KR101226223B1 - Retaining wall system and the construction method using geotextile tubes - Google Patents

Abstract

The present invention forms a reinforcement earth structure by stacking the geosynthetic structure filling and filling the inside of the geosynthetic tube on the bottom plate installed on the soft ground, and also install the front plate on the bottom plate on both sides of the reinforcement soil structure, coupling the connecting member After tensioning, and relates to a soft ground reinforcement soil retaining wall structure using a geosynthetic tube filling the backplate between the front plate and the reinforcement soil structure and its construction method.
According to the present invention, by forming a reinforcement soil structure laminated a plurality of geosynthetic structure on the soft ground, by leaving it for a certain period of time so that the ground is settled by the load of the reinforcement soil structure by designing the height of the reinforcement soil structure similar to the planned construction In addition, the construction period due to the installation and removal of fill structures can be shortened, and the economic efficiency due to cost reduction can be improved due to the shortening of the construction period.

Description

Retaining wall system and the construction method using geotextile tubes}

The present invention relates to a soft ground reinforcement soil retaining wall structure, and more particularly, to form a reinforced earth structure by stacking a geosynthetic structure filling and filling the inside of the geosynthetic tube in the bottom plate installed on the soft ground and to form a reinforced earth structure on both sides of the reinforced earth structure After installing the front plate on the bottom plate, the coupling member is tensioned, and relates to a soft ground reinforcement soil retaining wall structure using a geotextile tube filled with a backfill between the front plate and the reinforcement soil structure and its construction method.

In general, the soft ground is a ground where the formation and deposition of soil is not stable and may fall or collapse due to heavy loads, flooding, or earthquakes. The ground destruction due to the deformation of the structure and the lack of ground strength should be prevented.

The preloading method is mainly used as a method for improving the ground, which forms a fill structure in the ground to predict the load of the structure and the settlement of the ground due to the load, and also drains water such as vertical drainage. A method of stabilizing the ground by inducing ground deformation by adding a facilitating method. In the case of ordinary structures, the soil level is piled up by the expected amount of settlement so that the level of the structure after settlement is consistent with the planned soil.

However, when constructing the reinforcement soil structure on the soft ground, after removing the fill structure to which the reloading method is applied, it is necessary to build the reinforcement soil structure, there was a problem that the procedure is complicated and requires a lot of air, which causes a problem of economic efficiency there was.

In view of the above-described conventional defects as described above, an object of the present invention is to form a reinforcement soil structure laminated a plurality of geosynthetic structure on the soft ground, and to leave it for a certain time, by the load of the reinforcement soil structure The present invention provides a soft ground reinforcement soil retaining wall structure using a geotextile tube to allow the ground to settle and a construction method thereof.

Soft ground reinforcement soil retaining wall structure using the present invention geosynthetic tube,

Soft ground reinforcement soil retaining wall structure using geotextile tube,

A bottom plate installed to face the reinforcement soil structure on the soft ground;

A first frame detachably fixed to the bottom plate and the second frame to support the shape of the geotextile structure;

A first geotextile structure formed by filling a filling material into the geotextile tube seated on the first frame and the bottom plate and the upper surface of the soft ground;

A connection part for disassembling the first frame supporting the first geosynthetic fiber structure, and being connected to the first geosynthetic fiber structure to connect a pair of front plates to the connection member;

A second frame installed to support a first frame supporting a shape of a second geotextile structure on both sides of an upper end portion of the first geotextile structure in which the first frame is disassembled;

A second geosynthetic fiber structure formed by filling a filling material in a civil fiber tube seated on an upper surface of the first frame and the first geosynthetic fiber structure fixed to the second frame;

A reinforcing soil structure formed by stacking the first frame for supporting the second geotextile structure by repeating the process of forming the second geotextile structure in a state in which the connection member is seated;

It is characterized in that it is configured to include a pair of front plate that is coupled to the support member by the connection and tension while being installed on the bottom plate to be spaced apart from the reinforcement structure.

