KR100439536B1 - Structure for connecting retaining wall block and anchor to support the block - Google Patents

Abstract

The present invention relates to a connection structure between a retaining wall block and an anchor for supporting the retaining wall block. The present invention relates to an anchor formed to support the retaining wall block by using a tension rod, and to easily connect the retaining wall block to the retaining wall to improve its supporting performance. It aims to do it.

The connecting structure of the retaining wall block and the anchor for supporting the same according to the present invention has a hollow 110 penetrating up and down, and at least one anchor hole 132 passing through the hollow penetrates the rear wall surface 130. The retaining wall block 100 is formed to connect the tension bar 310 constituting the anchor 300. At least one anchor groove 314 and 314a corresponding to the anchor hole is formed at the top or bottom of the rear wall surface. The front end portion of the tension rod is horizontal portion 321 inserted into the anchor groove, the vertical bend 322 is bent vertically from the horizontal portion and disposed in the hollow and the rear bend is bent backward from the vertical bent portion is inserted into the anchor hole It is formed of a ring portion having 323.

Description

STRUCTURE FOR CONNECTING RETAINING WALL BLOCK AND ANCHOR TO SUPPORT THE BLOCK}

The present invention relates to a connection structure between a retaining wall block and an anchor for supporting the same, and in particular, an anchor configured to support the retaining wall block by using a reinforcing bar, a steel bar, or an FRP rod can be easily connected to the retaining wall block. The present invention relates to a retaining wall block capable of improving the supporting performance of the retaining wall constructed by the retaining wall blocks, and a connection structure between the anchor wall and the anchor for supporting the retaining wall block.

Retaining wall is a structure to prevent the collapse by supporting the soil of the back by being installed on various slopes or the slope of the cut-off site formed by civil works, and is constructed in consideration of the topographical factors and factors applied to the retaining wall after the retaining wall construction.

Retaining wall is the so-called reinforced concrete retaining wall which is formed by cutting the earth and sand of the construction area and forming formwork with reinforcing bars and panels, casting concrete to form the formwork, and then filling the reinforcement soil such as soil and crushed stone on the back. Retaining wall blocks can be largely divided into retaining walls that are prefabricated and built.

Reinforced concrete retaining wall is mainly supported by the structure itself so that it is not collapsed by earth pressure. Specifically, it is designed to prevent the retaining wall from conducting by horizontal earth pressure by designing the resistance moment at the bottom of the retaining wall larger than the conduction moment caused by horizontal earth pressure. do. That is, the bottom part of the reinforced concrete retaining wall is enlarged. Therefore, in the case of the reinforced concrete retaining wall, there is no big problem in the stability of the supporting structure.

However, in the case of the retaining wall constructed by the retaining wall blocks, since the binding force between the retaining wall blocks is weak, there is no choice but to collapse the earth pressure, so the construction supporting the retaining wall blocks must be performed together in the retaining wall construction process.

Generally known retaining wall block support structures include geogrid anchor structures and resistor anchor structures.

The geogrid anchor structure is fixed by the end of the mesh grid, which has a constant mesh by reinforcing fibers and / or steel wires, to be fastened to a coupling pin for assembling upper and lower retaining wall blocks, or to the rear of the retaining wall block. The retaining wall is supported by the frictional resistance of the mesh grid to the reinforcement soil by hanging the groove formed in the upper end of the wall and burying the rear end of the mesh grid in the reinforcement soil filled in the rear wall of the retaining wall. As a representative example of such a geogrid anchor structure, those disclosed in Korean Patent Laid-Open Publication No. 1998-2478 may be mentioned. Also, Korean Patent Laid-Open Publication No. 1998-82110 hangs an adapter grill on a groove formed at an upper end of a rear wall of the retaining wall block, and the adapter grill An example of supporting the retaining wall block is disclosed by coupling a mesh grid to a rear end of the.

