a connection block according to an embodiment of the present invention, and FIG. 4 shows a plurality of retaining walls for a front wall according to an embodiment of the present invention. An example in which a block structure is built to form a retaining wall is shown. 5 shows an example of forming a retaining wall block structure for reinforcement by combining a retaining wall block and a connection block according to an embodiment of the present invention, and FIG. 6 shows a retaining wall block structure for a front wall according to an embodiment of the present invention. An example of combining a retaining wall block structure for reinforcement with a structure is shown. In addition, FIG. 7 shows an example of a shape in which a retaining wall block structure having a configuration without a geogrid according to an embodiment of the present invention is installed on a slope, and FIG. 8 shows an example without a geogrid according to an embodiment of the present invention. An example of drainage holes formed in a retaining wall block structure having a configuration is shown.

The retaining wall block structure having a configuration excluding the geogrid of the present invention has the shape of a polyhedron mainly made of a synthetic resin material, but a cavity is formed inside, so that a load related to earth pressure is reduced by injecting a predetermined material into the above-described cavity A retaining wall block 10 is included to withstand it.

As an embodiment, the synthetic resin material used in the manufacture of the above-described retaining wall block 10 is made of a material containing at least one of polyethylene and polypropylene, so that durability as a retaining wall is provided, and the retaining wall block It is preferable to apply various colors to the retaining wall block 10 by reducing the weight of (10) and increasing the autonomy of pigment addition, and the shape may have a hexahedral shape as a whole.

In addition, forming the internal cavity in the retaining wall block 10 in the present invention is to increase the convenience of transporting the retaining wall block 10 to the site where the retaining wall block structure is constructed. The weight of the retaining wall block 10 itself is lightened by preventing material from being injected, but after transporting to the construction site of the retaining wall block structure, the internal cavity of the retaining wall block 10 is filled with water, soil, cement (concrete) and By injecting a material containing at least one of synthetic resins including at least one of polyurethane, polystyrene, and polyethylene, the retaining wall block 10 is equipped with resistance to earth pressure, and at the same time, the injected material Depending on the type, the use of the retaining wall block structure can be different.

As an embodiment, when water or soil is injected into the internal cavity formed in the retaining wall block 10 of the present invention, in the present invention, the retaining wall block structure is utilized as a temporary structure, so that later in the internal cavity of the retaining wall block 10 It can be recycled by removing the injected water and soil. As another embodiment, when cement or synthetic resin is injected into the internal cavity formed in the retaining wall block 10, it functions as a permanent retaining wall or a retaining wall with insulation function that can be done

Specifically, the cavity may have an open upper surface so that a preset material injection path may be guided, and one cavity may be formed in one retaining wall block 10, but two or more cavities are formed by independently partitioning the space It could be.

Meanwhile, at this time, when the synthetic resin is injected into the inner cavity of the retaining wall block 10 described above, in the present invention, after injecting the molten synthetic resin into the inner cavity of the retaining wall block 10, curing by a curing means, It would be desirable to use it and the present invention is not limited thereto.

Continuing a more specific description of the shape of the retaining wall block 10 described above with simultaneous reference to FIG. 1, the retaining wall block 10 referred to in the present invention has one or more connecting arms 11 protruding and extending on the first side. , The connecting arm 11 may have a tapered shape such that the area of its horizontal cross section with respect to the ground gradually widens toward the protruding end, and the second side facing the first side (ie, the side opposite the first side) Connection grooves 12 corresponding to the shape and number of connection arms 11 may be formed in a concave shape on the side.

On the other hand, when two or more retaining wall blocks are coupled to each other, the connecting arm 11 and the connecting groove 12 allow the connecting arm 11 of one retaining wall block and the connecting groove 12 of the other retaining wall block to be mutually coupled to form a retaining wall block It will be understood as a configuration for enabling (10) to be horizontally expandable with respect to the ground, and the tapered shape of the connecting arm 11 and the connecting groove 12, when two or more retaining wall blocks are coupled to each other, It can be understood as a shape to prevent the connection arm 11 of one retaining wall block and the connection groove 12 of the other retaining wall block from being easily separated by the shape of the end portion having a relatively wide cross section.

