KR102110297B1 - Retaining wall and Retaining wall construction method - Google Patents

Abstract

The present invention relates to a retaining wall and a manufacturing method thereof, wherein the retaining wall comprises a plurality of piles (100). A discharge means is formed between the piles (100). Therefore, underground water in a back surface (10) of the retaining wall can be quickly discharged to a front surface (20) thereof so that the danger of collapse accidents can be reduced. In addition, constructability and economic feasibility can be improved. The retaining wall of the present invention includes: a plurality of piles (100) having a circumference shape and formed with a uniform cross section; a retaining wall line (200) in which the plurality of piles (100) are arranged; and a discharge means formed on one surface of the retaining wall line (200) and/or between the piles (100) to discharge the underground water.

Description

Retaining wall and retaining wall construction method {Retaining wall and Retaining wall construction method}

The present invention relates to a retaining wall and a construction method of the retaining wall, and in particular, the groundwater on the back of the retaining wall is discharged to the outside without discharge of sediment to prevent the collapse of the retaining wall due to the pressure of the groundwater and the water pressure of the groundwater and the construction of the retaining wall. It's about how.

Patent invention 001, the main body of the tube structure; An attachment formed on an edge of the rear trough of the body; A filter formed inside the center of the main body to prevent separation of aggregate through the rear trough of the main body; By including, it relates to a retaining wall drain pipe for enabling the smooth drainage of the retaining wall to increase the structural stability of the retaining wall.

Patent invention 002 relates to a filter pipe for a retaining wall drainage hole for backfilling that can be improved simply by inserting it into the rear of a plurality of drainage holes formed in the retaining wall, and inserted into each rear side of the drainage hole formed in a large number on the retaining wall It includes a filter unit for discharging the infiltration water while blocking the soil, the filter unit is inserted into the rear of the drain hole and a guide tube formed with a plurality of through holes 130 around the middle lower portion, and a fixing means at the rear of the guide tube It relates to a filter pipe for a retaining wall drain hole for backfilling, which is inserted and fixed through and is composed of a filter cap including a plurality of through holes 130.

Patent invention 003, a file body of a certain length, the lower end is inserted into the ground a certain depth; A plurality of drain pipes provided inside the pile body so that one end is exposed on one side of the pile body and the other end is exposed on the other side of the pile body; A soil pressure supporting plate having a plurality of through holes formed in a body whose ends are fixed to one side of the pile body so as to surround an open end of the drain pipe; And a filter material disposed between the pile body and the earth pressure supporting plate to filter the back water flowing through the through hole, and discharge the back water filtered by the filter material to the outside through the drain pipe. It is about drainage piles.

Patent invention 004 is formed on the inclined surface section and the rear inclined portion is inclined at the ends of both side wall surfaces protruding in the rear direction from both sides of the front inclined portion, the main wall is in contact with the guide wall to form a moving section to the inner surface of the rear inclined portion The moving section formed by fixing the assembly ribs to the surface, and the inclined surface which is the upper interval of the moving section, is provided with a vegetation block through which a through hole passes, and a drainage channel buried in an inclined surface in which the vegetation block is stacked, and the drainage channel The safety rib at the upper end of the protruding wall for the drainage channel formed, the safety rib is guided to be curved in the direction of the bottom of the drainage channel, and is connected to a through hole penetrating through the floor, and is buried in an inclined surface according to the surface of the slope. In the tube, the upper section of the drainage channel buried in the slope, which is the adjacent section of the vegetation block A separate reservoir that is buried, and a supply pipe which is buried along one side of the drainage pipe on the sidewall of the reservoir, and a branch pipe connected at one side between the supply pipe sections are connected to the insertion hole of the drainage pipe, passing downward. It relates to a drainage promoting device in a drainage channel for a retaining wall, characterized by providing drainage of rainwater to the drainage pipe by providing high pressure water pressurized by a pressure pump from the supply pipe to protrude.

KR 10-1973565 B1 (Registration date April 23, 2019) KR 10-1973566 B1 (Registration Date August 23, 2010) KR 20-0477688 B1 (Registration date July 2, 2015) KR 10-1689358 B1 (Registration date December 19, 2016)

The present invention is to solve the above problems, but is made of a plurality of piles, by forming a discharge means between the piles, by quickly discharging the groundwater on the back of the retaining wall to reduce the risk of collapse accidents, improve construction and economic efficiency Retaining wall and improved construction method.

