KR200354766Y1 - Retaining wall block - Google Patents

Abstract

The present invention relates to a retaining wall block used for the construction of a retaining wall to prevent slope collapse due to earth pressure, and more particularly, to a retaining wall block having a stronger support strength by having a support block embedded in the soil piled up behind the retaining wall. will be.

The retaining wall block according to the present invention is the front and rear walls (11, 12) and the left and right walls (13, 14) are integrated while forming the filling portion (1a) is filled with soil side from both side ends of the rear wall A block body 1 having support portions 16 each extending in a direction; A support block for supporting the block body at the same time as the left and right portions of the binding portion 21 at the front end are supported by the supporting portions of the two retaining wall blocks that are constructed adjacent to each other, and the body 20 at the rear is embedded in the soil behind the retaining wall block ( 2); including. The retaining wall block according to the present invention can be constructed through a simple process of pre-assembling in a simple fitting method and then laying the earth and sand behind, so the construction is simple and the construction cost is low. In addition, the retaining wall block itself has a large support strength, and the block bodies are supported by the support blocks in association with each other, thereby providing a great support against earth pressure. In particular, there is an advantage that the curved retaining wall can be freely constructed by adjusting the relative angle between neighboring retaining wall blocks within a certain angle range.

Description

Retaining Wall Blocks {RETAINING WALL BLOCK}

The present invention relates to a retaining wall block used for the construction of a retaining wall for preventing slope collapse due to earth pressure, and in particular, a retaining wall having a stronger support strength by having a support block embedded in the soil piled up behind the retaining wall. It's about blocks.

Retaining wall is a structure to prevent soil from collapsing by supporting slopes or slopes of incisions formed by civil works such as roadside slopes, banks, riverbanks, landscaping walls, etc., taking into account the topographic factors and the pressure distribution on the retaining wall after construction. Will be installed.

Conventional retaining walls generally cut soil on the inclined or normal surface of the incision, then construct the formwork with reinforcing bars and panels to reinforce concrete, and then reinforce the soil containing soil, crushed stone, rubble, etc. on the back of the reinforced concrete wall. It was constructed by filling it. However, this reinforced concrete retaining wall has the advantage of not requiring a separate anchor means for supporting the retaining wall, while the construction process through the molding, curing, pit soil, fill, etc. is very complicated, which leads to enormous construction cost and long construction period. In addition, the appearance was extremely monotonous and depressed, and there were various problems such as damaging the surrounding landscape.

Therefore, recently, a block retaining wall having a beautiful appearance, short air, and low construction cost has been widely constructed.

Block retaining wall is constructed through the process of stacking retaining wall blocks in the transverse direction and then filling the reinforcement soil on the back side, and geogrid anchor type, resistor anchor type, in the form of anchor added to prevent collapse by horizontal earth pressure It is classified into gravity anchor type.

Geogrid anchoring method is to support the retaining wall by the friction force between the mesh and the reinforcing soil by fixing the front end of the mesh having a certain mesh between the retaining wall blocks and then embeding the rear end of the mesh into the reinforcing soil filled on the back of the retaining wall. Is a method of supporting the retaining wall by the frictional force between the concrete resistor and the bar against the reinforced soil by fixing the front end of the bar such as rebar, steel bar or FRP rod to the retaining wall block, and fixing the rear end to the concrete resistor embedded in the reinforcement soil. In addition, the gravity anchor method is a method in which the retaining wall is mainly supported by the reinforced concrete retaining wall structure itself, and the reinforced concrete retaining wall is designed by the horizontal earth pressure by designing the reinforced concrete retaining wall so that the resistance moment of the retaining wall bottom becomes larger than the conduction moment caused by the horizontal earth pressure. This is how you prevent it from falling.

However, when constructing the retaining wall with the retaining wall block by applying the above anchor method, there are many advantages than the constructing the reinforced concrete retaining wall, but due to the many components constituting the anchor means, problems of logistics, assembly time and parts cost There was a problem, especially because the anchor means must be assembled on the retaining wall block in the field, this also had a problem that takes a long time in construction.

