KR20100029934A - The block & construction method for inclined cut embankment - Google Patents

Abstract

PURPOSE: A retaining wall block and a construction method thereof are provided to prevent a retaining wall from collapsing and to prevent damage to the block by using a connection loop and a connection rod. CONSTITUTION: A retaining wall block comprises a connection hole(16), a connection loop(21) and a connection rod(22). The connection hole is formed on front and rear center line position of a block main body(10). The connection loop is oval. The connection loop is inserted to a projection(16-1) of the connection hole. The connection hole is connected to the rear connecting hole(16b) of a bottom block and passes through the front connecting hole(16a) of a top block(100).

Description

Slope cut retaining wall block and construction method {THE BLOCK & CONSTRUCTION METHOD FOR INCLINED CUT EMBANKMENT}

The present invention relates to a slope cut retaining wall block and a construction method, and more particularly, to stack soil so as to firmly prevent loss of soil from large rivers, lakes, slopes around the seawall, slopes of roads, slopes in apartment complexes, and the like. Reinforced left and right cohesion while coping with gradient in various ways and solidly binding three-stage inclined retaining wall block layer with connecting ring and connecting rod to connecting hole to prevent collapse of retaining wall construction It relates to a slope cut retaining wall block and its construction method.

In general, retaining walls to prevent natural disasters are installed on the slopes of roads and apartment complexes that are concerned with collapse among civil engineering structures. The unit blocks constituting the retaining walls constructed in this way are called retaining wall blocks. Type retaining wall blocks and inclined stacked retaining wall blocks.

1 and 2 are a perspective view and a laminated cross-sectional view of a state of the retaining wall block according to the prior art, and as shown in the drawing, the "retaining wall block" is an inclined laminated vegetation block, and the patent registration number 10-581171 (2006.05.11) It is a patent registration, the connecting rod 22 'is inserted into the front connecting hole (16'a) of the upper block (100') to the rear connecting hole (16'b) of the straight down stop block (100'-1) To install. Therefore, the "retaining wall block" is intended for planting herbs and grasses, which are complicated in shape and have many problems in production and transportation. There is a problem that the connection strength of the block is somewhat weak because it is connected only.

Therefore, the conventional "retaining wall block", as described above, causes displacement by the earth pressure of the backfilled reinforcement soil, which causes a problem of breakage of the protruding jaw. Such breakage of the protruding jaw leads to collapse of the retaining wall, resulting in a risk of safety accident. Will cause problems. In addition, the structure of the conventional "retaining wall block" as described above is the gap between the block and the block due to the earth pressure of the backfilled reinforcement soil because the coupling of the adjacent block and the block and the solid coupling state between the lower layer block and the upper layer block is not maintained. Problems arise and the risk of collapse always follows.

The present invention for solving the above problems is easy to manufacture and transport by forging the shape of the slope cut retaining wall block, and also to minimize the risk of block damage, as well as solidify the binding between the upper and lower blocks in three stages, The purpose of the present invention is to provide a solid slope cut retaining wall block having a simple shape and a construction method thereof, which can prevent the collapse of the retaining wall construction by solidly binding the retaining wall block by constructing the binding stack between the left and right blocks.

In order to achieve the above object, the present invention provides a block for a retaining wall in which a plurality of connection holes 16 for inserting the connection portion 20 into the block body 10 penetrate at regular intervals. It is provided at the front and rear center line position of, the upper part is a large oval with a stepped portion 16-1 on the inside, the lower portion is a connecting hole 16 formed of a small oval; An elliptical connecting ring 21 inserted into the step 16-1 of the connecting hole 16; A connecting rod 22 penetrating the front connecting hole 16a of the connecting ring 21 and the upper block 100 and connected to the rear connecting hole 16b of the lower block 100-2 of the lower part; It is composed.