In addition, the construction method of the soft ground reinforcement soil retaining wall structure using the geotextile tube of the present invention,

As a construction method of soft ground reinforcement soil retaining wall structure using geotextile tube,

Installing a bottom plate facing the reinforcement soil structure on the soft ground;

Installing a first frame supporting the shape of the first geotextile structure on the bottom plate;

Mounting a geotextile tube on the first frame, the bottom plate and the upper surface of the soft ground, and filling a filler therein to form a first geotextile structure;

Disassembling the first frame supporting the first geosynthetic fiber structure, and then seating a tube having a connection member coupled to an upper surface of the first geosynthetic fiber structure;

Installing a second frame supporting the first frame dismantled from the first geotextile structure on both sides of an upper end portion of the first geotextile structure;

Installing a first frame dismantled from the first geotextile structure to support the shape of the second geotextile structure on the upper surface of the second frame;

Mounting a geotextile tube on an upper surface of the second frame and the first geotextile structure, and filling a filler therein to form a second geotextile structure;

After dismantling the first frame supporting the second geotextile structure, repeating the process of forming the second geotextile structure in a state in which the connection member is seated, thereby forming a reinforcement earth structure laminated to the planned togo;

Leaving the soft ground to settle under load of the reinforced earth structure;

After completion of the settlement, if the height of the reinforcement soil structure is higher or lower than the planned soil height, removing the top geotextile structure or adding fill soil;

Installing a front plate having connecting rings at both sides of the reinforcement soil structure at the same height as the reinforcement soil structure;

Coupling the connection member to the connection ring of the front plate installed on the bottom plate and fixing the tie member;

When the connection member is coupled to the connection ring by the tie member, the step of filling the backfill material between the reinforcement soil structure and the front plate is characterized in that it is repeated until the same or higher than the reinforcement soil structure.

According to the present invention, by forming a reinforcement soil structure laminated a plurality of geosynthetic structure on the soft ground, by leaving it for a certain period of time so that the ground is settled by the load of the reinforcement soil structure by designing the height of the reinforcement soil structure similar to the planned construction In addition, the construction period due to the installation and removal of fill structures can be shortened, and the economical efficiency can be improved by reducing the construction period.

1 is a perspective view of the present invention
2 to 8 is an installation process diagram of the present invention
9 is an enlarged perspective view of portion 'A' of FIG. 8;

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is a perspective view of the present invention.

Soft ground reinforcement soil retaining wall structure using a geosynthetic tube of the present invention is a soft ground reinforcement soil retaining wall structure 100 using a geosynthetic tube, the bottom plate 110 is installed to support the reinforcement soil structure 130 on the soft ground. This structure is configured to be detachably fixed to the bottom plate 110 and the second frame 150 to support the shape of the geosynthetic structure is configured, the first frame 120 and the bottom The first geosynthetic fiber structure 131 is formed by filling the filling material (131b) into the geosynthetic tube 131a seated on the plate 110 and the upper surface of the soft ground. After dismantling the supporting first frame 120, the connection part 140 is mounted on the top surface of the first geosynthetic fiber structure 131 and connects a pair of front plates to the connection member 141. Both sides of the upper end of the first geosynthetic structure 131, the frame 120 is dismantled The second frame 150 is installed to support the first frame 120 to support the shape of the second geotextile structure 132, the first frame 120 fixed to the second frame 150 ) And a second geotextile structure 132 formed by filling a filling material 132b in the geosynthetic tube 132a seated on an upper surface of the first geosynthetic structure 130, wherein the second geotextile structure ( After dismantling the first frame 120 supporting the 132, the reinforcement earth structure 130 is formed to be laminated by repeating the process of forming the second geotextile structure 132 in a state in which the connecting member 141 is seated It is configured to include a pair of front plate 160 to be coupled to the support member 141 and is supported while being installed on the bottom plate 110 so as to be spaced apart from the reinforcement earth structure 130 by a predetermined distance, This will be described in more detail as follows.

The first frame 120 is provided with a vertical plate 121 for supporting the geotextile tube, the support member 122 is fixed to the lower end of the vertical plate 121 horizontally, the support member The first reinforcing member 123 fixed to the 122 and the vertical plate 121 to maintain the vertical plate 121 is provided.

The connection part 140 is provided with a tube 141 seated on the top surface of each geotextile structure 131, 132, and is provided with a connection member 142 coupled to the tube 141. The connecting ring 143 is provided on the front plate 160 to be coupled to the end of the 142, and the tie member 144 for tying and fixing the end of the connecting member 142 coupled to the connecting ring 143 is provided. It is provided including.

The tie member 144 is preferably a swaging sleeve.