Accordingly, the present applicant is to solve the problem of the block retaining wall using the anchor as described above, it is possible to support the retaining wall only by the retaining wall block itself without a separate anchor means, in particular the front block and anchor blocks constituting the retaining wall block 'Retaining wall block having its own support structure (Utility Model Registration No. 307195)' has been developed that can be combined by fitting method without additional coupling means, which makes construction simple and reduces construction cost.

However, this retaining wall block with its own supporting structure also had the following problems.

That is, in the case of the retaining wall block having a conventional self-supporting structure, since the left and right sides of the rear wall part 150 of the front block 100 are cut off due to the insertion part 160 formed to couple the anchor block 200, the wall surface of the retaining wall is There was a problem that the support strength of the front block 110 to form a very weak. As a result, the rear wall part 150 is frequently damaged during transportation or construction, and after the retaining wall is built, the rear wall part 150 is swelled by the earth pressure accumulated behind the retaining wall and swells up from the retaining wall. It caused a full stomach. In addition, because each is configured to be supported by a separate anchor block 200, there is no coupling force between the neighboring front block 110, so that when the earth pressure is biased to either side after building the retaining wall is very fragile because it does not distribute the earth pressure Was also holding. In addition, since the anchor block 200 is fitted to the front and rear of the front block 110 is fitted in the relative angle between them is impossible to adjust the construction of the curved retaining wall was also a problem.

The present invention has been devised to eliminate the problems of the conventional retaining wall blocks as described above, the construction is simple and inexpensive, as well as the self-support strength of the block body is very large, and acts behind the retaining wall after construction. The purpose of the present invention is to provide a retaining wall block having a very high support strength and curvilinear construction by supporting the earth pressure in connection with each other.

1 to 3 is a construction process diagram of the retaining wall block according to an embodiment of the present invention.

4 is a plan view of a retaining wall constructed of a retaining wall block according to an embodiment of the present invention;

<Description of Symbols for Major Parts of Drawings>

1: Block body 11, 12: Front and rear walls

13,14: left and right wall 15: middle wall

16: support 17: anchor

2: support block 20: body

20a: flow preventing groove 20b: joint protrusion

21: binding unit 21a: joint groove

22: support jaw

Retaining wall block according to the present invention devised to achieve the above object, the front and rear walls, the left and right walls are integrally formed while forming a filling portion filled with soil, respectively extending in both sides of the rear wall in the lateral direction A block body having a support portion; The left and right halves of the binding portion extending from the front end to the right and the left end of the two retaining wall blocks are constructed adjacent to each other, and the body formed to extend rearward from the bottom of the binding portion is embedded in the soil behind the retaining wall block. It characterized in that it comprises a; support block for supporting the block body.

In the above configuration, it is preferable that the support jaw is formed at the rear end of the body of the support block to extend laterally in a preferred configuration to widen the area in which earth pressure acts.

In the case of the support block, a joint groove is formed at a front end thereof, and a joint protrusion having a shape corresponding to the joint groove is formed at a rear end thereof, so that another support block can be connected by fitting a joint groove of another support block to the joint protrusion. It is preferable.

On the left and right sides of the front end of the body of the support block may be formed a flow preventing groove in which the front end of the support portion of the two retaining wall blocks.

In the case of the block body, the entire width of the rear wall including the support part is formed to be smaller than the width of the front wall for the construction of the curved retaining wall, and the fracture groove is formed so that a part of the tip of the block body can be broken and removed. It is preferable that it is formed across this vertical direction.

The block body includes a middle wall connecting the left and right walls in the horizontal direction between the front and rear walls in a horizontal direction for stacking the block body, and the other two protruding from the left and right walls alternately stacked on the upper end. An anchor configured to support the intermediate wall of the block body may be further molded.

In the case of the left and right walls, the curved wall may be formed at an angle of 10 to 45 degrees inwardly from both side ends of the front wall to the rear wall for curved construction.

Hereinafter, the configuration and operation of the retaining wall block according to the present invention will be described in detail through a preferred embodiment.

1 to 3 is a construction process diagram of the retaining wall block according to an embodiment of the present invention, Figure 4 is a plan view.

