KR102237699B1 - construction structure of reinforced earth wall using reinforcing strip and the method thereof - Google Patents

Abstract

The present invention relates to a reinforced earth retaining wall construction structure using a band-shaped stiffener of a new structure with improved strength, and a construction method thereof. The reinforced earth retaining wall construction structure of the present invention comprises: a retaining wall body (B) formed by stacking a plurality of retaining wall blocks (10); a band-shaped stiffener (C) having a front end fixed to the retaining wall body (B); and a reinforced earth (D) filled between a cut part (A) and the retaining wall body (B).

Description

Construction structure of reinforced earth wall using reinforcing strip and the method thereof

The present invention relates to a construction structure and a construction method for a reinforced soil retaining wall using a new structured strip-shaped reinforcing material that is easy to construct and has improved strength.

In general, a retaining wall is installed in the cut portion formed during civil works to prevent the cut portion from collapsing.

1 shows the construction structure of such a reinforced soil retaining wall, a retaining wall body (B) constructed by stacking a plurality of retaining wall blocks 10 so as to be spaced apart in front of the cut portion (A), and a front end portion of the retaining wall body (B ), and a reinforcing soil (D) filled between the cut portion (A) and the retaining wall body (B).

The retaining wall block 10 is made of a concrete material, and as shown in FIG. 2, a hook groove 11 for fastening and fixing the strip-shaped stiffener C is formed in a concave upper surface.

The hook groove 11 is configured such that both ends are opened to the rear side of the retaining wall block 10.

The belt-shaped reinforcement (C) is composed of a strip of high-strength polyester material, and is arranged to extend in the front and rear direction, so that the front end is inserted into the hook groove (11), and the rear end is installed to be buried in the reinforcement soil (D). do.

Therefore, after the retaining wall block 10 is disposed and the band-shaped stiffener (C) is coupled to the retaining wall block 10, the height of the retaining wall block 10 is between the cut portion A and the retaining wall block 10. By repeating the process of filling the reinforcing soil (D), the retaining wall can be constructed.

By the way, according to the construction structure of the cutting part (A) reinforcing retaining wall, in order to install the band-shaped stiffener (C), the band-shaped stiffener (C) must be inserted into the hook groove 11 of the retaining wall block 10, There was a problem that the work was very cumbersome.

In addition, since the strip-shaped stiffener (C) is separately coupled to each retaining wall block 10, when earth pressure is intensively applied to the retaining wall block 10 on one side, it is difficult to effectively support the retaining wall block 10. .

Therefore, there is a need for a new method to solve this problem.

Patent Publication No. 10-2019-0022240,

An object of the present invention is to provide a construction structure and a construction method for a reinforced soil retaining wall using a new structured band-shaped reinforcement material that is easy to construct and has improved strength, as to solve the above problems.

The present invention for achieving the above object is a retaining wall body (B) configured by stacking a plurality of retaining wall blocks 10 to be spaced apart from the front of the cut section (A), and a front end portion fixed to the retaining wall body (B). In the reinforced soil retaining wall construction structure using a band-shaped reinforcement material (C) and a reinforced soil (D) filled between the cut portion (A) and the retaining wall body (B), the retaining wall block 10 is a block The main body 12, the extension part 13 provided to extend rearward from both sides of the rear side of the block body 12, and a pair of protrusions extending upward from the upper surface of the rear end of the extension part 13 ( 14), wherein the fixing protrusion 12a is formed to protrude upward on both sides of the upper surface of the block body 12, and the insertion groove into which the fixing protrusion 12a is inserted into the lower surface of the block body 12 (12b) is formed to extend in the lateral direction, each retaining wall block 10 is arranged to form a row in the lateral direction, and the retaining wall block 10 located at the upper side is a retaining wall in which the extension 13 is located at the lower side The fixing protrusions 12a formed in the retaining wall block 10 on the lower side are formed to be inserted into the insertion groove 12b while being staggered in the lateral direction so as to be positioned between the extension parts 13 of the block 10, and the strip-shaped stiffener ( C) is a fixed portion 21 caught on the front circumference of the protruding portion 14 of the block body 12, an arc-shaped passive resistance portion 22 embedded in the reinforcement soil D, and the fixed portion Arranged in a zigzag shape to have a frictional resistance part 23 connecting the 21 and the passive storage part, the fixing part 21 is of the protrusion 14 formed on the retaining wall block 10 disposed to be adjacent to each other in the lateral direction. A reinforced soil retaining wall construction structure using a strip-shaped reinforcement material is provided, which is disposed so as to pass through the circumferential surface.