It is preferable to further include a cable thimble 145 mounted between the connecting ring 143 and the connecting member 142 to prevent damage of the connecting member 142.

The second frame 150 is provided with a horizontal plate 151 installed on the side end of the first geotextile structure 131 to support the first frame 120, fixed to the end of the horizontal plate 151 And a seating member 152 seated on an upper surface of the first geotextile structure 131, and fixed to the horizontal plate 151 and the seating member 152 so that the horizontal plate 151 is horizontal. It is provided including a reinforcing member (153).

It further comprises a mounting cap 170 mounted to the upper end of the front plate 160 to maintain the shape of the front plate 160 installed on the bottom plate 110.

The following describes the process of installing the present invention configured as described above in the soft ground.

First, the foundation of the soft ground on which the present invention reinforcement retaining wall structure 100 is installed, and as shown in Figures 2 to 8, the base plate is laid on the soft ground, the rubble is laid and concrete is placed on the bottom plate 110 ), The bottom plate 110 is preferably installed in pairs so as to support both ends of the reinforced soil retaining wall structure 100.

In addition, the first frame 120 is fixed to the bottom plate 110 which is installed to face each other. After the support member 122 of the first frame 120 is seated on the top surface of the bottom plate 110, the support member is mounted. The vertical plate 121 is vertically fixed to the support member 122 in a state where the 122 is fixed to the bottom plate 110 by a fixing member (not shown).

The geotextile tube (131a) is seated on the upper surface of the vertical plate 121, the bottom plate 110 and the soft ground of the first frame 120, the filling material of the earth (131b) inside the geotextile tube (131a) ).

At this time, the filler 131b may be filled by using a dry filling method using an excavator or a wet injection method using a dredging pump, and the filler 131b filled in the geotextile tube 131a through a separate equipment. The vertical plate 121 supports the filler 131b, which is compacted by the equipment, to maintain the shape of the geotextile structure, and the vertical plate 121 is fixed to the support member 122. Since the reinforcing member 123 is in close contact with each other, it is possible to prevent deformation of the vertical plate 121.

When the opening (not shown) of the geosynthetic tube 131a packed with the filler 131b is bonded to a bonding member (not shown) to form a first geotextile structure 131, the first geotextile structure 131 Dismantle the first frame 120 supporting the bottom plate 110.

When the first frame 120 is dismantled, both ends of the first geosynthetic fiber structure 131 are deformed to sag downwards, and both ends of the connection member 140 is connected to the upper surface of the first geosynthetic fiber structure 131 deformed. 142 is fixed to the second frame 150 on both sides of the upper end of the first geosynthetic structure 131 in a state in which the pipe 141 is coupled to be spaced at a predetermined interval, the seating of the second frame 150 While the member 152 is seated on the upper surface of the first geosynthetic fiber structure 131, the horizontal plate 151 is maintained horizontal.

In addition, the support member 122 of the first frame 120 removed from the bottom plate 110 is fixed to the horizontal plate 151, and the vertical plate 121 and the first frame 120 of the first frame 120 are fixed. The geotextile tube (132a) is seated on the upper surface of the second frame (150) and the first geotextile structure (131), and the filling material (132b) of the soil is filled in the geotextile tube (132a).

In this case, the filler 132b may be filled using a dry filling method using an excavator or a wet injection method using a dredging pump, and the filler 132b filled in the geotextile tube 132a through a separate device. In the compacted state, after forming the second geotextile structure 132 while joining the opening (not shown) of the geotextile tube 132a with a joining member (not shown), the second geotextile structure 132 is supported. Dismantle the first frame 120 from the second frame 150, and sequentially dismantle the second frame 150 from the first geotextile structure 131.

When the first and second frames 120 and 150 are dismantled, both ends of the second geotextile structure 132 are deformed to sag downwards, and both ends of the first and second frames 120 and 150 are connected to an upper surface of the second geotextile structure 132 deformed. Reinforced earth structure in which a plurality of geosynthetic structures are stacked by repeating the process of forming the second geosynthetic structure 132 in a state in which the connection member 142 of the 140 is seated to be spaced apart from each other by a predetermined interval ( 130).

Here, the reinforcement soil structure 130, should be formed up to the planned height to say the height of the road to be built, and leave the reinforcement soil structure 130 formed up to the planned height for a certain period.