The resistor anchor structure bends the leading end of a tension rod, such as a rebar, steel rod or FRP rod, into a retractable shape, and the bending portion of the tension rod is fixed to an insertion groove formed perpendicularly to the top of the front wall of the retaining wall block or to the top of the rear wall. Representative examples are disclosed in Korean Utility Model Publication No. 1998-1273), or the tip of the tension bar is penetrated through the rear wall of the retaining wall block, and the tip of the tension bar is joined with an anchor head that can be hooked to the rear wall. The retaining wall is supported by the passive resistance of the concrete resistor to the reinforcement soil by fixing the part to the concrete resistor (in the same way as the buried or fixing the tip of the tension rod). In this resistor anchor structure, when the protruding beads are formed on the outer circumferential surface by the tension bar, the frictional resistance of the protruding beads to the reinforcement soil is also partially responsible for the retaining wall.

However, there are the following problems in the anchor structure as described above.

In the case of geogrid anchor structure, since the area of the mesh grid is large, and the volume and weight are large, it is difficult to handle, resulting in an increase in logistics costs and a lot of retaining wall construction time. In addition, if the reinforcement soil is not flattened on the back wall of the retaining wall while constructing the retaining wall, the mesh grid will cry and it will be difficult to connect the front end of the mesh grid to the retaining wall block, which is difficult due to the large weight of the mesh grid. More weighted. In addition, the bearing capacity for retaining wall blocks should be different depending on the ground, reinforcement soil, or landfill depth. However, in case of mesh grid, the mesh is almost constant so that it cannot cope with the active change of bearing capacity and partially extend the length of the mesh grid. It's hard to do In addition, as the mesh grid becomes expensive, this geogrid anchor structure is undesirable in terms of cost.

On the other hand, in the case of the resistive anchor structure, there is an advantage that it can be easily and cheaply constructed compared to the geogrid anchor structure, but as described above, when the tip of the tension rod is bent in the shape of a lifter to support the retaining wall block, the bending portion of the tension rod is There is a problem in that the bending strength of the weak strength of the retaining wall block is weak. Moreover, when the retaining wall block is forced forward by earth pressure, the front bend of the tension bar receives not only the horizontal load but also the vertical load by the insertion groove of the retaining wall block, and the combined force causes the tip bend of the tension bar to deviate from the insertion groove of the retaining wall block. It acts as a force. Therefore, the retaining wall block is pushed forward a little, and the tip bend of the tension bar is slightly deviated from the insertion groove of the retaining wall block, so that between the retaining wall blocks constructed vertically, the weak part is forced to collapse after a long time.

The present invention has been made in consideration of the above-described conventional problems, and it is possible to easily connect an anchor to the retaining wall block using a tension bar such as reinforcing bars, steel bars, or FRP rods, and to be constructed by retaining wall blocks. An object of the present invention is to provide a retaining wall block capable of improving retaining performance of a retaining wall and a connection structure with an anchor for supporting the retaining wall block.

1 is a perspective view showing a state in which a retaining wall block and an anchor are connected by a structure according to Embodiment 1 of the present invention.

FIG. 2 is an enlarged cross-sectional view of the main part of FIG. 1. FIG.

3 is a plan view illustrating a state in which the retaining wall blocks are supported by the retaining wall blocks and the anchors connected by the structure according to the first embodiment of the present invention.

4 is a plan view illustrating another example in which the retaining wall blocks are supported by the retaining wall blocks and the anchors connected by the structure according to the first exemplary embodiment of the present invention.

5 is a perspective view showing a state in which the retaining wall block and the anchor are connected by the structure according to the second embodiment of the present invention.

6 is a plan view illustrating a state in which the retaining wall blocks are supported by the retaining wall blocks and the anchors connected by the structure according to the second embodiment of the present invention.

7 is a perspective view illustrating a state in which a retaining wall block and an anchor are connected by a structure according to Embodiment 3 of the present invention.

8 is a plan view illustrating a state in which the retaining wall blocks are supported by the retaining wall blocks and the anchors connected by the structure according to the third embodiment.

9 is an enlarged cross-sectional view showing main parts illustrating a state in which the retaining wall block and the anchor are connected by the structure according to the fourth exemplary embodiment of the present invention.

