KR102339209B1 - A Method for continuous connecting reinforcing strip of retaining wall and slide clip for use its method - Google Patents

Abstract

The present invention relates to a C-shaped reinforcing material insert inserted into a plurality of facing members 10 adjacent to the left and right when the band-shaped fiber reinforcement embedded in the reinforcing soil body behind the facing member is continuously inserted into the reinforcing material insertion port of the facing member during the construction of the reinforcing earth retaining wall and pulled. 20) sandwiched between the slide clip 50 and inserted into the C-shaped reinforcing material insertion hole 20 and the band-shaped fiber reinforcement 30 exposed to the rear of the facing member 10 is directly on the rear surface 12 of the facing member 10 To facilitate the pulling operation of the belt-shaped fiber reinforcement 30 by preventing contact and at the same time not being caught at the distal ends of the inlets 22 and 24 in the process of coming out of the inlet 22 on one side and being inserted into the inlet 24 on the other side. Also disclosed is a continuous construction method of a belt-shaped fiber reinforcement to prevent damage to the belt-shaped fiber reinforcement (30).

Description

A continuous construction method for continuous connecting reinforcing strip of retaining wall and slide clip used for this method and a slide clip used in this method

In the present invention, when the strip-shaped fiber reinforcement embedded in the reinforcing soil body behind the facing member is continuously inserted into the reinforcing material insertion hole inserted into the facing member during the construction of the reinforcing earth retaining wall and pulled, the belt-type fiber reinforcement is rubbed against the back surface of the concrete between the facing members adjacent to the left and right. In order to prevent damage or difficulty in pulling due to friction, a slide clip is inserted between adjacent facing members to relieve frictional force with the band-shaped fiber reinforcement and to prevent scratches on the back surface of the facing member.

Patent Document 1 is disclosed as a prior art related to the present invention, which is a forming mold when manufacturing a panel so that the belt-type fiber reinforcement material can be directly connected to the panel, which is a facing member, in the reinforced soil retaining wall, which is compacted while burying the belt-type fiber reinforcement material in the reinforcing soil body. A C-shaped reinforcing material insertion hole (sleeve) molded with synthetic resin is inserted inside, so that the left and right inlets of the reinforcing material insertion hole are exposed to the back surface of the panel.

Patent Document 1 discloses a conventional panel or block for constructing a reinforced earth retaining wall, that is, a connecting bracket (attachment ring) protrudes from the back surface of a facing member, so that various reinforcing materials including a belt-type fiber reinforcing material are connected using a connecting pin. An additional connecting pin is required to connect the face member, and the compaction operation is inconvenient and incomplete due to the attachment ring protruding from the rear surface of the facing member in the process of laying the backfill soil behind the facing member and performing the compaction work. Structural stability of the retaining wall is deteriorated due to the concentration of stress in the occurrence of unequal settlement or the like, or due to slack in the sharply bent part, the filling phenomenon and local displacement of the facing member after the construction of the retaining wall is inevitable. We present alternatives that can solve problems such as the occurrence of the phenomenon.

On the other hand, the present applicant is the patent holder of Patent Document 1, and during its construction, continuously inserts a band-shaped fiber reinforcement into the reinforcing material insertion hole formed in a plurality of facing members adjacent to the left and right, and then pulls it to a sufficient length, and then pulls it to the rear of each facing member. It goes through a process of taking out the fiber reinforcing material, spreading it in a zigzag state on the reinforcing soil body, and burying it. When a band-shaped fiber reinforcing material is inserted and pulled into a plurality of reinforcing material insertion holes, it is molded with synthetic resin and there is almost no frictional force in the reinforcing material insertion hole embedded in the concrete facing member. It has been found that frictional force is generated at the ends of the inlets of both sides of the reinforcing material insertion hole exposed to the rear side of the member, and there is a risk that the coating of the band-shaped fiber reinforcement material may be damaged when in direct contact with the concrete surface of the rear surface of the facing member. It was devised to solve the problem.