In addition, the construction method includes a slope construction step (stage 1) for slope cutting and slope stability construction according to a design gradient; A lower block construction step (second step) of installing the foundation curing and the lower block 100-2 of the foundation concrete; An interruption block construction step (third step) of stacking the interruption block 100-1 on the lower block 100-2 with a design slope; An upper block construction step (fourth step) of vertically stacking the upper block 100 on the middle block 100-1 with the lower block 100-2 with a design slope; A block binding step (fifth step) of binding the block body 10 and the connection part 20 after the backfill installation and the compaction construction; It comprises a; finish construction step (sixth step) to finish by repeating the stop block construction step (third step) and the top block construction step (fourth step) on the upper block (100).

The present invention provided as described above is simple in shape, high in productivity, economical as well as less risk of damage, the construction method is simple, winter construction is also possible. By solidly binding the block for slope cut retaining wall to the connection portion to prevent damage or collapse of the retaining wall, there is an effect that the maintenance is convenient.

3 is a perspective view of a block cut retaining wall block according to the present invention, FIG. 4 is a perspective view of a block cut stack for a slope cut retaining wall according to the present invention, FIG. 5 is a plan view of FIG. Figure 6 is a vertically stacked perspective view of the block cut retaining wall of the present invention, Figure 7 is a plan view of Figure 6, Figures 8a, 8b and 8c is a plan view, a rear view and a side view of the block body, Figure 9a, Figure 9b and 9c are a plan view, a rear view and a side view of the connecting ring, and FIG. 10 is a flowchart showing the construction method of the present invention.

First, as shown in FIG. 3, all the blocks for the slope cut retaining wall of the present invention have a constant shape, so that the upper block 100 will be described. The link ring 21 and the connecting rod 22 are formed inside the block body 10. The plurality of connection holes 16 into which the connection part 20 is inserted are composed of the front connection hole 16a and the rear connection hole 16b in the same shape so that the upper and lower portions pass through the front and rear center line positions of the block body 10. It is provided, the upper portion is a large oval formed with a stepped (16-1) on the inside, the lower portion is formed of a small oval formed of a different size of the upper and lower, the stepped (16-1) of the connection hole 16 An inner oval connecting ring 21 is inserted into the inside thereof, and the connecting rod 22 is inserted into the eccentric hole 21-1 of the connecting ring 21.

4 to 5, when the slope retaining wall construction of the slope cut retaining wall block of the present invention, the connecting rod 22 is a connecting ring 21 inserted into the front connecting hole (16a) of the upper block 100 Through and through the interruption blocks (100-1) on both sides of the stacked bottom through the rear connecting hole (16b) of the lower block (100-2) of the lower part of the insert and the connection. However, it is possible to solidify the blocks, while at the same time enabling the construction of slope walls (0.3 m horizontal distance and 30% slope vertical distance of 1.0 m or less). Here, by adjusting the insertion position of the connecting ring 21 and the connecting rod 22 can be installed by adjusting the retaining wall inclination with a standardized block, the connecting ring 21 connects the connecting rod 22 into the connecting hole 16. Keep tight

6 to 7, when the vertical retaining wall construction of the slope cut retaining wall block of the present invention, the connecting rod 22 is a connecting ring 21 inserted into the rear connecting hole 16b of the upper block 100 Through and through the stop block (100-1) of the lower both sides of the stacked through the rear connection hole (16b) of the lower block (100-2) of the lower portion of the three stages of the upper and lower construction by inserting and connecting The blocks are firmly bound and at the same time, it is possible to construct a retaining wall with a small slope (horizontal distance of 0.02m and vertical distance of less than 1.0m 2%). The connecting rod 22 may be connected to the front connecting hole 16a of the upper block 100 and the front connecting hole 16a of the lower block 100-2 as necessary.

As shown in FIGS. 8A to 8C, the shape of the block body 10 is a trapezoidal rectangular parallelepiped shape as a whole, and the upper surface 11 and the lower surface 11-1 are trapezoidal in shape, and the front surface 12 and the rear surface 12- 1) and the left side 13 and the right side 13-1 are rectangular in shape, and the block body 10 in the embodiment of the present invention has a front and rear length L of 500 mm and a height H of 400 mm. The width W of the front is 400 mm and the width w of the back is 197 mm. The oval formed on the upper portion of the connecting hole 16 has a length of 64mm long, a length of short axis d is 44mm, the height h of the step 16-1 is 25mm, The long axis S of the small elliptical hole formed to penetrate to the lower part is 40 mm, and the length of the short axis s is 20 mm. In addition, as the shape of another embodiment according to various changes of the place to be installed, the front and rear length and height and the shape of the connection hole is the same, but the front of the block body formed with a width of 500mm and 320mm, the back of the width 297mm and 117mm, etc. Can also be installed.