As shown in FIGS. 1 and 2, the retaining wall block according to the embodiment of the present invention has a block body 1 that forms a wall surface of the retaining wall at the front and a retaining wall rearward in a state of being bound to the rear of the block body 1. It consists of a support block (2) buried in the soil to be filled in.

The block body 1 is integrated while forming a filling portion 1a filled with soil therein at intervals in the front, rear, left, and right directions, respectively, to form front and rear walls 11 and 12 and left and right sides. Filled together with the front wall 11 and the left and right walls 13 and 14 by connecting left and right walls 13 and 14 between the walls 13 and 14 and the front and rear walls 11 and 12. And an intermediate wall 15 forming the portion 1a, and formed support portions 16 extending laterally from the left and right side ends of the rear wall 12 and the like. The front wall 11 is formed to have a greater width in left and right directions than the rear wall 12 including the support portion 15 to enable curved construction as a wall which is curved in an arc shape. The left and right walls 13 and 14 are walls that extend from both ends of the front wall 11 and are connected to the rear wall 12. The left and right walls 13 and 14 move toward the rear wall 12 to form the block body 1 in a curved shape. It is molded at an angle within the range of 10 to 45 degrees inward. In addition, the upper surface is formed with an anchor 17 capable of supporting the intermediate wall of two block bodies which are protruded at a position slightly biased to the rear wall 12 at a midway position and are piled up side by side on the left and right sides of the upper end. do. The intermediate wall 15 is a support wall body whose lower end spans the anchor of the block body constructed at the lower end so that the block body 1 is supported by the block body constructed at the lower end thereof. The left and right walls 13, 14) serves to reinforce the overall support strength of the block body (1) by connecting. In the case of the anchor 17 supporting the intermediate wall of the block body stacked on the upper end of the above configuration, as shown in Figures 2 and 4 is formed so that the rear end is located behind the front of the intermediate wall (15) to the upper end It is configured to support the stacked block body 1 in the state of being inverted by the distance (D) between the front surface of the intermediate wall (15) and the rear end of the anchor (17). The support part 16 is formed to extend left and right from the rear wall 12, and there is a binding part 21 at the tip of the support block 2, which is inserted between the neighboring and the other block body 1 support part 16. ) Is worn. Thus, it functions to bind the block body 1 with respect to the support 16, and may also be used as a handle that can be held by hand when being transported before being constructed. In particular, the support portion 16 is provided with a rupture groove 16a in the vertical direction so that a part of the tip thereof can be broken and removed so that the curved retaining wall with large curvature can be constructed.

The support block 2 is a reinforcement having an approximately T-shaped structure in which a binding portion 21 extending left and right at the front end and a body 20 extending straight forward from the center of the binding portion 21 are integrally formed. As a block, the binding portion 21 is sandwiched between two block bodies 1, which are built side by side in front, over the support 16 of the two block bodies 1, and the body 20 is deposited on the soil. While being buried and supported by the earth pressure received from the earth and sand, the binding unit 21 serves to support two block bodies 1 spanning the left and right supports 16. On the left and right sides of the front end of the body 20 of the support part 16, when the binding part 21 of the front end is placed on the support part 16 of the two retaining wall blocks, the two retaining wall blocks are accommodated by the support part tips of the two retaining wall blocks. The flow preventing groove 20a is formed so that the body 20 does not flow relative to the front and rear direction, and at the rear end, as shown in FIG. 2, the supporting jaw 22 which can increase the supporting force by the earth pressure by widening the working area of the earth pressure Alternatively, in the case where the earth pressure action area needs to be enlarged or the fill area is large, the convex and convex protrusions 20b for connecting the other supporting blocks 2 in series are selectively formed. In addition, a joint groove 21a having a structure corresponding to the joint protrusion 20b of the rear end is formed at the center of the binding unit 21 at the front end so as to be connected to the rear end of the other supporting block.