According to another feature of the present invention, further comprising a cover member (E) coupled to the upper end of the retaining wall body (B), the cover member (E) is configured in the form of a square block extending in the lateral direction and the lower side There is a cover body 31 formed so that the auxiliary insertion groove 31a into which the fixing protrusion 12a is inserted extends in the lateral direction, and a pair of auxiliary extensions extending from the upper side of the rear side of the cover body 31 to the rear. A reinforced soil retaining wall construction structure using a strip-shaped reinforcement material comprising a portion 32 is provided.

According to another feature of the present invention, a first cylinder member 41 configured in a cylindrical shape extending in the vertical direction and fixed to be buried in the upper surface of the fixing protrusion 12a and having a through hole 41a formed on the upper surface thereof, It is coupled to the inside of the first cylinder member 41 so as to be liftable and pressurized upward by the first elastic member 44, and a fixing pin 43 extending upward through the through hole 41a is provided on the upper surface. The piston member 42 and the intake pipe 45 extending from the lower side of the first cylinder member 41 to the front of the retaining wall block 10, and the front end of the intake pipe 45 are provided. When air is sucked into the intake pipe 45, a sound generating means 46 for generating sound, and a cylindrical shape extending in the vertical direction, are positioned at the rear of the first cylinder member 41, and the retaining wall block A connection pipe connecting the second cylinder member 47 and the first and second cylinder members 47, which are fixed to be buried in the upper surface of the block body 12 of (10) and have a through hole 47a formed on the upper surface thereof. (48), and is provided to be slidable in the front-rear direction inside the connection pipe (48), and when the second elastic member (51) slides forward, the front end portion passes through the first cylinder member (41) A fixing bar 49 which is extended to the inside of the cylinder member 41 and fixed to the upper end of the lowered piston member 42 so that the piston member 42 does not rise, and a fixing bar connected to the fixing bar 49 A second elastic member 51 for elastically pressing the 49 to slide forward, a push bar 52 coupled to the inside of the second cylinder member 47 so as to be elevating, and the push bar 52 ) Connected to the push bar 52 to press the push bar 52 upwardly, and a cam pin 49a extending in the lateral direction is provided at the rear end of the fixing bar 49, and the At the lower end of the push bar 52, a home cam 52a to which the cam pin 49a is coupled is formed, and the home cam 52a is configured such that the front side is inclined upward and backward, and the insertion groove of the retaining wall block 10 ( In 12b), the fixing pin 43 The fixing hole 12c is formed to extend upward, and when the push bar 52 is pressed downward, the cam pin 49a is pulled rearward by the front surface of the home cam 52a, and the fixing bar 49 By retreating to the rear to release the fixing of the piston member 42, the piston member 42 is raised by the first elastic member, and the fixing pin 43 of the piston member 42 is provided on the upper side. While being inserted and fixed in the fixing hole 12c formed in the retaining wall block 10, external air is introduced into the inside of the first cylinder member 41 through the intake pipe 45 and passes through the sound generating means 46. A reinforced soil retaining wall construction structure using a strip-shaped reinforcement material, characterized in that it is designed to generate sound, is provided.

According to another feature of the present invention, as a method of constructing the reinforced soil retaining wall construction structure using the reinforcing material shown in paragraphs 1 to 3, the retaining wall block 10 is laterally opened so as to be spaced apart from the front of the cut part (A). An arrangement step of arranging to achieve a, a filling step of filling reinforcement soil between the retaining wall block 10 and the cut portion (A), and the retaining wall block 10 arranged to be adjacent to each other in the lateral direction of the strip-shaped stiffener (C) ) To pass through the circumferential surface of the protrusion 14, so that the band-shaped stiffener (C) is applied to the fixing portion 21 and the reinforcing soil (D) that are caught in the front circumference of the protrusion 14 of the block body 12. By repeating the step of arranging the strip-shaped stiffener to be arranged in a zigzag shape having an arc-shaped passive resistance part 22 embedded therein and a frictional resistance part 23 connecting the fixing part 21 and the passive storage part, the retaining wall Reinforced soil retaining wall construction, characterized in that when the height of the retaining wall body (B) composed by red tide of the block (10) reaches a predetermined height, the cover member (E) is coupled to the upper end of the retaining wall body (B) to complete the construction. A method is provided.