In order to achieve the above object, the retaining wall of the present invention has a columnar shape and piles 100 formed in a uniform cross section; Retaining wall line 200 in which the piles 100 are arranged in plurality; A discharge means formed between one surface of the retaining wall line 200 and / or pile 100 to discharge groundwater; It includes.

The pile 100, the through-hole 130 formed in the center; An inner layer 140 disposed outside the through hole 130; An outer layer 150 disposed outside the inner layer 140; It includes.

An extension groove 160 formed on an outer periphery of the pile 100 and extending in a longitudinal direction of the pile 100; It further includes.

The discharge means is located between two adjacent piles (100), located in the extension space (S) between each extension groove (160), the first discharge means (310) for discharging groundwater downward; It includes.

The discharge means, is formed in close contact with the retaining wall line 200, the second discharge means 320 for discharging the groundwater to the bottom; It includes.

The discharge means includes: a third discharge means 330 for discharging ground water from one surface of the retaining wall to the other surface; It includes.

In order to achieve the above object, the construction method of the retaining wall of the present invention includes: a drilling step of forming a plurality of excavation holes on the ground; An intrusion step of inserting a pile 100 into the excavation hole; Excavation step of excavating one surface of the retaining wall line 200 made of a plurality of the pile (100); A soil removal step of removing soil between the piles 100; An installation step of installing discharge means between the piles 100; A first pouring step of pouring concrete into the remaining space between the piles 100; It includes.

The retaining wall of the present invention as described above and the construction method of the retaining wall have the following effects.

It is made of a plurality of piles, by being provided with a discharge means between the piles, it has the effect of quickly inducing and discharging the groundwater on the back of the retaining wall to the front to prevent the retaining wall from collapsing.

By forming a filling member in the extended space between the piles, it has the effect of preventing the outflow of soil from the rear surface of the retaining wall and improving the workability and economy.

1 is a longitudinal cross-sectional structure diagram of a retaining wall according to an embodiment of the present invention,
2 is a cross-sectional structure diagram of a state in which a perforated pipe is installed on a retaining wall according to an embodiment of the present invention,
3 is a cross-sectional structural view of a pile according to an embodiment of the present invention,
4 is a cross-sectional structure diagram of a state in which a bundle pipe is installed on a retaining wall according to an embodiment of the present invention,
5 is a longitudinal cross-sectional structure diagram of a state in which a drain board is installed on a retaining wall according to an embodiment of the present invention,
6 is a cross-sectional structure diagram of a state in which a drain board is installed on a retaining wall according to an embodiment of the present invention,
7 is a cross-sectional structural view showing a state in which a drain board according to an embodiment of the present invention is connected by a connecting member.

Hereinafter, the most preferred embodiments of the present invention will be described in detail in order to describe in detail that a person skilled in the art to which the present invention pertains can easily implement the present invention. The citation numbers presented in the above embodiments are not limited to the presented numbers, and are applicable to other embodiments. It is equivalent to an object that exerts the same purpose and effect as the configuration presented in this embodiment.

[Example 1-1] The present invention is an invention for a retaining wall, has a columnar shape, and piles 100 formed in a uniform cross section; Retaining wall line 200 in which the piles 100 are arranged in plurality; A discharge means formed between one surface of the retaining wall line 200 and / or pile 100 to discharge groundwater; It consists of a configuration comprising a.

[Example 1-2] The present invention is an invention for a retaining wall, and in Example 1-1, the material of the pile 100 is formed of any one of concrete, polymer, and metal.

[Example 1-3] The present invention is an invention for a retaining wall, and in Example 1-1, the pile 100 is configured to include a reinforcing means.

[Example 1-4] The present invention relates to a retaining wall, and in Example 1-3, the reinforcing means includes: a first reinforcing bar 110 provided in the axial direction of the pile 100; A second reinforcing bar 120 formed in the circumferential direction of the base pile 100 and connecting the first reinforcing bar 110; It consists of a configuration comprising a.

The retaining wall of the present invention is a structure made to prevent ground collapse that occurs when a stable slope of the ground surface is steeper than that, and the structure supporting the soil by incorporating the pile 100 in a position to form a retaining wall It is a self-supporting retaining wall that is installed in advance, excavates the front surface (20) up to the planned height, and is constructed by finishing the walls.