This is because settlement occurs in the soft ground by the load of the reinforcement soil structure 130 during the period in which the reinforcement soil structure 130 is left, and when the reinforcement soil structure 130 is higher than the planned soil height according to the ground settlement, the reinforcement soil structure The top layer geosynthetic structure of 130 may be removed, and when the reinforcement soil structure 130 is lower than the planned soil level, the geosynthetic structure is further laminated or filled into the reinforced soil structure 130 to form the soil structure. Make it the same height.

When the reinforcement soil structure 130 is formed at the same height as the planned construction height through the above process, the front plate 160 is respectively installed at the ends of the bottom plate 110 facing each other, and the front plate 160 is the reinforcement soil structure 130. It is preferable that the protrusions are coupled to the grooves while being spaced apart from the predetermined distance, and as shown in FIG. 9, the connecting member 142 is connected to the connecting ring 143 formed by embedding an end portion in the front plate 160. After coupling to the end of the protruding, it is fixed by the tie member 144 in a tensioned state.

Here, the tie member 144 is preferably a swaging sleeve, because it is economical to shorten the working time than the turnbuckle.

In addition, a cable thimble is preferably mounted on the connection member 142 to prevent damage to the connection member 142 coupled to the connection ring 143.

When the connecting member 142 is tensioned to the connecting ring 143 of the front plate 160 and fixed to the tie member 144, a backfill material 160 ′ is formed between the reinforcement soil structure 130 and the front plate 160. Filling and compacting, the backfill material 160 'is not related to the structural stability of the reinforcement soil structure 130, but there is no limitation on the material, during the rainy season, sandy soil of more than a predetermined permeability coefficient for a smooth drainage of the reinforcement soil structure 130 Preferably, the above process should be repeated to construct the front plate 160 and the back filling material 160 ′ equal to or higher than the reinforcement soil structure 130.

The backfill 160 (160) serves as a shock absorber to absorb the displacement caused by the deformation of the reinforcement earth structure 130, as well as a pair of opposing front plate 160 connected to each other by the connecting member 142 to the displacement of the front Without allowing the connection member 142 bears the earth pressure, so that the deformation of the reinforced earth structure 130 will be prevented.

It is possible to maintain the shape of the front plate 160 by mounting the upper end of the front plate 160, which is the same as or higher than the reinforcement soil structure 130 by the mounting cap 170 to prevent partial detachment.

Here, the reinforcement earth structure 130 is preferably formed in a vertical and pyramid shape according to the application.

As described above, the present invention, although described by the limited embodiments and drawings, terms or words used in the present specification and claims are not limited to the ordinary or dictionary meanings and should not be interpreted, the technical spirit of the present invention It must be interpreted to mean meanings and concepts. Therefore, the configuration shown in the embodiments and drawings described herein are only one embodiment of the present invention, and do not represent all of the technical spirit of the present invention, various changes within the scope of the claims of the present invention It should be understood that there may be equivalents and variations.

100: reinforced earth retaining wall structure 110: bottom plate
120, 150: 1st, 2nd frame 130: reinforcement earth structure
131, 132: first and second geosynthetic structure 140: connection portion
160: front panel 170: mounting cap

Claims (11)