Reinforced soil retaining wall construction structure using a strip-shaped reinforcement according to the present invention includes the retaining wall block 10 with a block body 12, an extension part 13 provided to extend rearward from both sides of the rear side of the block body 12, and , Consisting of a pair of protrusions 14 extending upward from the upper end of the rear end of the extension 13, fixing protrusions 12a are formed to protrude upward on both sides of the upper surface of the block body 12, On the lower side of the block body 12, an insertion groove 12b into which the fixing protrusion 12a is inserted is formed to extend in the lateral direction, and each retaining wall block 10 is arranged to form a row in the lateral direction, The retaining wall block 10 located on the upper side is formed on the retaining wall block 10 on the lower side while being staggered in the lateral direction so that the extension part 13 is located between the extension parts 13 of the retaining wall block 10 located on the lower side. The fixing protrusion (12a) is built to be inserted into the insertion groove (12b), and the strip-shaped stiffener (C) has a fixing part 21 that is caught on the front circumference of the protrusion part 14 of the block body 12, and the reinforcing soil ( D) is arranged in a zigzag form to have an arc-shaped passive resistance part 22 embedded in the interior of the arc-shaped passive resistance part 22 and a frictional resistance part 23 connecting the fixing part 21 and the passive storage part, and the fixing part 21 Are disposed so as to pass through the circumferential surface of the protrusions 14 formed in the retaining wall blocks 10 disposed to be adjacent to each other in the lateral direction.

Therefore, the retaining wall block 10 positioned in the vertical direction is not only firmly fixed to each other by the fixing protrusion 12a and the insertion groove 12b, but also the retaining wall block (C) adjacent to each other in the lateral direction. 10), when the earth pressure is applied to the retaining wall block 10, the pressure is distributed to the retaining wall block 10 located in the lateral direction, so that the retaining wall block 10 can effectively support the earth pressure. There is an advantage.

1 is a side cross-sectional view showing the construction structure of a reinforced soil retaining wall using a conventional band-shaped reinforcement,
2 is a plan view showing a retaining wall block of a reinforced soil retaining wall construction structure using a conventional band-shaped reinforcement material,
Figure 3 is a side cross-sectional view showing the construction structure of a reinforced soil retaining wall using a band-shaped reinforcement according to the present invention,
Figure 4 is a perspective view showing a retaining wall block of the reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention,
5 is a plan view showing a retaining wall block of a reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention,
6 and 7 are perspective views showing the retaining wall body of the reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention,
8 is a plan view showing a state in which the band-shaped stiffener of the reinforced soil retaining wall construction structure using the band-shaped stiffener according to the present invention is combined;
9 is a perspective view showing a retaining wall block of a second embodiment of a reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention,
10 is a side cross-sectional view showing a second embodiment of a reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention,
11 is a plan view showing a retaining wall block of a second embodiment of a reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention;
12 is a side cross-sectional view showing an enlarged main part of a second embodiment of a reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention;
13 to 16 are reference views showing the operation of the second embodiment of the reinforced soil retaining wall construction structure using a band-shaped reinforcement according to the present invention.

Hereinafter, the present invention will be described in detail on the basis of the accompanying exemplary drawings.

3 to 8 show a reinforced soil retaining wall construction structure using a strip-shaped reinforcement according to the present invention, and a retaining wall body (B) constructed by stacking a plurality of retaining wall blocks 10 to be spaced apart from the front of the cut section (A) and It is the same as in the prior art that the front end is composed of a band-shaped stiffener (C) fixed to the retaining wall body (B), and a reinforcing soil (D) filled between the cut portion (A) and the retaining wall body (B).