In addition, the retaining wall block 10 referred to in the present invention has a convex-convex surface 13 in one area of the other side except for the first side on which the connecting arm 11 is formed and the second side on which the connecting groove 12 is formed. This uneven surface 13 can provide an effect of preventing the retaining wall block 10 from slipping on the slope by exerting frictional resistance on the slope.

In addition, one or more protrusions 15 are formed on the upper surface of the retaining wall block 10 mentioned in the present invention, and although not explicitly shown in FIG. 1, the above-described protrusions ( 15) may be formed with an accommodating groove. That is, when two or more retaining wall blocks are built vertically with respect to the ground, the protrusion 15 formed on the upper surface of one retaining wall block located on the lower layer is inserted into the receiving groove formed on the lower surface of the other retaining wall block located on the upper layer. , It can be understood as a configuration for increasing the fastening force between retaining wall blocks forming two or more layers.

At this time, preferably, the receiving groove of the protrusion 15 formed on the lower surface of the retaining wall block 10 may be formed in a shape corresponding to the size and shape of the protrusion 15 formed on the upper surface, but usually the retaining wall block Since (10) is built in a zigzag manner between the lower layer retaining wall block 10 and the upper layer retaining wall block 10, the receiving groove of the projection 15 formed on the lower surface of the retaining wall block 10 is the projection formed on the upper surface (15) may be accommodated, but it may be formed as a long-shaped linear groove in the longitudinal direction of the retaining wall block 10, and the present invention is not limited thereto.

On the other hand, the retaining wall block structure having a configuration excluding the geogrid of the present invention has the shape of a polyhedron made of synthetic resin material as a main component together with the above-described retaining wall block 10, but has a cavity formed therein, so that the above-described cavity A predetermined material is injected into to withstand the load related to earth pressure, and a connection block 20 is installed between two or more retaining wall blocks 10 and functions to expand and connect the two or more retaining wall blocks.

As an embodiment, the synthetic resin material used in the manufacture of the above-described connection block 20 is similar to the material used in the manufacture of the above-described retaining wall block 10, a material containing at least one of polyethylene and polypropylene It is preferable to apply various colors to the retaining wall block 10 by increasing the autonomy of pigment addition, as well as ensuring durability as a retaining wall by using, and the shape may have a hexahedral shape as a whole .

In addition, the internal cavity formed in the connection block 20 may also have an open upper surface so that a preset material injection path may be guided, and one cavity may be formed in one connection block 20, Like the retaining wall block 10 described above, two or more cavities may be partitioned in an independent space, but the present invention is not limited thereto.

On the other hand, if a more detailed description of the shape of the connection block 20 is continued with simultaneous reference to FIG. 2, the connection block 20 referred to in the present invention has a first side portion (a) and the above-described first side portion ( One or more connecting arms 21 and 22 protrude and extend from the second side (b) of one side in contact with a), and the area of the cross section of the connecting arms 21 and 22 gradually widens toward the protruding end. Corresponding to the shape and number of the connecting arms 21 and 22 on the third side (c) and the fourth side (d) opposite to the first side (a) and the second side (b). The connecting grooves 23 and 24 may be formed in a concave shape.

At this time, the connecting arms 21 and 22 and the connecting grooves 23 and 24 of the connecting block 20 correspond to the size and shape of the connecting arm 11 and the connecting groove 12 of the aforementioned retaining wall block 10 It would be desirable to have a size and shape so that the connection between the connection block 20 and the retaining wall block 10 can be compatible.

Accordingly, the connection arms 21 and 22 formed on the first side (a) and the second side (b) of the connection block 20 mentioned in the present invention are combined with the connection groove 12 formed on the two retaining wall blocks The connection grooves 23 and 24 formed on the third side (c) and the fourth side (d) of the connection block 20 are combined with the connection arms 11 formed on the two retaining wall blocks, so that one connection Up to four retaining wall blocks 10 can be expanded and connected around the block 20.