Korean Patent Registration No. 10-2034144 (Registered on October 14, 2019)

The present invention has been devised to solve the above problems, and an object of the present invention is to continuously insert and pull one band-shaped fiber reinforcement into a plurality of C-shaped reinforcement inserts respectively inserted into the facing members adjacent to the left and right when constructing a reinforced earth retaining wall. At the same time, it eliminates the occurrence of friction at the ends of the inlet of both sides of the C-type reinforcing material insertion hole and at the same time prevents the belt-type fiber reinforcement from coming into direct contact with the concrete surface of the rear surface of the facing member, thereby making it easier to pull the belt-type fiber reinforcement. An object of the present invention is to provide a method for continuous construction of a band-type fiber reinforcement for supporting a reinforcing earth retaining wall that can prevent damage to the reinforcing material, and a member used in this method.

In order to achieve the above object, the present invention continuously inserts a band-shaped fiber reinforcing material into the reinforcing material insertion hole inserted into a plurality of facing members adjacent to the left and right, and then withdraws the band-shaped fiber reinforcing material to the rear of each facing member to zigzag the reinforcement soil body. A method of constructing a belt-type fiber reinforcement for reinforcing earth retaining walls that is spread and buried in the state of being laid;

A slide clip is inserted between the C-shaped reinforcing material insertion holes inserted into the plurality of adjacent facing members on the left and right so that the band-shaped fiber reinforcement exposed to the rear of the facing member does not come into direct contact with the C-shaped reinforcing material insertion hole. At the same time, it makes it easier to pull the belt-type fiber reinforcement by preventing it from being caught at the end of the entrance while it comes out of one entrance and is inserted into the other entrance, and also prevents damage to the belt-type textile reinforcement due to friction with the back of the facing member. Provided is a continuous construction method of a band-type fiber reinforcement for supporting a reinforced soil retaining wall.

The present invention is also a slide clip used in the above construction method, wherein the slide clip is formed symmetrically to the left and right of an intermediate locking part that is caught by being inserted into a vertical gap between adjacent facing members, and is a reinforcing material of the left and right facing members. A slide having a curve that is inserted into both sides of the inlet and the extension is inserted into the inside of the inlet of both sides of the insert, and the extension is in close contact with the inner surface of the inlet of the reinforcing material insert, so that the band-shaped fiber reinforcement does not get caught at the end of the inlet and slides smoothly to the next inlet. clip is provided.

Preferably, the slide clip is made of stainless steel or synthetic resin, which is a material with a low coefficient of friction on the surface, and the engaging portion is narrowed by elasticity to fit into the vertical gap between the facing members, and the extension portion having a curve is also elastic and opened Make sure to keep it in close contact with the inner surface of the entrance.

According to the present invention, the pulling operation can be performed without effort in the process of continuously inserting the belt-shaped fiber reinforcement into the facing member into which the C-type reinforcing material insertion hole is inserted, and damage to the belt-type fiber reinforcement can be prevented, thereby improving workability and improving workability. There are useful effects such as improving the durability of the reinforced soil retaining wall.

1 is a perspective view showing the installation state of a belt-type fiber reinforcement during the construction of a reinforced soil retaining wall;
2 is a perspective view showing the insertion and pulling state of the strip-shaped fiber reinforcement in a state in which the slide clip is inserted according to an embodiment of the present invention;
Figure 3 is an enlarged view showing the state of Figure 2;
4 is a plan sectional view and an enlarged view of main parts showing the state of FIG. 2;
5 is a perspective view of a slide clip according to an embodiment of the present invention.

Hereinafter, preferred embodiments that do not limit the present invention will be described in detail with reference to the accompanying drawings.