And, according to the present invention, the retaining wall block 10 is an extension provided to extend rearward from both sides of the block body 12 and the rear side of the block body 12, as shown in FIGS. 4 to 7 It consists of a portion 13 and a pair of protrusions 14 extending upward from the upper surface of the rear end of the extension portion 13.

In addition, the fixing protrusion 12a is formed to protrude upward on both sides of the upper surface of the block body 12, and the insertion groove 12b into which the fixing protrusion 12a is inserted is formed on the lower side of the block body 12. It is formed to extend in the lateral direction, and as shown in FIG. 3, when the retaining wall block 10 is constructed to be stacked in the vertical direction, the fixing protrusion 12a of the retaining wall block 10 located at the lower side is located at the upper side. It is inserted into the insertion groove 12b of the retaining wall block 10 so that the retaining wall blocks 10 positioned in the vertical direction are firmly coupled to each other.

On the other hand, when constructing the retaining wall block 10 so as to be coupled in the vertical direction, as shown in FIGS. 6 and 7, each retaining wall block 10 is disposed to form a row in the lateral direction, and is located on the upper side. The retaining wall block 10 is built to be staggered in the lateral direction so that the extension part 13 is located between the extension parts 13 of the retaining wall block 10 located at the lower side.

That is, the retaining wall block 10 positioned at the upper side is constructed to be positioned between the retaining wall blocks 10 positioned at the lower side.

In addition, the band-shaped stiffener (C) is, as shown in Figs. 3 and 8, the block body 12, the fixing portion 21 caught on the front circumferential portion of the protrusion 14, and the inside of the reinforcing soil (D) It is arranged in a zigzag shape to have an arc-shaped passive resistance part 22 embedded in the and a frictional resistance part 23 connecting the fixing part 21 and the passive storage part.

At this time, the belt-shaped stiffener (C) has a thin fold portion 24 formed in the middle portion, and the fixing portion 21 is a protrusion 14 formed on the retaining wall block 10 disposed to be adjacent to each other in the lateral direction. It is arranged so as to pass through the circumferential surface of.

In addition, a cover member (E) is coupled to the upper end of the retaining wall main body (B) configured by red tide of the retaining wall block (10).

The cover member (E) is composed of a square block shape extending in the lateral direction, as shown in FIGS. 3 and 6, and an auxiliary insertion groove (31a) into which the fixing protrusion (12a) is inserted A cover body 31 formed to extend in the lateral direction, and a pair of auxiliary extensions 32 extending rearward from the rear side of the cover body 31, the retaining wall block 10 located at the top ) Is bonded to the top surface of.

The reinforced soil retaining wall construction structure using a band-shaped reinforcement structure configured as described above includes the retaining wall block 10 having a block body 12 and an extension part 13 provided to extend rearward from both sides of the rear side of the block body 12, Consisting of a pair of protrusions 14 extending upward from the upper end of the rear end of the extension 13, fixing protrusions 12a are formed to protrude upward on both sides of the upper surface of the block body 12, and the On the lower side of the block body 12, the insertion groove 12b into which the fixing protrusion 12a is inserted is formed to extend in the lateral direction, and each retaining wall block 10 is arranged to form a row in the lateral direction, and the upper side The retaining wall block 10 located at is staggered in the lateral direction so that the extension part 13 is positioned between the extension parts 13 of the retaining wall block 10 located at the lower side, and is formed on the retaining wall block 10 at the lower side. The protrusion 12a is built to be inserted into the insertion groove 12b, and the band-shaped stiffener (C) includes a fixing portion 21 that is caught on the front circumference of the protrusion 14 of the block body 12, and the reinforcement soil D ) Is disposed in a zigzag form to have an arc-shaped passive resistance part 22 embedded in the interior of the arc-shaped passive resistance part 22 and a frictional resistance part 23 connecting the fixing part 21 and the passive storage part, and the fixing part 21 It is disposed so as to pass through the circumferential surface of the protrusions 14 formed in the retaining wall blocks 10 disposed to be adjacent to each other in the lateral direction.