Likewise, the tapered shape of the connection arm and the connection groove of the connection block 20 is such that when the connection block 20 is combined with one or more retaining wall blocks 10, the connection arm whose cross-sectional area becomes wider toward the end end, and the end end It will be understood that the connection block 20 and the retaining wall block 10 are not easily separated by the connection groove, the cross-section of which narrows toward the direction.

In addition, similar to the above-described retaining wall block 10, in the present invention, one or more convexly protruding protrusions 25 are formed on the upper surface of the connection block 20, and the lower surface of the connection block 20 has a protrusion ( 25), or it may be possible to form an accommodation groove on a line in which the protrusion 25 can be accommodated, in which the connection block 20 is also combined with the retaining wall block 10 to When vertically built, the protrusion 25 formed on the upper surface of one connection block 20 located on the lower floor is inserted into the receiving groove formed on the lower surface of the other retaining wall block or other connection block 20 located on the upper floor , It will be understood as a configuration for increasing the fastening force between the connection block 20 and the retaining wall block 10 forming two or more layers.

In addition, as shown in FIGS. 1 and 2, it is preferable that the retaining wall block 10 and the connection block 20 of the present invention chamfer each corner region constituting the polyhedron to form a chamfered slope. 142, when two or more retaining wall blocks are combined or at least one retaining wall block and the connection block 20 are combined, as shown in FIG. This is to form a first drain hole (h1) through which drainage treatment for the slope is performed, and this first drain hole (h1) communicates with the slope and is used as a path for discharging rainwater contained in the slope, and thus the slope By inducing the drainage of the slope to be smooth, it is possible to prevent an increase in the earth pressure of the slope due to poor drainage of rainwater included in the slope, and as a result, to prevent the collapse of the retaining wall block structure.

On the other hand, the retaining wall block 10 described above combines one or more retaining wall blocks 10 and one or more connection blocks 20 and builds them in horizontal and vertical directions with respect to the ground on which the retaining wall block structure is installed, thereby forming the front wall of the slope It is possible to form a retaining wall block structure 1000 for the front wall, and support the retaining wall block structure 1000 for the front wall by combining one or more retaining wall blocks and one or more connection blocks 20, but embedded in the ground Retaining wall block As a result, it is possible to form a reinforcing retaining wall block structure 1100 having a T-shaped coupling structure consisting of a head portion and a body portion in a horizontal cross-sectional shape relative to the ground where the retaining wall block structure 1000 for the front wall is installed.

At this time, as shown in FIG. 1, the retaining wall block structure 1000 for the front wall may have an arcuate recessed groove drawn into the upper part side in one area of the lower part, such that the drainage treatment for the slope is performed It will be understood that a second drain hole (h2) is formed, and this second drain hole (h2) refers to the example shown in FIG. 8, when the retaining wall block structure is built, the above-described first drain hole (h1 ) together with the rainwater contained in the slope, it is used as a path to discharge the rainwater contained in the slope, and by inducing the drainage of the slope to be smooth, it prevents the increase in earth pressure of the slope due to poor drainage of the rainwater contained in the slope, and as a result It becomes possible to provide an effect of preventing collapse of the retaining wall block structure.

Meanwhile, referring to FIGS. 3 and 4 at the same time, looking in detail at the example of forming the above-described retaining wall block for the front wall, in the present invention, the retaining wall block structure 1000 for the front wall horizontally combines a plurality of retaining wall blocks in succession, Connecting blocks 20 are fitted at predetermined intervals (for example, after continuously combining three retaining wall blocks, then combining one connecting block 20 with the fourth block, etc.) to form a unit layer, The retaining wall block structure 1000 for the front wall can be formed by constructing a plurality of unit layers with a height corresponding to the height of the slope.