A conventional self-supporting retaining wall does not allow the discharge of moisture contained in the soil, which is disposed on the back surface 10, that is, the back water, so a smooth drainage method is required, but the pile 100 is penetrated and the front surface 20 Since it was excavated only, there was a problem that it was difficult to install rubble or drainboard. In order to solve this, the retaining wall of the present invention is provided with the discharge means for quickly discharging ground water between the piles (100).

The pile 100 is formed in a column shape having a circular uniform cross section, and a hollow penetrated in the longitudinal direction is formed at the center. Here, the reason why the pile 100 is formed in a column shape is to facilitate insertion into the ground and to secure uniform strength. In addition, the pile 100 is made of a concrete material, and may be made of a polymer or metal material in some cases.

The reinforcing means is for improving the strength of the pile 100, and is installed between the inner layer 140 and the outer layer 150, which will be described later. The first reinforcing bar 110 is made of a plurality, is spaced apart at regular intervals in the circumferential direction of the pile 100, the second reinforcing bar 120 is made of a plurality, the inside of the first reinforcing bar 110 It is disposed in close contact with the circumferential direction of the pile (100).

[Example 2-1] The present invention relates to a retaining wall, and in Example 1-1, the pile 100 includes a through hole 130 formed in the center; An inner layer 140 disposed outside the through hole 130; An outer layer 150 disposed outside the inner layer 140; It consists of a configuration comprising a.

[Example 2-2] The present invention relates to a retaining wall, and in Example 2-1, the inner layer 140 and the outer layer 150 are formed of the same or different materials.

[Example 2-3] The present invention relates to a retaining wall, and in Example 2-1, the thicknesses of the inner layer 140 and the outer layer 150 are the same or different.

[Example 2-4] The present invention relates to a retaining wall, and in Example 2-1, a reinforcing layer formed between the inner layer 140 and the outer layer 150; It consists of a configuration comprising a.

[Example 2-5] The present invention is an invention for a retaining wall, and in Example 2-4, the reinforcing layer has a structure formed of reinforcing bars.

The present invention limits the detailed structure of the pile (100). Specifically, the pile 100 is formed with a through hole 130 penetrated in the longitudinal direction at the center. The through-hole 130 is formed in a circular shape, and may be formed in a quadrangular shape, a polygonal shape, or the like in some cases. The inner layer 140 is formed in a circular shape along the outer periphery of the through hole 130, and the outer layer 150 is formed in a circular shape along the outer periphery of the inner layer 140. In addition, the inner layer 140 and the outer layer 150 are made of the same concrete material, it is preferable that the thickness of the inner layer 140 is formed thinner than the thickness of the outer layer 150.

The reinforcing layer is disposed between the outer periphery of the inner layer 140 and the inner periphery of the outer layer 150. The reinforcing layer is composed of the reinforcing means made of the first reinforcing bar 110 and the second reinforcing bar 120 as described above, and may be formed in a shape depending on the case.

In another embodiment, the reinforcing layer formed of a reinforcing bar or a shape may be formed without the through hole 130.

[Example 3-1] The present invention relates to a retaining wall, and in Example 3-1, it is formed on the outer periphery of the pile 100 and extends in the longitudinal direction of the pile 100 (160) ); It is made of a configuration further comprising.

[Example 3-2] The present invention is an invention for a retaining wall, and in Example 3-1, the extension groove 160 is formed of any one of a circle, an ellipse, and a polygon.

[Example 3-3] The present invention is an invention for a retaining wall, and in Example 3-1, the extension grooves 160 are formed in plural, and are uniform in the circumferential direction based on the center of the pile 100 Or unevenly arranged.

[Example 3-4] The present invention is an invention for a retaining wall, and in Example 3-1, an extension space S is provided between the extension grooves 160 formed in two adjacent piles 100. It consists of a structure to be formed.

The extension groove 160 is formed in a circular arc shape, is formed through the longitudinal direction of the pile 100, is composed of two are disposed symmetrically to each side on each side of the pile (100). Accordingly, the extension grooves 160 are disposed to face each other between the piles 100 adjacent to each other in the retaining wall line 200. In addition, the extension grooves 160 may be formed of four or more even numbers, and may be disposed at equal intervals along the outer periphery of the pile 100. Here, the diameters of the plurality of extension grooves 160 are all the same. In addition, in some cases, the extension groove 160 may be formed in an ellipse or a polygon.