Therefore, the retaining wall block 10 positioned in the vertical direction is not only firmly fixed to each other by the fixing protrusion 12a and the insertion groove 12b, but also the retaining wall block (C) adjacent to each other in the lateral direction. 10), when the earth pressure is applied to the retaining wall block 10, the pressure is distributed to the retaining wall block 10 located in the lateral direction, so that the retaining wall block 10 can effectively support the earth pressure. There is an advantage.

In addition, the cover member (E) is coupled to the upper end of the retaining wall body (B), by covering the upper end of the retaining wall body (B), there is an advantage of improving the design of the upper end of the retaining wall block (10).

9 to 16 show another embodiment according to the present invention, which is configured in a cylindrical shape extending in the vertical direction and is fixed to be buried in the upper surface of the fixing protrusion 12a, and a through hole 41a is formed on the upper surface. The first cylinder member 41 is coupled to the inside of the first cylinder member 41 so as to be liftable and pressurized upwardly by the first elastic member 44, and the through hole 41a on the upper surface thereof is upwardly pressed. A piston member 42 provided with an extended fixing pin 43, an intake pipe 45 extending from a lower side of the first cylinder member 41 to the front of the retaining wall block 10, and the intake pipe A sound generating means 46 provided at the front end of the intake pipe 45 to generate sound when air is sucked into the intake pipe 45, and the first cylinder member 41 having a cylindrical shape extending in the vertical direction. A second cylinder member 47 positioned at the rear of the retaining wall block 10 and fixed to be buried in the upper surface of the block body 12 of the retaining wall block 10 and having a through hole 47a formed on the upper surface thereof, and the first and second cylinders The connecting pipe 48 connecting the member 47 and the connecting pipe 48 are provided to be slidable in the front and rear direction, and when the second elastic member 51 slides forward, the front end portion of the first cylinder A fixing bar 49 that penetrates through the member 41 and extends to the inside of the first cylinder member 41 and is caught on the upper end of the lowered piston member 42 so that the piston member 42 does not rise, and the fixing A second elastic member 51 connected to the bar 49 to elastically press the fixed bar 49 to slide forward, and a push bar ( 52), and a third elastic member 53 connected to the push bar 52 to press the push bar 52 upwardly.

A through hole 41b corresponding to the height of the upper surface of the piston member 42 is formed on the rear side of the first cylinder member 41 when the piston member 42 is lowered, and the second cylinder member 47 A communication hole (47b) corresponding to the through hole (41b) is formed on the front surface of the connector, and the connection pipe (48) is formed so that the front and rear ends connect the through hole (41b) and the communication hole (47b).

The piston member 42 extends in the vertical direction and has a cylindrical shape with an open lower end.

The first elastic member 44 uses a compression coil spring provided on the lower side of the piston member 42, as described later, by the fixing bar 49 while the piston member 42 is lowered. When the fixing is released, the piston member 42 is allowed to rise.

Accordingly, when the piston member 42 lowered by the first elastic member 44 is raised, external air is forcibly sucked into the inside of the first cylinder member 41 through the intake pipe 45.

The sound generating means 46 is provided inside the front end of the intake pipe 45 and generates a sound when external air is sucked into the intake pipe 45, and has a structure such as a general flute.

The fixing bar 49 is configured such that when the front end portion is extended into the inside of the first cylinder member 41 through the through hole 41a and the piston member 42 is lowered, the front end portion is caught on the upper surface of the piston member 42 And, the rear end extends into the inside of the second cylinder member 47 through the communication hole.

At this time, a cam pin 49a extending laterally is provided at a rear end of the fixing bar 49, and a home cam 52a to which the cam pin 49a is coupled is formed at a lower end of the push bar 52.

The home cam 52a is configured such that the front side is inclined upward and backward, and when the push bar is lowered, the cam pin 49a is pulled rearward according to the inclination of the front side of the home cam 52a, so that the fixing bar 49 To retreat backwards.

In addition, in the insertion groove 12b of the retaining wall block 10, a fixing hole 12c corresponding to the fixing pin 43 is formed to extend upward.

The operation of the construction structure of the reinforced soil retaining wall using the strip-shaped reinforcing material configured as described above is as follows.

First, as shown in FIG. 12, when the piston member 42 is lowered, the fixing bar 49 is caught on the upper surface of the piston member 42 and fixed so that the piston member 42 does not rise.