10 is a perspective view showing a state in which the retaining wall block and the anchor are connected by the structure according to the fifth embodiment of the present invention.

11 is an enlarged cross-sectional view showing main parts of a state in which a retaining wall block and an anchor are connected by a structure according to a fifth exemplary embodiment of the present invention.

12 is a plan view illustrating a state in which the retaining wall blocks are supported by the retaining wall blocks and the anchors connected by the structure according to the fifth embodiment of the present invention.

13 is a perspective view showing a state in which the retaining wall block and the anchor are connected by the structure according to the sixth embodiment of the present invention.

14 is a plan view illustrating a state in which the retaining wall blocks are supported by the retaining wall blocks and the anchors connected by the structure according to the sixth embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: retaining wall block, 110: hollow,

130: rear wall surface, 132: anchor hole,

134, 134a, 136: anchor groove, 134b: anchor end,

138: anchor slit 300: anchor, 310: tension bar,

312: longitudinal protrusion bead, 314: circumferential protrusion bead,

320: ring portion, 321: horizontal portion,

322: vertical bend, 323: rear bend

In order to achieve the above object, the present invention has a hollow penetrating up and down, and the tension bar constituting the anchor is connected to the retaining wall block formed with at least one anchor hole through the rear wall surface; A retaining wall block configured to support a retaining wall block and an anchor for supporting the retaining wall block, the retaining wall block comprising: at least one anchor groove corresponding to the anchor hole is formed at an upper end or a lower end of a rear wall of the retaining wall block; The front end of the tension rod is a ring having a horizontal portion inserted into the anchor groove, a vertical bending portion bent vertically from the horizontal portion disposed in the hollow and a rear bending portion bent backward from the vertical bending portion is inserted into the anchor hole It is characterized by being formed as a negative portion.

When a plurality of anchor holes are formed, the anchor groove may be formed in one shape having a size of an area including the anchor holes. In addition, the anchor end may be formed by cutting the upper or lower end of the rear wall surface of the retaining wall block including the anchor groove.

The tension bar is made of any one of rebar, steel bar or FRP rod, it is preferable that a plurality of longitudinal protrusion beads and a plurality of circumferential protrusion beads are formed on the outer circumferential surface.

In addition, the present invention, in the connection structure of the retaining wall block and the anchor for supporting the retaining wall block is formed to support the retaining wall block by connecting the tension rod constituting the anchor to the retaining wall block having a hollow penetrating up and down: At least one anchor slit is formed on the rear wall of the block so as to communicate with the hollow from the top to the bottom; The tip of the tension rod is formed of a ring portion having a horizontal portion, a vertical bend portion bent vertically from the horizontal portion and a rear bend portion bent backwards from the vertical bend portion, wherein the horizontal portion is inserted into the anchor slit and the vertical bend portion is hollow The rear bent portion is arranged to be caught by the lower end of the rear wall surface of the retaining wall block in a state arranged in the.

The present invention also provides a retaining wall block configured to support a retaining wall block by connecting a tension bar constituting an anchor to a retaining wall block having a hollow penetrating up and down, and an anchor for supporting the retaining wall block. At least one anchor slit is formed on the rear wall of the block so as to communicate with the hollow from the top to the bottom; The tip portion of the tension rod is formed of a ring portion having a horizontal portion, a vertical bending portion bent vertically from the horizontal portion and a rear bending portion bent backward from the vertical bending portion, wherein the horizontal portion is disposed at the bottom of the rear wall surface of the retaining wall block The rear bend is inserted into the anchor slit so as to be caught while the vertical bend is disposed in the hollow.

The features and advantages of the present invention will become more apparent from the following detailed description of the preferred embodiments based on the accompanying drawings. Prior to this, the terms or words used in the present specification and claims are defined in the technical spirit of the present invention on the basis of the principle that the inventor can appropriately define the concept of the term in order to explain his invention in the best way. It must be interpreted to mean meanings and concepts.

<Example 1>

1 to 4, the connection structure of the retaining wall block according to the first embodiment of the present invention and an anchor for supporting the same will be described.

