KR102618678B1 - Placementing Methods of Reinforcing strip of retaining wall - Google Patents

Abstract

The present invention relates to a method of constructing a strip-shaped reinforcement for a reinforced soil retaining wall, comprising: a foundation forming step of installing a reinforced soil retaining wall foundation (B); A block installation step of stacking and installing blocks (W) in a plurality of stages on the foundation (B); Placing and compacting backfill (E) at the rear of the block (W); In the step of laying and compacting the backfill, one side of the strip-shaped reinforcement (1) is connected to the block (W), and the other side is spread and spread on the backfill (E), and is buried in the backfill (E) A passive resistance portion (M) is formed at the rear end of the strip-shaped reinforcement (1), and a support frame (F) is installed inside the passive resistance portion (M) to maintain the passive resistance portion (M) in an erect state. , it can be used to improve the passive resistance of the strip-shaped reinforcement buried in the reinforced soil body of the reinforced soil retaining wall, which not only improves the stability of the reinforced soil retaining wall, but also reduces the installation length of the reinforcement to support the facing member of the retaining wall. Therefore, the time and manpower required for cutting and embankment work on the slope can be reduced.

Description

{Placementing Methods of Reinforcing strip of retaining wall}

In the present invention, a passive resistance portion is formed by erecting the rear end of a strip-shaped reinforcement material embedded in the reinforced soil body when constructing a reinforced soil retaining wall, and a support frame made by rolling a short length of reinforcement material from the reinforcement construction and manufacturing process into a circle inside this passive resistance portion. When installing and compacting the backfill soil, the passive resistance part is prevented from being flattened by being pressed by earth pressure, thereby improving the passive support resistance.

In general, strip-type reinforcement for reinforced soil retaining walls is made of several strands of polyester long fibers covered with polyethylene resin. Long bands of about 100 to 250 m are wound in the form of rolls. When installing reinforcement, the reinforcement wrapped in a roll must be removed by hand. Pull and release the reinforcing material and bind it in a zigzag shape to the connector or insertion groove or sleeve of the block or panel that forms the reinforced soil retaining wall in front of the reinforced soil, spread it on the reinforced soil, and cover and compact it with backfill soil, thereby reducing the friction resistance with the reinforced soil. It functions to support a retaining wall.

As a prior art related to the construction method of such a strip-shaped reinforcement, the "Construction method of reinforcement for supporting a prefabricated reinforced soil retaining wall" in Patent Document 1 supports the retaining wall (10) using the reinforcement (1) as shown in Figures 7 and 8. In doing so, the reinforcing materials (1) are arranged spaced apart so that adjacent ones do not overlap top and bottom at the effective distance, and the rear end (E) of the reinforcing materials (1) is compacted while being fixed so that it stands against the ground. A method is proposed to ensure that the rear end (E) has resistance against the reinforced soil, and to insert a shape retainer (30) at the rear end of the reinforcement so that the part erected against the ground can maintain its shape during embankment work.

On the other hand, in the construction method of Patent Document 1, a shape maintainer 30 made of concrete is used to maintain the rear end of the reinforcement standing on the ground, so this shape maintainer must be manufactured separately and transported to the construction site. The disadvantage was that construction costs increased due to the addition of material and logistics costs.

In the "Construction method of strip-shaped fiber reinforcement for supporting prefabricated reinforced soil retaining walls" disclosed in Patent Document 2, the rear end of the fiber reinforcement laid in a zigzag manner is folded flat and a resistor made of concrete is connected to this with a pin to exert resistance. Also, as in Patent Document 1, there was a problem in that material costs and logistics costs increased.

In the "Construction method of strip-type fiber reinforcement for supporting prefabricated reinforced soil retaining walls" disclosed in Patent Document 3, the fiber reinforcement is continuously connected in a zigzag manner, but the fiber reinforcement is intersected in an It is designed to have passive support resistance, but since no separate shape retainer is provided, there are problems such as the rear end of the erected reinforcement being flattened during the process of covering and compacting the reinforced soil, making it impossible to sufficiently exert passive support resistance. There was a risk that something like this could happen.