[Example 4-1] The present invention is an invention for a retaining wall, and in Example 3-1, the discharge means is located between two adjacent piles 100, and between each of the extension grooves 160 A first discharge means 310 which is located in the extended space S and discharges groundwater downward; It consists of a configuration comprising a.

[Example 4-2] The present invention is an invention for a retaining wall, and in Example 4-1, the filter 312 is in close contact with the extension groove 160 and a drain 311 is inserted therein. It consists of a configuration.

[Example 4-3] The present invention relates to a retaining wall, and in Example 4-2, the drainage body 311 is made of one or more.

[Example 4-4] The present invention relates to a retaining wall, and in Example 4-2, the drainage body 311 is made of aggregate.

[Example 4-5] The present invention is an invention for a retaining wall, and in Example 4-2, the drainage body 311 is formed of a plurality of through-holes formed on a circumferential surface and made of a pipe-shaped perforated pipe.

[Example 4-6] The present invention is an invention for a retaining wall, and in Example 4-2, the drainage body 311 is made of a bundle pipe that absorbs water through a plurality of passages with side openings.

[Example 4-7] The present invention is an invention for a retaining wall, and in Example 4-6, the bundle pipe is composed of a plurality of pipes whose cross section is 'S'.

The present invention relates to a first discharge means (310) formed in the extension space (S) between the extension grooves (160). The first discharge means 310 is for discharging the groundwater of the rear surface 10 of the retaining wall line 200 downward. The first discharge means 310 includes a drain body 311 and a filter 312 surrounding the drain body 311. The filter may include a non-woven fabric, a mesh net, a cloth, etc., which prevents soiling, and all objects that transmit water are equivalent objects.

The drain body 311 may be made of aggregate. Aggregate is a material such as gravel or sand, which is filled in the extended space (S). Aggregate can quickly induce discharge of groundwater because its permeability coefficient is greater than that of soil.

In addition, the drain body 311 may be formed of a perforated tube having a plurality of through holes formed on a circumferential surface. More specifically, the perforated pipe is formed in the form of a pipe, and a plurality of through-holes through the circumferential surface are formed. In addition, the perforated tube is made of one, and may be made of a plurality in some cases. In addition, the first discharge means 310 is inserted and disposed in the extended space S, and is disposed in close contact with the rear surface 10 of the retaining wall line 200. Here, the diameter of the perforated pipe is preferably formed larger than the gap between the retaining walls. The groundwater of the rear surface 10 of the retaining wall line 200 moves to the inside of the perforated pipe through the through hole, and is discharged downward along the inside of the flow pipe by gravity.

In addition, the drain body 311 may be formed of a bundle pipe that absorbs water through a plurality of passages with side openings. More specifically, the bundle tube is composed of a plurality of pipes whose cross section is 'S'. The bundle pipe has a high efficiency in collecting and draining water because the water collecting port and the draining port are interconnected, and it is possible to block the inside from being closed by soil by being connected in plural.

[Example 5-1] The present invention is an invention for a retaining wall, and in Example 1-1, the discharge means is formed in close contact with the retaining wall line 200, and a second discharge means for discharging groundwater downwardly ( 320); It consists of a configuration comprising a.

[Example 5-2] The present invention relates to a retaining wall, and in Example 5-1, the second discharge means 320 includes a filter 312 mounted on an outer circumferential surface of the pile 100. It consists of a composition.

[Example 5-3] The present invention is an invention for a retaining wall, and in Example 5-1, the second discharge means 320 is configured to include a drain board in close contact with one surface of the filter 312. Is done.

[Example 5-5] The present invention relates to a retaining wall, and in Example 5-3, the second discharge means 320 are disposed between the piles 100 to connect the drain boards to each other. It consists of a configuration comprising a member 350.