Referring to A of FIG. 3 as an embodiment, in A of FIG. 3, an example in which a plurality of retaining wall blocks 10a, 10b, 10c, and 10d and one connecting block 20 are horizontally coupled can be seen, and the present invention In , the retaining wall block structure 1000 for the front wall can be formed by repeating this combination to have a unit layer having a length corresponding to the slope, and constructing a plurality of unit layers to correspond to the height of the slope.

On the other hand, B of FIG. 3 shows a plan view of A of FIG. 3 as an example for examining the combination of a plurality of retaining wall blocks and one connection block 20 in more detail, and as shown in FIG. 3, the present invention In , the connecting arms 11a, 11b, 11c, 11d, and 21 formed on one side of the retaining wall block 10 and the connecting block 20 are aligned in one direction, and then attached to the adjacent retaining wall block or connecting block 20. By coupling the connecting arms to the formed connection grooves 12a, 12b, 12c, 12d, and 23, it is possible to form one unit layer included in the retaining wall block structure 1000 for the front wall.

That is, in the present invention, the retaining wall block structure 1000 for the front wall can be formed by repeating the above unit layer formation and stacking a plurality of unit layers in a direction perpendicular to the ground.

However, at this time, in a preferred embodiment of the present invention, in performing an operation of stacking a plurality of unit layers in a direction perpendicular to the ground, the position where the connecting block 20 is fitted is changed for each unit layer.

That is, as will be described later, as the reinforcing retaining wall block structure 1100 has a structure in which the connection block 20 is installed in an extended connection, the reinforcing retaining wall block structure 1100 is buried (or laid) in the ground. When, the plurality of reinforcing retaining wall block structures 1100 provide strength to reinforce the resistance to earth pressure of the retaining wall block structure 1000 for the front wall at various positions of the retaining wall block structure 1000 for the front wall It will be understood that this embodiment can be seen with reference to FIG. 4 .

Next, the reinforcing retaining wall block structure 1100 mentioned in the present invention and two or more retaining wall blocks are combined to form a head, but the connection block 20 is fitted in the area between the two or more retaining wall blocks, and the connection block ( 20) can be understood as a structure having an overall T-shaped coupling structure by coupling one or more retaining wall blocks in a direction opposite to the head portion from the fitted region to form a body portion.

Referring to FIG. 5 as an embodiment, in FIG. 5, retaining wall blocks are coupled to both sides of one connection block 20 to form the head of the reinforcing retaining wall block structure 1100, and one connection block ( 20), an example in which a reinforcing retaining wall block structure 1100 having a T-shaped coupling structure is formed by connecting two retaining wall blocks to one side of the side with the connection groove to form a body can be seen.

Meanwhile, the reinforcing retaining wall block structure 1100 is mutually coupled with the aforementioned retaining wall block structure 1000 for the front wall, so that the retaining wall block structure 1000 for the front wall functions to reinforce the force resisting against earth pressure. The coupling structure may be the same as the embodiment shown in FIG. 6 .

Specifically, the retaining wall block structure 1100 for reinforcement mutually couples between the retaining wall block located at the end of the body portion and the connection block 20 included in the unit layer of the retaining wall block structure 1000 for the front wall.

That is, in the present invention, the connecting groove of the retaining wall block 10 located at the end of the body of the retaining wall block structure 1100 for reinforcement and the connecting arm of the connecting block 20 included in the retaining wall block structure 1000 for the front wall It is possible to combine the retaining wall block structure 1100 for reinforcement having a T-shaped coupling structure and the retaining wall block structure 1000 for the front wall by mutually coupling the .

Then, in the present invention, as shown in FIG. 7, the reinforcement retaining wall block structure 1100 having a T-shaped coupling structure is buried in the ground of the slope, so that the reinforcement retaining wall block structure 1100 uses the conventional geogrid Instead, reinforcing force for the retaining wall block structure 1000 for the front wall can be exerted.