Meanwhile, during the production and construction of strip-shaped reinforcement materials, many short pieces of reinforcement material are generated. Since polyester fibers are inserted inside the polyethylene resin, separation and recycling by material is not possible, so they are only disposed of by incineration. Bar, while the present inventor was seeking a method to effectively utilize expensive materials used in the civil engineering field that had no choice but to be discarded, he discovered the applicant's pre-registered patent technology as shown in Patent Documents 1 to 3. The present invention was developed based on the fact that the form retainer or resistor made of concrete in the passive resistance part that was applied can be replaced by upcycling scraps of strip-shaped reinforcement, and that it is also much more economical than existing technologies in terms of logistics and material costs. It has been completed.

Korean Patent No. 10-0328621 (registered on March 4, 2002) Korean Patent No. 10-0660356 (registered on December 15, 2006) Korean Patent No. 10-0824180 (registered on April 15, 2008)

The present invention was developed to solve the above-described problems, and the purpose of the present invention is to not incinerate scrap strip-shaped reinforcement material generated during the construction of a reinforced soil retaining wall using strip-shaped reinforcement material or scrap strip-shaped reinforcement material generated at a strip-shaped reinforcement manufacturing factory. The purpose is to use this to improve the passive support resistance of the strip-shaped reinforcement during the construction of a reinforced soil retaining wall.

In order to achieve the above object, the present invention includes a foundation forming step of installing a reinforced soil retaining wall foundation; A block installation step of stacking and installing blocks in a plurality of stages on the foundation; Placing and compacting backfill at the rear of the block; In the step of laying and compacting the backfill, one side of the strip-shaped reinforcement is connected to a block, and the other side is spread and spread on the backfill. It provides a construction method of a strip-shaped reinforcement for a reinforced soil retaining wall, including a reinforcement installation step.

In a preferred embodiment, the reinforcing material installation step connects the front end of the strip-shaped reinforcing material 1 to the connection part of the block in a zigzag manner, and the rear end of the strip-shaped reinforcing material is erected against the ground in a loop shape to form a passive resistance portion. Provides a method of constructing a strip-shaped reinforcement for a reinforced soil retaining wall in which the rear end of the strip-shaped reinforcement is buried in the backfill to have passive support resistance, but a support frame is installed inside the passive resistance to maintain the passive resistance in its erected state. .

Preferably, the support frame has a circular or polygonal cross-section and is located inside the passive resistance unit, or the support frame is made in an open form and one side is curved in a direction opposite to the curvature direction of the passive resistance unit. It protrudes in a polygonal shape and the other side is open toward the passive resistance unit, and both ends of the open support frame are fixed to the strip-shaped reinforcement by frame fixing means.

According to the present invention, it is possible to improve the passive resistance of the strip-shaped reinforcement buried in the reinforced soil of the reinforced soil retaining wall by utilizing the scraps of strip-shaped reinforcement that are inevitably generated during the reinforcement construction process at the construction site of the reinforced soil retaining wall and the production of the strip-shaped reinforcement at the strip-shaped reinforcement manufacturing factory. By being able to utilize it, it is possible to prevent the generation of scrap waste of strip-shaped reinforcement, and to strengthen the stability of the reinforced soil retaining wall by strengthening the resistance of the reinforcement buried in the reinforced soil, as well as to support the facing members of the retaining wall. By shortening the length of reinforcing material installation, the time and manpower required for cutting and embankment work on the slope can be reduced. By shortening the laying length of reinforcing material, the overall amount of reinforcing material used can be reduced, and the manual operation at the rear end of the reinforcing material can be reduced. Deformation during construction of the resistance section can be minimized, and as in Patent Documents 1 to 3, there is no need to produce and transport separate shape maintainers or passive resistors to the site, and clay-based backfill soil can also be used, so the reinforcing soil used There is no need to limit the type of sieve, so the soil on site can be used, which has many advantages in terms of construction of reinforced soil retaining walls and cost savings.