At this time, the push bar 52 maintains a state in which an upper end protrudes toward the upper surface of the retaining wall block 10.

And, as shown in Figs. 13 and 14, the operator couples the other retaining wall block 10 to the upper surface of the retaining wall block 10, so that the fixing protrusion 12a of the lower retaining wall block 10 is the upper retaining wall When inserted into the insertion groove 12b of the block 10, the push bar 52 is pressed downward by the lower side of the retaining wall block 10 on the upper side.

Accordingly, as shown in Fig. 14, the fixing bar 49 slides backward by the action of the home cam 52a and the cam pin 49a, and the fixing of the piston member 42 is released, and is shown in Fig. 15. As described above, the piston member 42 is raised, and the fixing pin 43 provided on the piston member 42 protrudes upward from the fixing protrusion 12a.

At this time, when the fixing pin 43 and the fixing hole 12c coincide, the fixing pin 43 is further raised and inserted into the fixing hole 12c, so that the retaining wall block 10 located on the upper side is lateral It is combined so that it cannot flow into.

On the other hand, when the piston member 42 is raised, as shown in FIG. 16, external air is introduced into the inside of the first cylinder member 41 through the intake pipe 45, and the external air generates sound. As a result of passing through the means 46, sound is generated in the sound generating means 46.

Accordingly, the operator can audibly confirm that the fixing pin 43 is inserted into the fixing hole 12c.

According to the reinforced soil retaining wall construction structure using the strip-shaped reinforcing material configured as described above, when the retaining wall block 10 is constructed to be stacked in the vertical direction, the fixing pin 43 is a fixing hole 12c of the retaining wall block 10 located on the upper side. Inserted into, by making the retaining wall blocks 10 located on the upper and lower sides are more firmly coupled, there is an advantage that the strength of the retaining wall body (B) is more solid.

In particular, since the fixing pin 43 is lowered normally and protrudes upward only when the retaining wall block 10 is stacked, it is possible to prevent the fixing pin 43 from being bent when the retaining wall block 10 is transported. There is an advantage.

In particular, when the fixing pin 43 is raised upward and inserted into the fixing hole 12c, the sound is generated from the sound generating means 46, so that the fixing pin 43 is inserted into the fixing hole 12c. There is an advantage that the operator can accurately check.

A. Cut section B. Retaining wall body
10. Retaining wall block C. Band type stiffener
D. Reinforced soil E. Cover member

Claims (4)