Soft ground reinforcement soil retaining wall structure using geotextile tube,
A bottom plate installed to face the reinforcement soil structure on the soft ground;
A first frame detachably fixed to the bottom plate and the second frame to support the shape of the geotextile structure;
A first geotextile structure formed by filling a filling material into the geotextile tube seated on the first frame and the bottom plate and the upper surface of the soft ground;
A connection part for disassembling the first frame supporting the first geosynthetic fiber structure, and being connected to the first geosynthetic fiber structure to connect a pair of front plates to the connection member;
A second frame installed to support a first frame supporting a shape of a second geotextile structure on both sides of an upper end portion of the first geotextile structure in which the first frame is dismantled;
A second geosynthetic fiber structure formed by filling a filling material in a civil fiber tube seated on an upper surface of the first frame and the first geosynthetic fiber structure fixed to the second frame;
A reinforcing soil structure formed by stacking the first frame for supporting the second geotextile structure by repeating the process of forming the second geotextile structure in a state in which the connection member is seated;
Soft ground reinforcement soil retaining wall structure using a geosynthetic tube, characterized in that it comprises a pair of front plate to be coupled to the support member by tensioning and supporting the connection member installed on the bottom plate to be spaced apart from the reinforcement soil structure.
The method according to claim 1, wherein the first frame,
A vertical plate for supporting the geotextile tube;
A support member fixed horizontally to the lower end of the vertical plate;
Reinforced soil retaining wall structure using a geosynthetic tube, characterized in that it comprises a first reinforcing member fixed to the support member and the vertical plate to maintain the vertical plate vertical.
The method according to claim 1, The connecting portion,
A pipe seated on an upper surface of each geotextile structure;
A connection member coupled to the tube;
A connecting ring installed on the front plate to be coupled to an end of the connecting member;
Soft ground reinforcement soil retaining wall structure using a geosynthetic tube, characterized in that it comprises a tie member for tying and fixing the end of the connecting member coupled to the connecting ring.
The method according to claim 3,
The tie member is a soft ground reinforced soil retaining wall structure using a geosynthetic tube, characterized in that the swaging sleeve (swaging sleeve).
The method according to claim 3,
A soft ground reinforcement soil retaining wall structure using a geotextile tube, characterized in that it is provided between the connecting ring and the connecting member further comprises a cable thimble (thimble) to prevent damage to the connecting member.
The method of claim 1, wherein the second frame,
A horizontal plate installed at a side end of the first geosynthetic fiber structure to support the first frame;
A seating member fixed to an end of the horizontal plate and seated on an upper surface of the first geotextile structure;
A soft ground reinforced soil retaining wall structure using a geosynthetic tube, characterized in that it comprises a second reinforcing member fixed to the horizontal plate and the seating member to maintain the horizontal plate horizontal.
The method according to claim 1,
Soft ground reinforced soil retaining wall structure using a geosynthetic tube, characterized in that it further comprises a mounting cap mounted to the upper end of the front plate to maintain the shape of the front plate installed on the bottom plate.
As a construction method of soft ground reinforcement soil retaining wall structure using geotextile tube,
Installing a bottom plate facing the reinforcement soil structure on the soft ground;
Installing a first frame supporting the shape of the first geotextile structure on the bottom plate;
Mounting a geotextile tube on the first frame, the bottom plate and the upper surface of the soft ground, and filling a filler therein to form a first geotextile structure;
Disassembling the first frame supporting the first geosynthetic fiber structure, and then seating a tube having a connection member coupled to an upper surface of the first geosynthetic fiber structure;
Installing a second frame supporting the first frame dismantled from the first geotextile structure on both sides of an upper end portion of the first geotextile structure;
Installing a first frame dismantled from the first geotextile structure to support the shape of the second geotextile structure on the upper surface of the second frame;
Mounting a geotextile tube on an upper surface of the second frame and the first geotextile structure, and filling a filler therein to form a second geotextile structure;
After dismantling the first frame supporting the second geotextile structure, repeating the process of forming the second geotextile structure in a state in which the connection member is seated, thereby forming a reinforcement earth structure laminated to the planned togo;
Leaving the soft ground to settle under load of the reinforced earth structure;
After completion of the settlement, if the height of the reinforcement soil structure is higher or lower than the planned soil height, removing the top geotextile structure or adding fill soil;
Installing a front plate having connecting rings at both sides of the reinforcement soil structure at the same height as the reinforcement soil structure;
Coupling the connection member to the connection ring of the front plate installed on the bottom plate and fixing the tie member;
When the connecting member is coupled to the connecting ring by the tie member, the step of filling the backfill material between the reinforcement soil structure and the front plate with the backfill material is repeated until the same or higher than the reinforcement soil structure, soft ground reinforcement soil using a geotextile tube Construction method of retaining wall structure.
The method according to claim 8,
Before installing the bottom plate, the method of constructing a soft ground reinforced soil retaining wall structure using a geosynthetic tube, characterized in that it further comprises the step of arranging the foundation of the soft ground.
The method according to claim 8,
Construction method of the soft ground reinforced soil retaining wall structure using a geosynthetic tube, characterized in that further comprising the step of compacting the filler filled in the geosynthetic tube.
The method according to claim 8,
Construction method of the soft ground reinforced soil retaining wall structure using a geosynthetic tube, characterized in that further comprising the step of mounting a mounting cap on the upper end of the front plate to maintain the shape of the front plate.

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