As shown in FIGS. 9A to 9C, the connecting ring 21 inserted into the upper portion of the connecting hole 16 to closely contact the connecting rod 22 to the connecting hole 16 has an eccentric hole 21-1. The length of the long axis (a) and the short axis (b) is 60mm and 40mm, the height (c) is 20mm, the eccentric hole (21-1) is the diameter (r) in a circle starting from the middle around the long axis (a) ) Is 20 mm. In addition, the length F of the connecting rod 22 inserted into the eccentric hole 21-1 of the connecting hole 16 is 1200 mm corresponding to three times the height H of the block body 10, and the diameter ( f) is 19 mm smaller than the diameter r of the eccentric hole 21-1.

The material of the connection hole 16 is a synthetic resin material that is resistant to impact and has little deformation due to tension and compression, and is preferably made of Surlyn of plastic material, and the material of the connection rod 22 is made of steel having high tensile strength. It is desirable to.

And, as shown in Figure 10, the present invention for achieving the above object is a slope construction and slope stability construction according to the design gradient (first step) according to the design gradient as in the conventional construction method; A lower block construction step (second step) of installing a lower block 100-2 into which the pouring curing and connecting ring 21 of the foundation concrete is inserted; A stop block construction step (third step) of stacking the stop block 100-1 on the bottom block 100-2 with a design slope; Insert the connecting rod 22 into the rear connecting hole (16b) of the lower block (100-2) and after the backfill installation and compaction construction, the upper block 100, the connecting ring 21 is inserted into the stop block (100-) 1) the upper block construction to be vertically stacked on the lower block 100-2 and the design inclination to be connected to the connecting rod 22 of the lower block (100-2) and the front connecting hole (16a) of the upper block (100) Step (fourth step); After the upper block construction (corresponding to the third step) by stacking on the upper block 100 in the same manner, inserting the connecting rod 22 into the rear connecting hole 16b of the upper block 100 and laid back filling And a block binding step (fifth step) for connecting the connecting rod 22 of the upper block 100 and the front connecting hole 16a of the upper block after the compaction construction. It is characterized in that it comprises a; finishing step (sixth step) to finish by repeating the block binding step (the fifth step).

1 is a perspective view of an embodiment of a retaining wall block according to the prior art;

FIG. 2 is a cross sectional view of FIG. 1.

Figure 3 is a perspective view of a block cut retaining wall of the present invention,

Figure 4 is a perspective view of the slant laminated block slope retaining wall of the present invention,

5 is a plan view of FIG.

Figure 6 is a perspective view of vertically stacked block cut retaining wall of the present invention,

7 is a plan view of FIG. 6;

8A, 8B and 8C are plan, rear and side views of the block body;

9A, 9B and 9C are top, rear and side views of the connecting ring,

10 is a flowchart showing a construction method of the present invention.

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

10: block main body 11: upper surface 11-1: lower surface

12: Front 12-1: Rear 13: Left side

13-1: Right side 16: Connector 16a, 16'a: Front connector

16b, 16'b: rear connection hole 16-1: step 20: connection

21: connecting ring 21-1: eccentric hole 22, 22 ': connecting rod

100, 100 ': Upper block 100-1, 100'-1: Interrupt block

100-2, 100'-2: Lower block

L: Length before and after (main body) H: Height (main body) W, w: Width (main body)

Claims (15)