Figure 1 is a perspective view showing the construction state of a strip-shaped reinforcement for a reinforced soil retaining wall according to an embodiment of the present invention;
Figure 2 is an enlarged view of part A of Figure 1;
Figure 3 is a perspective view showing the state before the support frame of the passive resistance unit shown in Figure 2 is installed;
Figure 4 is a cross-sectional perspective view taken along line B-B of Figure 2;
Figure 5 is a state diagram before and after installation of a support frame according to another embodiment of the present invention;
Figure 6 is a perspective view showing the construction method of a strip-shaped reinforcement according to the prior art;
Figure 7 is a diagram showing a shape retainer used in the passive resistance part of Figure 7.

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

1 to 4 show a state in which the support frame according to an embodiment of the present invention is installed in the passive resistance unit.

As can be seen from the drawing, the construction method of the strip-shaped reinforcement for a reinforced soil retaining wall according to this embodiment includes a foundation forming step of installing a reinforced soil retaining wall foundation (B); A block installation step of stacking and installing blocks (W) in a plurality of stages on the foundation (B); Placing and compacting backfill (E) at the rear of the block (W); In the step of laying and compacting the backfill, one side of the strip-shaped reinforcement (1) is connected to the block (W), and the other side is spread and spread on the backfill (E).

In this embodiment, the step of installing the reinforcing material connects the front end of the strip-shaped reinforcing material (1) to the connection part of the block (W) in a zigzag manner, and the rear end of the strip-shaped reinforcing material (1) is erected against the ground in a loop shape. With the passive resistance portion (M) formed, it is embedded in the back filler (E) so that the rear end of the strip-shaped reinforcement (1) has a passive support resistance, and a strip-shaped support frame (F) is provided inside the passive resistance portion (M). This is installed so that the passive resistance unit (M) can be maintained in a stable erection state.

In this embodiment, of course, the support frame (F) may be manufactured to have a circular or polygonal cross-section as shown in the drawing.

On the other hand, the passive resistance part (M) is open at the front and the front is laid flat on the backfill (E), so when the backfill soil is covered and compacted without using a separate shape retainer, The passive resistance part (M), which was standing up due to earth pressure, is pressed and laid down, but when the support frame (F) according to this embodiment is placed inside the passive resistance part (M) and backfill soil is filled and compacted, The rear end of the loop-shaped band-shaped reinforcement (1) is closed and rolled into a circular shape by the support frame (F), so the shape is not deformed by the pressure applied from the top to the bottom, and the support frame ( F) Since the soil filled inside and the soil covered outside are compacted at the same time, it is prevented from being pressed down by earth pressure, and the external passive resistance part (M) serves as a kind of support frame to prevent it from being pressed down.

In this embodiment, the reinforced soil retaining wall uses a block (W) with a reinforcement insertion groove formed at the rear, but the present invention is not limited to this and, as described above, a retaining wall such as a block or panel with a ring-shaped connection is formed instead of the reinforcement insertion groove. There are no restrictions on the type and shape of the facing member to be formed.

In addition, in this embodiment, the strip-shaped reinforcement material 1 uses a so-called "fold lock reinforcement material" in which a folding groove is formed in the middle part along the longitudinal direction disclosed in Patent Document 2, but the present invention is not limited to this and the middle part is not limited to this. Of course, it is also possible to use a general strip-shaped reinforcement without a folding groove, that is, a strip-shaped reinforcement in which several polyester fiber bundles are arranged in parallel and the outside is covered with polyethylene resin.

In this embodiment, the support frame (F) is maintained in a circularly rolled state by a tape (T) and is coupled to the passive resistance portion (M), but the present invention is not limited to this and is as shown in the drawing. Rolled into a circle using one or more frame fixing means selected from the group including tapes (T), clips, cable ties, wire fasteners, rivets, adhesives, and heat fusion. Of course, it is possible to maintain the state or remain coupled to the passive resistance portion (M), and the frame fixing means for maintaining the rolled state of the support frame (F) and combining it with the passive resistance portion (M) There are no special restrictions as long as it does not affect the physical or chemical deformation of the support frame (F) and passive resistance unit (M).

In this embodiment, the support frame (F), as shown in the drawing, may be made of one layer of strip-shaped reinforcement material rolled up more than one turn, or of two or more layers of strip-shaped reinforcement material rolled more than one turn in an overlapped state, which may be used. If the length of the off-cut strip reinforcement is relatively long, it is advisable to use one layer wrapped in multiple turns, more than one turn. If the length of the off-cut reinforcement material is relatively short, it is recommended to use two or more layers, wrapping around one and a half or two turns. By wrapping and using it to a certain extent, it is possible to stably maintain the erection of the passive resistance part (M) when it is buried in the reinforced soil and subjected to compaction pressure.