Meanwhile, in FIG. 7, for easier understanding, the reinforcement retaining wall block structure 1100 having a T-shaped coupling structure is shown in an exposed state, but the reinforcement retaining wall block structure 1100 is the retaining wall block structure 1000 for the front wall ) and FIG. 7, but it is preferable to understand that the reinforcing retaining wall block structure 1100 is constructed in a form buried in the soil surface.

In addition, in the above embodiment, the description was limited to the example in which the retaining wall block and the connection block were made of a synthetic resin material having an internal cavity, but in another embodiment of the present invention, a configuration excluding the geogrid including the retaining wall block and the connection block All of the blocks included in the retaining wall block structure may be provided as blocks of concrete material, and through this, a retaining wall block structure with shock resistance, which means the characteristic toughness of a concrete retaining wall and the property of enduring against external impact It has the effect of being able to provide.

Overall, according to the retaining wall block structure having the configuration excluding the geogrid described above, in the present invention, even if the geogrid member, which is a reinforcing material used to fix the initial installation form of the retaining wall structure, is excluded, the reinforcing retaining wall having a T-shaped coupling structure By embedding blocks on the stratum and connecting them to the front wall, there is an effect of providing a retaining wall block structure capable of maintaining the initial installation shape intact by allowing the retaining wall blocks constituting the front wall to reinforce the bearing capacity against earth pressure.

Accordingly, in the present invention, by simply assembling and installing a plurality of retaining wall block structures on a slope made of soil and the like to form a retaining wall structure, the risk of an accident from collapsing on the slope is prevented, and also to the characteristic shape of the retaining wall block and the connection block Accordingly, it is possible to form a retaining wall block structure having a smooth drainage function by providing a drainage hole for rainwater included in the slope in case of rain only by constructing one or more retaining wall blocks and connection blocks.

In addition, according to an embodiment of the present invention, when the retaining wall block and the connection block are transported to the construction site of the retaining wall block structure, the internal cavity is transported in an unfilled state, thereby reducing transport costs. , while forming a retaining wall block structure at the construction site, by injecting a predetermined material into the internal cavity, there is an effect of providing proof force to withstand the earth pressure of the slope.

In addition, according to an embodiment of the present invention, in the present invention, the retaining wall structure can be used in various ways according to the type of material injected into the internal cavity of the retaining wall block and the connection block. For example, when water and soil are injected, the hypothesis It is used as a retaining wall, and when cement and synthetic resin are injected, it can be used as a permanent retaining wall or an insulated retaining wall, so that its utilization is high.

In the above, the description of the retaining wall block structure having a configuration excluding the geogrid proposed in the present invention has been performed, but the spirit of the present invention is not limited to the embodiments presented herein, and those skilled in the art who understand the spirit of the present invention Within the scope of the same concept, other embodiments may be easily proposed by adding, changing, deleting, or adding components, but this will also be said to fall within the scope of the present invention.

In addition, terms such as "include", "comprise" or "have" described above mean that the corresponding component may be inherent unless otherwise stated, excluding other components. It should be construed as being able to further include other components. All terms, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which the present invention belongs, unless defined otherwise. Commonly used terms, such as terms defined in a dictionary, should be interpreted as consistent with the meaning in the context of the related art, and unless explicitly defined in the present invention, they are not interpreted in an ideal or excessively formal meaning.

The above description is merely an example of the technical idea of the present invention, and various modifications and variations can be made to those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed according to the claims below, and all technical ideas within the equivalent range should be construed as being included in the scope of the present invention.