1 shows an example of a retaining wall block supported by an anchor according to the present embodiment. The retaining wall block 100 supported by the anchor 300 of the present embodiment preferably has a hollow 110 penetrating up and down. The rear wall surface 130 of the retaining wall block 100 is formed with at least one anchor hole 132 leading to the hollow 110 (in this case, two anchor holes are formed) and the retaining wall block 100 is An anchor groove 134 is formed at an upper end of the rear wall surface 130 to correspond to the anchor holes 132 (in this example, two anchor grooves are formed).

The imaginary retaining wall blocks 100 include at least one key 140 protruding from the upper surface for their construction, and a key recessed at the bottom so that the keys 140 can be inserted. It may have grooves 142.

In addition, the front wall surface 120 of the retaining wall blocks 100, as shown in Figures 3 and 4, a plurality of vegetation from the top to the bottom so that the porous vegetation block 200 for the greening of the retaining wall can be coupled to the front The slit 122 is formed to communicate with the hollow 110. The vegetation slit 122 is provided so that the plant growing here can take root into the hollow 110. For example, the nut 210 having a diameter larger than the width of the vegetation slit 122 is coupled to the rear end of the bolt 210 installed through the center of the vegetation block 200 to connect the bolt 210 to the vegetation slit 122. When inserted into the nut 220 is caught on the front wall surface 120, the vegetation block 200 can be simply coupled to the front of the retaining wall block 100.

According to the present embodiment, the anchor 300 for supporting the retaining wall block 100 includes a tension rod 310 having a tip portion formed of a ring portion 320 so that the retaining wall block 100 can be easily connected to the retaining wall block 100 in a detachable structure. do.

The ring portion 320 is formed in a substantially depressed shape, and has a horizontal portion 321, a vertical curved portion 322 vertically curved from the horizontal portion 321, and a rear curved rearward from the vertical curved portion 322. It consists of a bend 323.

Accordingly, when the ring portion 320 of the tension rod 310 is connected to the retaining wall block 100, the vertical curved portion 322 and the horizontal portion 321 are inserted into the anchor groove 134 of the retaining wall block 100. When the back bend 323 pulls back the tension bar while being inserted into the hollow 110 of the retaining wall block 100 so as to correspond to the anchor hole 132 of the retaining wall block 100, the back bend 323 is a retaining wall block ( Since the hook 110 is inserted into the anchor hole 132 from the hollow 110 of the 100, the retaining wall block 100 may be supported by the tension bar 310.

When the retaining wall block 100 is supported by the tension bar 310 having the recessed portion 320 as described above, the retaining wall block 100 is moved forward by earth pressure by the reinforcement soil filled on the rear surface of the retaining wall. Even if the force is applied, approximately half of the rear wall surface 130 of the retaining wall block 100 is supported by being caught in a state surrounded by the ring portion 320, and further, even if the horizontal portion 321 is forced upward, the rear bend portion 323 Is caught in the anchor hole 132, the retaining wall block 100 can be firmly supported.

Meanwhile, the tension bar 310 may be formed by connecting a plurality of members to each other. The tension rod 310 is made of any one of rebar, steel rod or FRP rod, and as shown in Figure 2, the outer peripheral surface is formed with a plurality of longitudinal protrusion beads 312 and a plurality of circumferential protrusion beads 314 It is preferable.

In addition, as shown in FIG. 3, the anchor 300 includes a resistor block 340 having an anchor hole 342 through which a rear end of the tension bar 310 passes, and a rear end of the tension bar 310. It may further have an anchor head 350 is coupled to the resistor block 340. Therefore, the retaining wall block 100 may be supported by the resistance of the resistor block 340 against the reinforcement soils filled in the rear surface of the retaining wall.