In the retaining wall block formed so that a plurality of connecting holes 16 for inserting the connecting portion 20 into the block body 10 at regular intervals, It is provided at the front and rear center line position of the block body 10, the upper portion is a large oval having a stepped portion 16-1 on the inside, the lower portion of the connecting hole 16 formed of a small oval; An elliptical connecting ring 21 inserted into the step 16-1 of the connecting hole 16; The connecting rod 22 is connected to the connecting ring 21 of the lower block 100-2 installed in the lower part through the connecting ring 21 of the upper block 100 stacked by stacking; Slope cut retaining wall blocks The method of claim 1, wherein the connecting rod 22 is connected to the front connecting hole (16a) of the upper block 100 and the rear connecting hole (16b) of the lower block (100-2) during construction of the inclined retaining wall Slope cut retaining wall blocks The method of claim 1, wherein the connecting rod 22 is connected to the rear connecting hole (16b) or the front connecting hole (16a) of the upper block 100 and the lower block (100-2) when the vertical retaining wall construction. Slope cut retaining wall blocks The method of claim 1, The upper and lower surfaces 11 and 11-1 of the block body 10 have a trapezoidal shape, and the front and rear surfaces 12 and 12-1 and the left and right sides 13 and 13-1 have a rectangular shape. Slope cut retaining wall blocks The block for slope cut retaining wall according to claim 1, wherein the connecting ring 21 is provided with an eccentric hole 21-1. The block for slope cut retaining wall according to claim 1 or 5, wherein the connecting ring (21) is made of a synthetic resin material. The block for slope cut retaining wall according to any one of claims 1 to 3, wherein the connecting rod 22 is made of steel. Slope construction and slope stability construction according to the design gradient (first stage); A lower block construction step (second step) of installing a lower block 100-2 into which the pouring curing and connecting ring 21 of the foundation concrete is inserted; An interruption block construction step (third step) of stacking the interruption block 100-1 on the lower block 100-2; Insert the connecting rod 22 into the rear connecting hole (16b) of the lower block (100-2) and after the back filling installation and compaction construction, the upper block 100 into which the connecting ring 21 is inserted into the lower block (100-) 2) and the upper block construction step (fourth step) to be connected to the connecting rod 22 of the lower block (100-2) and the front connecting hole (16a) of the upper block 100 by vertically stacking with a design slope; After the upper block construction (corresponding to the third step) by stacking on the upper block 100 in the same manner, inserting the connecting rod 22 into the rear connecting hole 16b of the upper block 100 and laid back filling And a block binding step (fifth step) for connecting the connecting rod 22 of the upper block 100 and the front connecting hole 16a of the upper block after the compaction construction. Construction method of the slope cut retaining wall block comprising a; a finishing construction step (sixth step) to finish by repeating the block binding step (fifth step); According to claim 8, The block body 10 is provided at the front and rear center line position of the block body 10, the upper part is a large oval formed with a stepped 16-1 on the inside, the lower is a small oval connecting hole ( 16 and the lower part of the vehicle through the connecting ring 21 of the elliptical connecting ring 21 inserted into the step 16-1 of the connecting hole 16 and the upper block 100 stacked in a stack. Construction method of the slope cut retaining wall block, characterized in that it comprises a connecting rod 22 connected to the connecting ring 21 of the lower block 100-2 installed in The connecting rod 22 is connected to the front connecting hole (16a) of the upper block 100 and the rear connecting hole (16b) of the lower block (100-2) during construction of the inclined retaining wall Slope cut retaining wall blocks 10. The method of claim 9, wherein the connecting rod 22 is connected to the rear connecting hole (16b) or the front connecting hole (16a) of the upper block 100 and the lower block (100-2) when the vertical retaining wall construction Slope cut retaining wall block The upper and lower surfaces 11 and 11-1 of the block body 10 have a trapezoidal shape, and the front and rear surfaces 12 and 12-1 and the left and right surfaces 13 and 13-1 are respectively defined. Construction method of the slope cut retaining wall block, characterized in that the rectangular shape The method of claim 9, wherein the connecting ring 21 is provided with an eccentric hole 21-1.       10. The method of claim 9, wherein the connecting ring 21 is a synthetic resin material.  The method of constructing a block for slope cut retaining wall according to any one of claims 9 to 11, wherein the connecting rod 22 is made of steel.

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