KR101744378B1 - Method for Constructing Retaining Wall - Google Patents

Abstract

The present invention relates to an excavation surface capable of self-sustaining an earth retaining wall and suppressing excavation surface side displacement of the earth retaining wall without reinforcing members such as struts or the like by performing ground reinforcement by grouting on the excavation surface side of the earth retaining wall The present invention relates to a method for constructing an earth retaining wall by increasing the manual resistance by grouting.
(A) forming a front main heating wall and a rear main heating wall in two rows so as to be spaced apart from each other at regular intervals along a site boundary line, grouting between the front main heating wall and the rear main heating wall, Integrating the main heat wall; (b) forming a ground reinforcement passive resistance portion by grouting at a predetermined depth in the ground at predetermined intervals in the lateral direction of the front main heat-generating wall front surface before excavating the front portion of the front main heat-insulating wall; (c) a step of excavating a front surface of the front main heating wall to a depth where the ground reinforcing passive resistance portion is formed, wherein in the step (a), the front surface of the front main heating wall and the top surface of the rear main heating wall are horizontally (C), one end of the strand is fixed to the rear surface of the rear main heating wall so as to be vertically fixed, and the other end of the strand is fixed to the upper end of the front main heating wall and the rear upper heating wall And a fixing upper horizontal anchor is installed by introducing a tension force to the fixing wale on the front surface of the front main heating wall.

Description

Increasing Manual Resistance by Excavation Surface Grouting Method for Constructing Retaining Wall

The present invention relates to a method for constructing a manual resistance-enhancing earth retaining wall by excavation surface grouting, and more particularly, to a method of constructing an earth retaining wall by grouting the earth retaining wall of the earth retaining wall by grouting without providing a reinforcement member such as a strut The present invention relates to a method for constructing an earth retaining wall by increasing the manual resistance by excavation surface grouting capable of restraining the earth retaining wall and restraining displacement of the excavating surface of the retaining wall.

The retention method can be variously classified according to the type of the earth retaining wall for maintaining the self-reliance of the back side soil and the type of support for structurally supporting it. There are H pile + soil plate, steel sheet pile, cast in place pile, SCW (Soil Cement Wall), Diaphragm Wall, Slurry Wall, and so on. Ground anchor method, and soilless nailing method.

The earth retaining wall or the earth wall was originally constructed as a temporary structure for the purpose of resisting the side pressure such as earth pressure and water pressure during the foundation erosion work. However, recently, as the excavation works in the urban area become more frequent, And the purpose of use is diversified.

Especially in recent years, it has been used as a part of building body such as foundation piles and seismic walls as well as simple temporary earth retaining walls due to the emergence of continuous concrete reinforced concrete walls developed to cope with the prevention of pollution such as noise and settlement.

In order to select the most effective construction method among the various retaining methods, it is necessary to comprehensively consider the soil condition, the site condition, the influence on the site periphery, the construction cost, construction period, and construction.

However, in the conventional earth retaining method as described above, in order to maintain the earth pressure resistance and the self-sustaining of the earth retaining wall, a terrestrial technique using struts is mainly used. In this case, a plurality of central struts are required across the central portion. And the structure is complicated, so that the space becomes narrow and the workability is deteriorated.

In order to solve this problem, the technology to be a background of the present invention is a patent registration No. 0576293 entitled " Support structure of toothed wall "(patent document 1). 7, in the toe supporting structure supported by the wrist strap 10 and the strut bracket 11 supporting the wrist strap 10, the wrist strap 11 is fixed to the wrist strap 10 from both sides of the strut 10, A pair of reaction forces that generate stress in the direction of supporting the earth pressure by the earth wall by causing a displacement in the earth wall direction with respect to the wristband 10 by transmitting a moment generated in the direction in which the earth wall moves to the outside, The members 20a and 20b and the reaction force members 20a and 20b are disposed between the reaction members 20a and 20b and the strut 11 so as to increase the distance between the reaction members 20a and 20b and the strut 11, And a preloading jack device 30 for generating a moment in the wale band 10. The present invention proposes a toothed wall support structure that increases the rigidity of the wale band 10, 11) can be reduced, And beotimbo 11 construction of the installation, it is possible to reduce the construction time and so on, and to facilitate adequate working space secured.

However, in the background art, it is necessary to install a separate strut 11, reaction members 20a and 20b and a preloading jack device 30 for generating a moment in order to increase the manual resistance even though the strut can be reduced. , Which causes a rise in the construction cost, and there is a problem that the space becomes narrow due to the complicated structure, and the workability is lowered.

Patent No. 0576293 entitled "Support Structure of Soil Wall"

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method and apparatus for securing a retaining wall by self- The present invention provides a method for constructing an earth retaining wall by increasing the manual resistance by excavation surface grouting which is stable, economical and can improve the workability.