In addition, as shown in FIG. 4, the tension bar 310 and the tension bar 310 adjacent to each other may be connected to each other by a plurality of connection members 360. Each end of the connection member 360 may be welded to the upper and / or lower portions of the tension rods 310 and 310 adjacent to each other. In addition, the connecting member 360 may be formed of a straight or Di-shaped, and forms a ring portion not shown in the end of each member constituting the tension bar 310, overlapping the ring portions corresponding to each other left and right, or up and down, Each end of the connecting member 360 is inserted into the overlapping ring portions such that the members adjacent to the left and right sides may be connected in a ladder shape. As such, when the tension rods 310 are connected by the connection members 360, the retaining wall block 100 may be supported by the passive resistance of the reinforcement soil of the connection members 360, so that the resistor block 340 may be supported. And the use of anchor head 350 may be ruled out.

<Example 2>

5 and 6, a connection structure of the retaining wall block according to the second embodiment of the present invention and an anchor for supporting the same will be described.

The connecting structure between the retaining wall block and the anchor for supporting the same according to the present embodiment is, in Embodiment 1, the size of the area where the anchor groove 134a includes the anchor holes 132 at the top of the rear wall surface 130. Except that it is formed in one form having the rest of the configuration and operation are the same as in Example 1.

<Example 3>

A connection structure between the retaining wall block and the anchor for supporting the same according to the third embodiment of the present invention will be described with reference to FIGS. 7 and 8.

The retaining wall block of the present embodiment is connected to the anchor for supporting the same. In the above-described embodiment, the entire upper wall of the rear wall 130 of the retaining wall block 100 is anchored to the depth of the anchor groove 134 or 134a. Except that the stage 134b is formed, the rest of the configuration and operation are the same as the above-described embodiments. Although not shown here, the anchor end 134b may be formed at the lower end of the rear wall 130 of the retaining wall block 100 instead of being formed at the upper end of the rear wall surface 130 of the retaining wall block 100.

That is, the anchor end 134b may be formed by cutting the upper or lower end of the rear wall surface 130 including the anchor grooves 134 or 134a.

<Example 4>

A connection structure between the retaining wall block and the anchor for supporting the same according to the fourth embodiment of the present invention will be described with reference to FIG. 9.

The retaining wall block and the anchor structure for supporting the retaining wall block of the present embodiment are anchor grooves 134 or 134a or anchor ends 134b on the rear wall surface 130 of the retaining wall block 100 in the above-described embodiments. Instead of being formed, an anchor groove 136 is formed at the bottom of the rear wall surface 130 of the retaining wall block 100, and the horizontal portion 321 of the tension rod 310 is inserted into the anchor groove 136. In addition, the vertical bending portion 322 of the tension rod 310 is inserted into the hollow of the retaining wall block 100, and the rear bending portion 323 of the tension rod 310 is inserted into the anchor hole 132, thereby the retaining wall block 100 ) And the rest of the configuration and operation are the same as in the first embodiment described above.

Although not shown here, in the present embodiment, the anchor groove 136 may be formed to correspond to each anchor hole 132 as well as the size of an area including the anchor holes 132. Of course, the anchor end can be formed by cutting the entire lower end of the rear wall surface 130 including the groove 136, these should also be included in the present invention.

Example 5

A connection structure between the retaining wall block and the anchor for supporting the same according to the fifth embodiment of the present invention will be described with reference to FIGS. 10 to 12.

In the connection structure between the retaining wall block of the present embodiment and the anchor for supporting the same, the upper end of the retaining wall block communicates with the hollow 110 on the rear wall surface 130 of the retaining wall block 100 instead of the anchor groove in the above-described embodiments. A plurality of anchor slits 138 are formed from below, where three anchor slits are illustrated.

The tension rod 310 constituting the anchor 300 has the same structure as the tension rod having the ring portion 320 in the above-described embodiments. That is, when the tension bar 310 is pulled back while the horizontal portion 321 is inserted into the anchor slit 138 and the vertical bending portion 322 is disposed in the hollow 110, the rear bending portion 323 is formed on the rear wall surface ( 130) will be caught at the bottom.

<Example 6>

A connection structure between the retaining wall block and the anchor for supporting the same according to the sixth embodiment of the present invention will be described with reference to FIGS. 13 and 14.