The present invention relates to a second discharge means (320) formed in close contact with the retaining wall line (200). The second discharge means 320 is made of a drain board in which the filter 312 is disposed in close contact. The filter 312 may be attached to one surface and / or the other surface of the drain board. When constructing the retaining wall, the drain board is disposed close to the outside of the pile 100 together with the filter 312, and when the pile 100 is inserted into the extension space S, the extension space S Is placed in the insert. Thereafter, the drain boards respectively attached to the plurality of piles 100 are connected by the connecting member 350. The connecting member 350 may be formed of a cable tie, a 'C' type or a clamp type joint. The second discharge means 320 may be installed on the rear surface 10 without excavating the rear surface 10 of the retaining wall, thereby improving workability and economy.

[Example 6-1] The present invention relates to a retaining wall, and in Example 1-1, the discharge means is a third discharge means 330 for discharging groundwater from one surface of the retaining wall line 200 to the other surface. ) ;.

[Example 6-2] The present invention relates to a retaining wall, and in Example 6-1, the third discharge means 330 is made of a drain pipe.

[Example 6-3] The present invention relates to a retaining wall, and in Example 6-1, the third discharge means 330 is configured to be inclined downward from one surface of the retaining wall line 200 to the other surface. Is made of

The present invention relates to a third discharge means (330) disposed in one direction from the other surface of the retaining wall line (200). The third discharge means 330 is made of a drainage pipe, and is inserted into the extension space S between the piles 100. The third discharge means 330 is made of one, and is disposed under the first discharge means 310 or the second discharge means 320. Of course, depending on the case, the third discharge means 330 may be formed in plural, and may be arranged at regular intervals along the longitudinal direction of the first discharge means 310 or the second discharge means 320. The third discharge means 330 induces the groundwater functioned on the rear surface 10 of the retaining wall line 200 to be quickly discharged to the front surface 20 of the retaining wall line 200.

[Example 7-1] The present invention is an invention for a retaining wall, and in Example 3-1, a filling member 400 formed between the extension grooves 160 formed in two adjacent piles 100. ); It consists of a configuration comprising a.

[Example 7-2] The present invention is an invention for a retaining wall, and in Example 7-1, the material of the filling member 400 is made of concrete.

The present invention relates to a filling member 400 formed between the extension grooves 160. The conventional self-supporting retaining wall has a gap of about 50 mm between the piles 100 inevitably adjacent to each other by construction equipment, and unless a separate facility is installed in this space, the soil is discharged over time. Conventionally, in order to solve such a problem, a concrete wall was closed on the front surface 20 of the wall, but there was a problem in that workability and economic efficiency were deteriorated due to the addition of a construction type. To solve this, the filling member 400 of the present invention is formed between the extension grooves 160 of two adjacent piles 100, that is, in the extension space S to block the discharge of soil.

The filling member 400 is formed in a columnar shape of a columnar shape, and is made of a concrete material. The filling member 400 is injected in a paste state into the extension space S between the extension grooves 160 to fill the remaining space inside the extension space S and is then cured. Alternatively, any filling member that is cured after filling in place of the concrete and expresses strength may be substituted and used.

[Example 8-1] The present invention relates to a method for constructing a retaining wall, and includes a drilling step of forming a plurality of excavation holes on the ground; An intrusion step of inserting a pile 100 into the excavation hole; Excavation step of excavating one surface of the retaining wall line 200 made of a plurality of the pile (100); A soil removal step of removing soil between the piles 100; An installation step of installing discharge means between the piles 100; A first pouring step of pouring a filling member in the remaining space between the piles 100; It consists of a configuration comprising a.

[Example 8-2] The present invention is an invention for a method of constructing a retaining wall, and in Example 8-1, the installation step comprises forming either a perforated pipe or a bundle pipe between the piles 100. 1 piping installation step; After the first piping installation step, a second piping installation step of forming a drainage pipe in the direction of the other surface from one surface of the retaining wall line 200 between the pile 100; It consists of a configuration comprising a.

[Example 8-3] The present invention relates to a method for constructing a retaining wall, and in Example 8-1, a drain board is disposed on the outside of the pile 100 in the intrusion step and inserted into the excavation hole together. It consists of a configuration.

[Example 8-4] The present invention relates to a method for constructing a retaining wall, and in Example 8-2, after the sediment removal step, the connection between the piles 100 adjacent to the drainboard is connected. step; It consists of a configuration comprising a.