1 to 5, in this embodiment, a plurality of adjacent facing members ( After inserting the belt-shaped fiber reinforcement 30 continuously into the reinforcement material insertion hole 20 inserted in 10), the belt-type textile reinforcement 30 is drawn out to the rear of each facing member 10, and the reinforcement soil body 40 is in a zigzag state A method of constructing a belt-type fiber reinforcement for the construction of reinforcing earth retaining walls that is spread and buried; The slide clip 50 is inserted between the C-shaped reinforcing material inserts 20 inserted into the left and right adjacent plurality of facing members 10 and inserted into the C-shaped reinforcing material inserts 20 to expose the rear of the facing member 10 . The band-shaped fiber reinforcement 30 is not in direct contact with the rear surface 12 of the facing member 10, and at the same time comes out of the inlet 22 on one side and is inserted into the inlet 24 on the other side of the inlets 22 and 24. To make it easier to pull the belt-shaped fiber reinforcement 30 by preventing it from being caught at the distal end, as well as to prevent damage to the belt-shaped fiber reinforcement 30 due to friction with the rear surface 12 of the facing member 10 has been

In this embodiment, the slide clip 50 includes a middle engaging part 52 that is caught by being fitted in a vertical gap G formed between about 2 cm and about 2 cm between the adjacent facing members 10, and the engaging part 52. It is formed symmetrically to the left and right, and the C-shaped reinforcing material insertion hole 20 inserted into the left and right facing members 10 includes an extension 54 inserted into the inlet 22 and 24 on both sides.

The extension 54 is in close contact with the inner surfaces 22a and 24a of the inlets 22 and 24 of the C-shaped reinforcing material insertion hole 20 so that the band-shaped fiber reinforcement 30 is not caught at the end of the inlet 22 and the next inlet 24 ) has a curve that can slide smoothly and be inserted.

The curve is preferably manufactured to have a degree of curvature that can connect the curves formed by the inner surfaces 22a and 24a of the inlets 22 and 24 on both sides with a gentle curvature, which is This is to enable a stable guide when the band-shaped fiber reinforcement 30 is inserted into the inlet 24 on the other side.

In addition, in this embodiment, the slide clip 50 is press-formed from a stainless steel plate, which is a material with a low coefficient of surface friction, and its thickness is 0.1 to 1 mm, which is very thin and has sufficient elasticity, according to the present invention. The slide clip may be made of a synthetic resin having a smooth surface in addition to the above-described stainless steel plate.

The locking part 52 is narrowed in width by its elasticity and fitted into the vertical gap G between the facing members 10, and the extension part 54 having a curve also has elasticity and opens while opening the inlet 22, 24), by maintaining a state in close contact with the inner surfaces 22a and 24a, as if the band-shaped fiber reinforcement 30 is smoothly inserted and withdrawn along the curve of the reinforcement insertion hole 30 continuously connected, frictional force is minimized during the pulling operation of the reinforcement material This will allow one worker to perform the pulling operation of the reinforcing material alone while using less force.

In this embodiment, the end of the locking part 52 is processed into an edge shape as thin as possible, so that when the reinforcing material is drawn out, it is possible to prevent a jamming at the locking part end or separation of the slide clip due to the jamming. have.

In the continuous construction method of the strip-shaped fiber reinforcement according to the present embodiment configured as described above, the reinforcement soil is filled up to the height of the reinforcement material insertion hole on the rear surface of the facing member and compacted, and the belt-type fiber reinforcement is connected. First, between the left and right adjacent facing members After inserting the slide clip, place the reel of the band-shaped fiber reinforcement on one side, and insert the band-type fiber reinforcement in a zigzag manner continuously along the entrances on both sides of the reinforcement insertion hole on the rear side of the facing member adjacent to the left and right, and then pull the belt-type fiber reinforcement from the other side. When the band-shaped fiber reinforcement material is inserted into the facing member, it is slidably pulled along the curve of the locking part of the slide clip inserted in the vertical gap between the passage of the reinforcement material insertion hole inserted into the facing member and the facing member, and the operator places the end of the band-shaped fiber reinforcement material in the front and rear width of the reinforcing soil body. After fixing it so that it does not fall out in the opposite direction in a state in which it is unfolded according to the The front end is folded in half and put into the reinforcing material insertion hole of the facing member, and the rear end of the reinforcing material is erected to the full width to form a passive resistance part. By repeating this process in multiple stages, it becomes possible to build a reinforced earth retaining wall to the designed height.