Claims (10)

In the retaining wall block structure having a configuration excluding the geogrid, which is a reinforcing material used to fix the initial installation form of the retaining wall structure,
A retaining wall block made of a synthetic resin material in the shape of a polyhedron, but having a cavity formed therein, to inject a predetermined material into the cavity to withstand a load related to earth pressure; and,
It has the shape of a polyhedron made of synthetic resin material, but a cavity is formed inside, so that a predetermined material is injected into the cavity to withstand the load related to earth pressure, but is installed between two or more retaining wall blocks, and the two or more retaining walls A connection block that functions to expand and connect the blocks; including,
The retaining wall block,
A retaining wall block structure for a front wall by combining one or more retaining wall blocks and one or more connection blocks to form a front wall by constructing a retaining wall block structure in horizontal and vertical directions with respect to the ground on which the retaining wall block structure is installed;
One or more retaining wall blocks and one or more connection blocks are combined to support the retaining wall block structure for the front wall, but the retaining wall block is embedded in the ground, and the shape of the horizontal cross section with respect to the ground on which the retaining wall block structure for the front wall is installed is A reinforcing retaining wall block structure having a T-shaped coupling structure composed of a head portion and a body portion; including,
The retaining wall block structure for reinforcement,
The head part is formed by combining two or more retaining wall blocks, and the connection block is fitted into a region between the two or more retaining wall blocks,
One or more retaining wall blocks are coupled in a direction opposite to the head part starting from the region where the connection block is fitted, so that the body part is formed to have a T-shaped coupling structure,
The retaining wall block structure for the front wall,
A plurality of retaining wall blocks are horizontally combined in succession, and a unit layer is formed by fitting the connecting blocks at predetermined intervals, and a plurality of unit layers are built to a height corresponding to the height of the slope to form a retaining wall block for the front wall to form a structure,
The retaining wall block structure for reinforcement,
After mutual coupling between the end end of the body portion and the connection block included in the unit layer of the retaining wall block structure for the front wall, the reinforcing retaining wall block structure having a T-shaped coupling structure is buried in the ground, Provide reinforcing force for the retaining wall block structure for the front wall,
The retaining wall block and the connection block,
Each corner region constituting the polyhedron is chamfered to form a chamfered slope, and when two or more retaining wall blocks are coupled, and when at least one retaining wall block and the connection block are coupled,
A retaining wall block structure having a configuration excluding a geogrid, characterized in that the pre-formed chamfered slope surfaces come into contact with each other to function as a first drain hole for performing drainage treatment on the slope.
According to claim 1,
The retaining wall block,
At least one connecting arm protrudes and extends from the first side, and the connecting arm has a tapered shape such that its cross section gradually widens as it goes toward the protruding end, and the connecting arm has a second side opposite to the first side. Retaining wall block structure having a configuration excluding the geogrid, characterized in that the connection grooves corresponding to the shape and number of are formed in a concave form.
According to claim 2,
The retaining wall block,
A retaining wall block structure having a configuration excluding a geogrid, characterized in that a convex convex surface is formed in one area of the remaining side except for the first side and the second side so that frictional resistance against the slope is exerted.
According to claim 1,
The connection block,
At least one connecting arm protrudes and extends from the first side and the second side of one surface connected to the first side, and the connecting arm has a tapered shape so that the area of the cross section gradually widens toward the protruding end. Except for the geogrid, characterized in that connection grooves corresponding to the shape and number of the connection arms are formed in a concave shape on the third side and the fourth side opposite to the first side and the second side. A retaining wall block structure having a structured structure.
delete According to claim 1,
The retaining wall block structure for the front wall,
A retaining wall block having a configuration excluding a geogrid, characterized in that an arcuate recessed groove drawn into the upper part is formed in one area of the lower part so that the recessed groove functions as a second drainage hole for performing drainage treatment on the slope struct.
delete delete According to claim 1,
The retaining wall block structure for the front wall,
By varying the position where the connection block is fitted for each unit layer,
A retaining wall block structure having a configuration excluding a geogrid, characterized in that a plurality of reinforcing retaining wall block structures buried in the ground corresponding to the plurality of unit layers are disposed in different positions.
According to claim 1,
In the cavity formed inside the retaining wall block and the connection block,
At least one material of water, soil, cement, and a synthetic resin including at least one of polyurethane, polystyrene, and polyethylene is injected,
When the material injected into the cavity is a synthetic resin, the molten synthetic resin is injected into the cavity and then cured by a curing means to be used.