The retaining wall block of the present embodiment is connected to the anchor for supporting the retaining wall block 100 and the anchor 300 in a structure different from that of the fourth embodiment. That is, in the present embodiment, the tension rod 310 has the same structure as the tension rod having the ring portion 320 in the above-described embodiments, the horizontal portion 321 of the tension rod 310 When the tension bar 310 is pulled back while being disposed at the bottom of the rear wall 130 and the vertical bend 322 is disposed at the hollow 110, the rear bend 323 is inserted into the anchor slit 138 to be caught. do.

In the connection structure between the retaining wall block according to the present invention configured as described above and the anchor for supporting the retaining wall block, the retaining wall construction is simply formed by supporting the retaining wall block by simply hanging the anchor using the tension rod on the rear wall surface of the retaining wall block. In addition to ease of construction, retaining wall construction time can be reduced.

In addition, by employing an anchor using a tension rod, the handling is convenient, and the retaining wall can be constructed at a low construction cost.

In addition, by forming the tip portion of the tension rod in the form of a recessed ring, the retaining wall block can be securely supported so as not to flow, and thus the retaining wall block supporting performance can be improved, and the retaining wall can be prevented from collapsing even after a long period of time.

Claims (6)

A retaining wall block having a hollow penetrating up and down, wherein the retaining wall block is formed to support the retaining wall block by connecting a tension bar constituting the anchor to the retaining wall block formed with at least one anchor hole passing through the hollow wall through the rear wall surface. In the connection structure with the anchor to: At least one anchor groove corresponding to the anchor hole is formed at an upper end or a lower end of a rear wall surface of the retaining wall block; The front end of the tension rod is a ring having a horizontal portion inserted into the anchor groove, a vertical bending portion bent vertically from the horizontal portion disposed in the hollow and a rear bending portion bent backward from the vertical bending portion is inserted into the anchor hole A retaining wall block, characterized in that formed by the portion and the connection structure of the anchor for supporting it. The method of claim 1, A plurality of anchor holes are formed on the rear wall, and the anchor groove is formed on the top or bottom of the rear wall surface of the retaining wall block in a shape having a size of a region including the anchor holes. Connection structure with anchor for supporting. The method according to claim 1 or 2, Retaining wall block and the anchor structure for supporting it, characterized in that the anchor end is formed on the top or bottom of the rear wall by cutting the top or bottom of the rear wall including the anchor groove. The method according to claim 1 or 2, The tension bar is made of any one of reinforcing bars, steel bars or FRP rods, and the outer structure has a plurality of longitudinal protrusion beads and a plurality of circumferential protrusion beads, the retaining wall block and the connection structure of the anchor for supporting them. In a retaining wall block having a hollow penetrating up and down, a retaining wall block configured to support a retaining wall block by connecting a tension rod constituting an anchor to the retaining wall block and an anchor for supporting the retaining wall block: At least one anchor slit is formed on the rear wall of the retaining wall block so as to communicate with the hollow from the top to the bottom; The tip portion of the tension bar is formed of a ring portion having a horizontal portion, a vertical bending portion bent vertically from the horizontal portion and a rear bending portion bent backward from the vertical bending portion, And a retaining wall block and an anchor for supporting the horizontal wall portion being inserted into the anchor slit and having the rear bent portion being caught by the bottom of the rear wall surface of the retaining wall block while the vertical bend portion is disposed in the hollow. In a retaining wall block having a hollow penetrating up and down, a retaining wall block configured to support a retaining wall block by connecting a tension rod constituting an anchor to the retaining wall block and an anchor for supporting the retaining wall block: At least one anchor slit is formed on the rear wall of the retaining wall block so as to communicate with the hollow from the top to the bottom; The tip portion of the tension rod is formed of a ring portion having a horizontal portion, a vertical bending portion bent vertically from the horizontal portion and a rear bending portion bent backward from the vertical bending portion, The retaining wall block and the anchor for supporting the horizontal wall are arranged at the lower end of the rear wall surface of the retaining wall block and the rear bent portion is inserted into the anchor slit while the vertical bent portion is disposed in the hollow. Structure of connection with.