The slide clip is removed from the vertical gap of the facing member after the strip-shaped fiber reinforcement is pulled and used repeatedly for the next reinforcement insertion operation.

Preferably, the pulling sequence of the band-shaped fiber reinforcement is required to sequentially pull from the end of the band-shaped fiber reinforcement in the direction wound in the reel state, which is to prevent the belt-shaped fiber reinforcement from being complicatedly unfolded on the reinforcing soil body, The strip-shaped fiber reinforcing material drawn out by the backfill length of

On the other hand, as the applicant directly inserted and pulled out the belt-type fiber reinforcement, it was found that 7 to 10 facing panels adjacent to the left and right are possible for one person to continuously connect the belt-type fiber reinforcement without unreasonableness. , such workability can significantly improve workability compared to what was only possible with only two or three slide clips without the use of slide clips. It has been found that it can be shortened.

As described above, according to the embodiment of the present invention, when the C-shaped reinforcing material insertion hole continuously inserts and pulls the band-shaped fiber reinforcement into the inserted facing member, the slide clip prevents jamming and direct friction with the facing member. It is possible to prevent damage caused by the pulling operation, and since the pulling operation requires little force, it is possible to perform the pulling operation alone by the operator, thereby improving workability.

10: Facing member
12: rear
20: reinforcing material insertion hole (sleeve)
22, 24 : Entrance
22a, 24a: inner
30: belt-type fiber reinforcement
40: reinforcing soil body
50: slide clip
52: fitting part
54: locking part
G: vertical gap (between the facing members)

Claims (4)

After continuously inserting the band-shaped fiber reinforcement 30 into the reinforcing material insertion hole 20 inserted in the plurality of facing members 10 adjacent to the left and right when constructing the reinforcing earth retaining wall, each facing member 10 is rearward of the belt-shaped fiber reinforcement A method of constructing a band-shaped fiber reinforcement for constructing a reinforcing earth retaining wall in which (30) is drawn out and spread in a zigzag state on the reinforcing soil body (40);
The slide clip 50 is inserted between the C-shaped reinforcing material inserts 20 inserted into the left and right adjacent plurality of facing members 10 and inserted into the C-shaped reinforcing material inserts 20 to expose the rear of the facing member 10 . The band-shaped fiber reinforcing material 30 is not in direct contact with the rear surface 12 of the facing member 10, and at the same time comes out of the inlet 22 on one side and is inserted into the inlet 24 on the other side of the inlets 22 and 24. Continuity of the band-shaped fiber reinforcement for supporting the reinforcing soil retaining wall, characterized in that it is not caught at the distal end to facilitate the pulling operation of the belt-shaped fiber reinforcement 30 and to prevent damage to the belt-shaped fiber reinforcement 30 construction method.
A slide clip used in the construction method of claim 1,
A C-shaped reinforcing material is formed symmetrically to the left and right and is formed symmetrically to the left and right of the stopping part 52 in the middle, which is caught by being inserted into the vertical gap G between the adjacent facing members 10, and is inserted into the left and right facing members 10. Slide clip, characterized in that it comprises an extension (54) inserted into the insertion hole (20) both sides of the inlet (22, 24).
3. The method according to claim 2,
The extension 54 is in close contact with the inner surfaces 22a and 24a of the inlets 22 and 24 of the C-shaped reinforcing material insertion hole 20 so that the band-shaped fiber reinforcement 30 is not caught at the end of the inlet 22 and the next inlet 24 ) slide clip, characterized in that it has a curve that can be smoothly slid and inserted.
4. The method of claim 2 or 3,
The slide clip 50 is a slide clip, characterized in that it is made of a stainless steel plate having a low surface friction coefficient or a synthetic resin having a smooth surface.

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