In addition, in the present invention, the support frame (F) is not limited to the garden shape of the embodiment as shown in Figures 1 to 4, and may be formed in an oval or polygonal shape according to the curvature of the passive resistance portion, as well as other shapes. In an embodiment, as shown in FIG. 5, in addition to a complete circle or oval shape, a strip-shaped reinforcement material is cut to a predetermined length, that is, a length of more than a semicircle of the loop-type passive resistance portion (M), and the front inner side of the above-described passive resistance portion (M) Support to keep the shape of the passive resistance unit (F) stable by forming a semicircle protruding forward when placed in the position, and combining both sides with the passive resistance unit (M) using tape (T), etc. Of course, it is also possible to form a frame (F).

That is, the support frame (F) is cut to a predetermined length and placed inside the front of the loop-type passive resistance part (M), and both sides are connected to the passive resistance part (M) and a tape (one of the frame fixing means) By combining with T), the passive resistance portion (F), which is the rear end of the strip-shaped reinforcement (1), can be made to have a circular or oval shape.

In this embodiment, the support frame (F) forms a semicircle protruding in a direction opposite to the curvature direction of the passive resistance portion (M) as shown in the drawing, forming a circle together with the passive resistance portion (M). It is possible to do so, and the support frame (F) is not limited to installing only one at the rear of the strip-shaped reinforcement (1), but of course, two or more can be installed at a predetermined distance apart if necessary.

In addition, in the present invention, the support frame (F) is manufactured by rolling it into a circle in advance to maintain its shape with tape (T), etc., and then inserting it inside the passive resistance portion (M) at the rear end of the reinforcement material (1) and then tapering it again. Of course, it is also possible to combine them using (T), etc., and at the reinforcement construction site, roll the scrap reinforcement into a circle and place it inside the passive resistance part (M), then attach the tape (T) together with the manual resistance part (M). You can also use them to combine them all at once.

The outer diameter of the support frame (F) is manufactured to match the curvature of the loop-type passive resistance part (M) so that the support frame (F) is in contact with the loop-type passive resistance part (M), thereby preventing the earth pressure acting from the top. It is desirable to maximize holding power.

Meanwhile, the support frame (F) utilizes 100% of the scrap reinforcement material generated during the construction of the reinforcement material and the scrap reinforcement material generated during the production of the strip reinforcement material at the strip reinforcement manufacturing plant, but in case of shortage, a normal roll type strip reinforcement material is used at an appropriate length. It can be cut and used, and of course, in addition to these strip-shaped reinforcements, it can also be manufactured as a strip made of flexible metal or synthetic resin used in various fields.

In addition, although not shown in the drawing, it is of course possible to additionally install a separate passive resistor made of concrete or other materials inside the support frame (F).

According to the construction method of the strip-shaped reinforcement according to the embodiment of the present invention as described above, in forming a passive resistance portion with the rear end of the strip-shaped reinforcement installed on the reinforced soil standing, there is no particular use and fibers of different materials are used. It is composed of a structure that combines resin and resin, and since it cannot be separated and cannot be recycled, a support frame is formed from scrap reinforcement materials that were disposed of by incineration and placed inside the passive resistance part, so that the standing state of the passive resistance part can be stably maintained. Bar, unusable materials can be used as useful materials in the construction of reinforced soil retaining walls, and since separate incineration is not required, it is possible to recycle resources and prevent environmental pollution, and the passive support resistance of the strip-type reinforcement can be increased as much as possible, so the reinforcement By reducing the laying length, the time and manpower required for cutting and embankment work on the slope can be reduced, and the amount of reinforcing material used can be reduced. Also, since there is no need to manufacture or transport separate passive resistors or shape maintainers, material costs can be reduced. There is an advantage in that it is possible to construct a stable reinforced soil retaining wall without increasing logistics costs.