A retaining wall body (B) constructed by stacking a plurality of retaining wall blocks (10) to be spaced apart in front of the cut section (A), and
A belt-shaped stiffener (C) with a front end portion fixed to the retaining wall body (B),
In the reinforced soil retaining wall construction structure using a strip-shaped reinforcement material including the reinforcement soil (D) filled between the cut portion (A) and the retaining wall body (B),
The retaining wall block 10 is
With the block body 12,
Extensions 13 provided to extend rearward from both sides of the rear side of the block body 12,
It includes a pair of protrusions 14 extending upward from the upper surface of the rear end of the extension 13,
Fixing protrusions 12a are formed on both sides of the upper surface of the block body 12 so as to protrude upward,
On the lower side of the block body 12, an insertion groove 12b into which the fixing protrusion 12a is inserted is formed to extend in the lateral direction,
Each retaining wall block 10 is arranged to form a row in the lateral direction, and the retaining wall block 10 located on the upper side is between the extension part 13 of the retaining wall block 10 in which the extension part 13 is located at the lower side. It is built so that the fixing protrusions 12a formed in the retaining wall block 10 on the lower side are inserted into the insertion groove 12b while being staggered in the lateral direction so as to be positioned at
The band-shaped stiffener (C) is
A fixing part 21 that is caught on the front circumference of the protrusion 14 of the block body 12,
An arc-shaped passive resistance part 22 buried in the reinforced soil D,
Arranged in a zigzag shape to have a frictional resistance portion 23 connecting the fixing portion 21 and the passive storage portion,
The fixing part 21 is disposed so as to pass through the circumferential surface of the protrusion 14 formed in the retaining wall block 10 disposed to be adjacent to each other in the lateral direction,
A first cylinder member 41 configured in a cylindrical shape extending in the vertical direction and fixed to be buried in the upper surface of the fixing protrusion 12a and having a through hole 41a formed on the upper surface thereof,
It is coupled to the inside of the first cylinder member 41 so as to be liftable and pressurized upward by the first elastic member 44, and a fixing pin 43 extending upward through the through hole 41a is provided on the upper surface. The piston member 42 and,
An intake pipe 45 extending from the lower side of the first cylinder member 41 to the front side of the retaining wall block 10,
A sound generating means 46 provided at a front end of the intake pipe 45 to generate sound when air is sucked into the intake pipe 45;
It is composed of a cylindrical shape extending in the vertical direction and is fixed to be buried in the upper surface of the block body 12 of the retaining wall block 10 while being located at the rear of the first cylinder member 41, and a through hole 47a on the upper surface thereof. The formed second cylinder member 47 and,
A connection pipe 48 connecting the first and second cylinder members 47,
It is provided to be slidable in the front and rear directions inside the connection pipe 48, and when the second elastic member 51 slides forward, the front end portion passes through the first cylinder member 41 and the first cylinder member 41 A fixing bar 49 that is extended to the inside of and fixed to the upper end of the lowered piston member 42 so that the piston member 42 does not rise,
A second elastic member 51 connected to the fixing bar 49 to elastically press the fixing bar 49 to slide forward,
A push bar 52 coupled to the inside of the second cylinder member 47 so as to be elevating,
Further comprising a third elastic member 53 connected to the push bar 52 to press the push bar 52 upward,
A cam pin 49a extending in the lateral direction is provided at the rear end of the fixing bar 49,
A groove cam 52a to which the cam pin 49a is coupled is formed at the lower end of the push bar 52,
The home cam (52a) is configured such that the front is inclined upward and backward,
In the insertion groove 12b of the retaining wall block 10, a fixing hole 12c corresponding to the fixing pin 43 is formed to extend upward,
When the push bar 52 is pressed downward, the cam pin 49a is pulled rearward by the front surface of the home cam 52a, and the fixing bar 49 is retracted to the rear to release the fixing of the piston member 42 By doing so, the piston member 42 is raised by the first elastic member, so that the fixing pin 43 of the piston member 42 is inserted and fixed into the fixing hole 12c formed in the retaining wall block 10 provided on the upper side. At the same time, the reinforcement soil using a band-shaped reinforcement, characterized in that external air is introduced into the interior of the first cylinder member 41 through the intake pipe 45 and passes through the sound generating means 46 to generate sound. Retaining wall construction structure.
The method of claim 1,
Further comprising a cover member (E) coupled to the upper end of the retaining wall body (B),
The cover member (E) is
A cover body 31 formed in the form of a square block extending in the lateral direction and formed to extend in the lateral direction with an auxiliary insertion groove 31a into which the fixing protrusion 12a is inserted on the lower side thereof,
Reinforced soil retaining wall construction structure using a strip-shaped reinforcement, characterized in that it comprises a pair of auxiliary extensions (32) extending rearward from the upper side of the rear side of the cover body (31).
delete As a method of constructing a reinforced soil retaining wall construction structure using the reinforcing material described in any one of claims 1 and 2,
An arrangement step of arranging the retaining wall blocks 10 to form a row in the lateral direction so as to be spaced apart in front of the cut portion (A);
A filling step of filling reinforced soil between the retaining wall block 10 and the cut portion (A),
The belt-shaped stiffener (C) is disposed so as to pass through the circumferential surface of the protrusion 14 formed on the retaining wall block 10 disposed to be adjacent to each other in the lateral direction, so that the belt-shaped stiffener (C) is transferred to the block body 12, the protrusion 14 ), a frictional resistance part (23) connecting the fixing part (21) and the arc-shaped passive resistance part (22) embedded in the reinforcement soil (D) and the fixing part (21) and the passive storage part (23) Repeat the step of arranging the strip-shaped stiffener to be arranged in a zigzag shape with ),
Reinforced soil, characterized in that when the height of the retaining wall body (B) composed by red tide of the retaining wall block (10) reaches a predetermined height, the cover member (E) is coupled to the upper end of the retaining wall body (B) to complete the construction. Retaining wall construction method.

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