Retaining wall block according to an embodiment of the present invention made of the above configuration as shown in Figures 1 to 4 block body 1 in front of the front wall 11 with their support portions 16 spaced apart Are arranged in a row along the line of the pre-designed retaining wall, with or without the sides of the retaining wall line in contact with each other, and then the support of each of the block bodies 1 between the block bodies 1. 16, the support block (2) is fitted to assemble the fastening portion 21 to be assembled. In this case, when the fill area behind the retaining wall is large, two or more support blocks 2 may be connected to the block body 1 as shown in FIGS. 2 and 4. Subsequently, when the earth and sand are laid so that the supporting blocks 2 are embedded behind the block body 1, the block bodies 1 are adjacent to each other by the supporting blocks 2 which are subjected to earth pressure. One step block retaining wall that is supported is constructed. When the construction of the first stage of the block retaining wall is completed, the first stage of the block retaining wall is again constructed on the same way. The retaining wall blocks move upwards by stacking them over the anchors 17 of the upper wall, and the distance between the anchors 17 and the intermediate wall 15 with respect to the block body 1 of the lower retaining wall blocks. It is possible to build retaining walls that are seized at intervals. In addition, in the retaining wall block according to an embodiment of the present invention, the width of the front wall 11 of the block body 1 is larger than the width of the rear wall 12 and the left and right walls 13 and 14 go backwards. As it is formed obliquely toward the center side and has a fan-shaped shape that is roughly cut off, and the support blocks 2 are interposed between the block bodies 1 to allow a relative rotation with a margin to the support 16 of the block body 1, Curved construction is possible, and curved retaining walls can be constructed.

As described in detail above, the retaining wall block according to the present invention can be constructed by pre-assembled in a simple fitting method when building the retaining wall, so the construction is simple and the construction cost is low. In addition, the retaining wall block itself has a large supporting strength, and the block bodies forming the wall of the retaining wall are supported in association with each other by the supporting blocks subjected to the earth pressure of the soil deposited thereafter, so that the strength of the retaining wall block is very high. And, first of all, when the construction of the retaining wall block according to the present invention, the curved construction is possible by adjusting the relative angle between neighboring retaining wall blocks within a predetermined angle range, and thus there is an advantage that the curved retaining wall can be constructed without difficulty.

Claims (8)

The front and rear walls 11 and 12 and the left and right walls 13 and 14 are integrally formed by forming a filling portion 1a filled with soil, and the support portions extending laterally from both side ends of the rear wall, respectively. A block body (1) having (16); The retaining wall block includes a body 20 formed by extending left and right of the binding portion 21 extending from the front end to the left and right sides of the retaining wall block adjacent to each other and extending rearward from the bottom of the binding portion. Retaining wall blocks embedded in the soil to be filled later, the support block for supporting the block body; The method of claim 1, Retaining wall block is characterized in that the support block (2) further comprises a support jaw (22) that extends laterally at the rear end of the body to widen the area in which earth pressure acts. The method of claim 2, The support block 2 has a joint groove 21a formed at the front end thereof, and a joint protrusion 20b having a shape corresponding to the joint groove formed at the rear end thereof to fit the joint groove of another support block to the joint protrusion. Retaining wall block, characterized in that the rear end of the support block (2) can be connected in series with other support blocks. The method according to any one of claims 1 to 3, Retaining wall block, characterized in that the flow prevention groove (20a) is formed on the left and right sides of the front end of the body of the support block (2) to support the front end of the two retaining wall blocks. The method according to any one of claims 1 to 3, The block body (1) is a retaining wall block, characterized in that the overall width of the rear wall (12) including the support for forming a curved retaining wall is formed smaller than the width of the front wall (11). The method according to any one of claims 1 to 3, The block body 1 is an intermediate wall 15 connecting the left and right walls in the horizontal direction between the front and rear walls, and the other two block bodies protruding from the left and right walls alternately on the upper end. Retaining wall block having an anchor (17) capable of supporting the intermediate wall, made of a retractable construction. The method according to any one of claims 1 to 3, Retaining wall block, characterized in that the breaking groove (16a) is formed to cross in the vertical direction so as to break and remove a portion of the front end of the support in the middle of the support (16). The method according to any one of claims 1 to 3, Retaining wall block, characterized in that the left, right wall (13, 14) is formed obliquely at an angle of 10 to 45 degrees inward from the front wall to the rear wall.