The present invention relates to a construction method of a retaining wall. First, a plurality of excavation holes are drilled in the ground at the position where the retaining wall is to be formed, and the piles 100 prepared in advance are respectively inserted into the excavation holes. Here, the pile 100 includes the pile 100 of the embodiment presented above.

Thereafter, the ground of the front surface 20 of the retaining wall line 200 in which the plurality of piles 100 are disposed is excavated, and the soil in the extension space S between the piles 100 is removed. Thereafter, the first discharge means 310 and the second discharge means 320 are inserted into the extension space S, and poured into the remaining space of the extension space S as a filling member. The filling member may be concrete or any material that is cured after filling on behalf of the concrete to express strength.

In some cases, when the pile 100 is inserted into the excavation hole, a drain board and / or a filter 312 may be closely attached to the outside of the membrane, and in this case, an extended space between the piles 100 After removing the soil of (S), a process of interconnecting the adjacent drainboards disposed in the extension space (S) is performed. Accordingly, the drainboard can be installed without excavating the defecation ground of the retaining wall line 200, thereby improving workability and economy.

The present invention is not limited thereto, and may be modified in various ways by those skilled in the art without departing from the spirit and scope of the appended claims below, and thus such modifications should be interpreted as being within the scope of the present invention. something to do.

The present invention is not limited to this, and may be modified in various ways by those skilled in the art without departing from the spirit and scope of the appended claims below, and thus such modifications should be interpreted as being within the scope of the present invention. something to do.

100: pile 110: first rebar
120: second reinforcing bar 130: through hole
140: inner layer 150: outer layer
160: Extension groove S: Extension space
200: retaining wall line 310: first discharge means
311: drain 312: filter
320: second discharge means 330: third discharge means
350: connecting member 400: filling member

Claims (12)

A pile 100 formed in a circumferential shape, having a uniform cross-section, extending in the longitudinal direction on the outer periphery, and having two extension grooves 160 symmetrically left and right on each side;
Retaining wall line 200 in which the piles 100 are arranged in plurality;
A discharge means formed between one surface of the retaining wall line 200 and the pile 100 to discharge groundwater;
The discharge means is located between two adjacent piles (100), is located in the extension space (S) between each extension groove (160), is in close contact with the extension groove (160), and a drainage body (311) is inserted therein. First discharge means (310) for discharging groundwater to the bottom by a filter being formed, and second discharge means for discharging groundwater to the bottom by a filter formed in close contact with the retaining wall line (200) and mounted on the outer peripheral surface of the pile (100) (320), retaining wall, characterized in that it comprises a; formed by; a third discharge means 330 for discharging ground water from one surface of the retaining wall to the other surface.
According to claim 1,
The pile 100,
A through hole 130 formed in the center;
An inner layer 140 disposed outside the through hole 130;
An outer layer 150 disposed outside the inner layer 140; Retaining wall, characterized in that it comprises a.
delete delete delete delete A drilling step of forming a plurality of excavation holes in the ground;
An intrusion step of inserting a pile 100 into the excavation hole;
Excavation step of excavating one surface of the retaining wall line 200 made of a plurality of the pile (100);
A soil removal step of removing soil between the piles 100;
An installation step of installing discharge means between the piles 100;
A first pouring step of pouring a filling member in the remaining space between the piles 100;
The installation step, the first pipe installation step of forming any one of the perforated pipe or bundle pipe between the pile 100;
After the first piping installation step, a second piping installation step of forming a drainage pipe in the direction of the other surface from one surface of the retaining wall line 200 between the pile 100;
A method of constructing a retaining wall, comprising: placing a drain board on the outside of the pile 100 in the intrusion step and inserting it into the excavation hole together.
According to claim 1,
The material of the pile 100 is formed of any one of concrete, polymer, and metal; Retaining wall containing.
According to claim 1,
The pile 100 is a retaining wall including a reinforcing means comprising a first reinforcing bar 110 provided in an axial direction and a second reinforcing bar 120 formed in a circumferential direction to connect the first reinforcing bar 110.
According to claim 1,
The extending groove 160 is formed of any one of a circle, an ellipse, and a polygon; a retaining wall comprising a.
According to claim 1,
The drainage body 311 is formed of an aggregate; retaining wall comprising a.
According to claim 1,
The second discharge means 320 comprises a drain board in close contact with one surface of the filter 312; retaining wall comprising a.

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