1: Band-shaped reinforcement
E: Reinforced soil body
F: Support frame
M: Passive resistance part
T: Tape
W: block

Claims (12)

Foundation formation step of installing the reinforced soil retaining wall foundation (B); A block installation step of stacking and installing blocks (W) in a plurality of stages on the foundation (B); Placing and compacting backfill (E) at the rear of the block (W); In the step of laying and compacting the backfill, one side of the strip-shaped reinforcement (1) is connected to the block (W), and the other side is spread and spread on the backfill (E). In the construction method of the strip-shaped reinforcement for a reinforced soil retaining wall, including: Because,
In the step of installing the reinforcement, the front end of the strip reinforcement (1) is connected to the connection part of the block (W) in a zigzag manner, and the rear end of the strip reinforcement (1) is erected against the ground in a loop shape to form a passive resistance unit (M ) is formed and is embedded in the back filler (E) so that the rear end of the strip-shaped reinforcement (1) has a passive support resistance, and the passive resistance portion (M) is maintained inside the passive resistance portion (M). A support frame (F) is coupled to the inside of the passive resistance part (M) by frame fixing means, and the support frame (F) has a circular or polygonal cross-section. A construction method of a strip-shaped reinforcement material for a reinforced soil retaining wall. .
delete In claim 1,
A method of constructing a strip-type reinforcement for a reinforced soil retaining wall, characterized in that the frame fixing means is any one selected from the group including tape, clip, cable tie, wire fastener, rivet, adhesive, and heat fusion.
In claim 1,
A method of constructing a strip-shaped reinforcement for a reinforced soil retaining wall, characterized in that the support frame (F) is made of the same material as the strip-shaped reinforcement or made of metal or synthetic resin.
In claim 4,
The support frame (F) is a construction method of a strip-type reinforcement material for a reinforced soil retaining wall, characterized in that the support frame (F) is rolled more than one turn, or is rolled more than one turn in a state in which two or more layers are overlapped.
In claim 1,
A method of constructing a strip-type reinforcement material for a reinforced soil retaining wall, characterized in that one or more of the support frames (F) are installed between the front wall of the retaining wall and the passive resistance portion.
In claim 6,
A method of constructing a strip-type reinforcement for a reinforced soil retaining wall, characterized in that a passive resistance element is installed inside the support frame (F).
Foundation formation step of installing the reinforced soil retaining wall foundation (B); A block installation step of stacking and installing blocks (W) in a plurality of stages on the foundation (B); Placing and compacting backfill (E) at the rear of the block (W); In the step of laying and compacting the backfill, one side of the strip-shaped reinforcement (1) is connected to the block (W), and the other side is spread and spread on the backfill (E). In the construction method of the strip-shaped reinforcement for a reinforced soil retaining wall, including: Because,
In the step of installing the reinforcement, the front end of the strip reinforcement (1) is connected to the connection part of the block (W) in a zigzag manner, and the rear end of the strip reinforcement (1) is erected against the ground in a loop shape to form a passive resistance unit (M ) is formed and is embedded in the back filler (E) so that the rear end of the strip-shaped reinforcement (1) has a passive support resistance, and the passive resistance portion (M) is maintained inside the passive resistance portion (M). A support frame (F) to A method of constructing a strip-shaped reinforcement for a reinforced soil retaining wall, characterized in that it is in an open form toward M), and both ends of the open support frame (F) are fixed to the strip-shaped reinforcement (1) by frame fixing means.
In claim 8,
A method of constructing a strip-type reinforcement for a reinforced soil retaining wall, characterized in that the frame fixing means is any one selected from the group including tape, clip, cable tie, wire fastener, rivet, adhesive, and heat fusion.
In claim 8,
A method of constructing a strip-shaped reinforcement for a reinforced soil retaining wall, characterized in that the support frame (F) is made of the same material as the strip-shaped reinforcement or made of metal or synthetic resin.
In claim 8,
A method of constructing a strip-type reinforcement for a reinforced soil retaining wall, characterized in that one or more of the support frames (F) are installed between the front wall of the retaining wall and the passive resistance portion (M).
In claim 11,
A method of constructing a strip-type reinforcement for a reinforced soil retaining wall, characterized in that a passive resistance element is installed inside the support frame (F).