(A) forming a front main heating wall and a rear main heating wall in two rows so as to be spaced apart from each other at regular intervals along a site boundary line, grouting between the front main heating wall and the rear main heating wall, Integrating the main heat wall; (b) forming a ground reinforcement passive resistance portion by grouting at a predetermined depth in the ground at predetermined intervals in the lateral direction of the front main heat-generating wall front surface before excavating the front portion of the front main heat-insulating wall; (c) a step of excavating a front surface of the front main heating wall to a depth where the ground reinforcing passive resistance portion is formed, wherein in the step (a), the front surface of the front main heating wall and the top surface of the rear main heating wall are horizontally (C), one end of the strand is fixed to the rear surface of the rear main heating wall so as to be vertically fixed, and the other end of the strand is fixed to the upper end of the front main heating wall and the rear upper heating wall And a fixing upper horizontal anchor is installed by introducing a tension force to the fixing wale on the front surface of the front main heating wall.

Further, in the step (b), the ground reinforcing passive resistance part may be formed continuously in the longitudinal direction of the front main heating wall.

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After step (c), a lower wale band and an upper wale band are formed laterally at a lower end of the front surface of the front main heating wall and at a portion spaced apart from the upper end by a predetermined distance from the lower end, Reinforced passive resistance portion of the reinforced portion, and each of the lakers can be configured such that both ends thereof are respectively supported by the upper wale band, the supporting file, the lower wale band and the supporting file, A reinforcing member having a cross section or an H section can be constructed so that the lacquer at the same height is interconnected in the transverse direction.

Also, in step (a), the fixing band formed in the horizontal direction by the H-shaped steel may be fixed at the same height between the front surface of the front main heating wall and the rear surface of the rear main heating wall.

In addition, after the step (c), a support file is vertically inserted into the ground reinforcing passive resistance portion of the portion spaced apart from the front portion of the front main heating wall so as to protrude upward with the same height as the front main heating wall, The first supporting braces are coupled horizontally at every predetermined height of the main heating wall, the second supporting braces are formed in the lateral direction at every predetermined height of the support pile, and the truss braces And a truss connecting the truss strut and the truss strut with a truss structure may be configured.

The method of constructing the earth retaining wall by the excavation surface grouting according to the present invention is a method of strengthening the earth retaining wall by grouting on the excavation surface side of the earth retaining wall by increasing the manual resistance, It can be self-supporting and has a very useful effect of being stable, economical, and improving the workability.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate exemplary embodiments of the invention and, together with the description, serve to explain the principles of the invention, Shall not be construed as limiting.
FIGS. 1 to 3 are flowcharts showing a method of constructing a manual resistance-increasing earth retaining wall construction by excavation surface grouting according to the present invention in the order of construction.
FIG. 4 is a side view and a plan view of an embodiment to which a lacquer of a method for constructing a manual resistance-increasing earth retaining wall by grouting excavation surfaces of the present invention is applied.
5 is a side view and plan view of a truss-applied embodiment of a method for constructing a manual resistance-increasing earth retaining wall by excavation surface grouting of the present invention.
FIG. 6 is a side view of an embodiment in which an upper fixed horizontal anchor is applied to a method of constructing a manual resistance increasing earth retaining wall by excavation surface grouting of the present invention.
7 is a schematic view showing a side of a toothed wall supporting structure in which a conventional strut is supported on the toothed wall;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the embodiments shown in the accompanying drawings, but the present invention is not limited thereto.

Hereinafter, the technical structure of the present invention will be described in detail with reference to the accompanying drawings.

FIGS. 1 to 3 are flowcharts showing a method of constructing a manual resistance-increasing earth retaining wall construction by excavation surface grouting according to the present invention in the order of construction.

As shown in FIG. 1A, a method of constructing a manual resistance-increasing earth retaining wall by excavation surface grouting of the present invention first forms a main heat wall 10 along a site boundary line (a).

The main heat wall 10 can be formed by a variety of known methods. In particular, the CIP is formed by excavating the ground with an auger, inserting a reinforcing net, filling gravel, and injecting mortar to form a main heat wall. (Soil cement wall) method in which a cast in place pile method or an underground soil is regarded as an aggregate and cement paste is injected thereinto and agitated and mixed to be cemented can be used. -cement injected pile) or the like.

1B, when the earth pressure on the back surface is increased at the time of underground excavation with a deep depth or a large scale, the main heat walls 10 are spaced apart from each other by a distance of 2 And may be formed of heat, and may be formed of the front main heat wall 10a and the rear main heat wall 10b.

At this time, the space between the front main heat wall 10a and the rear main heat wall 10b is filled with grout so that the front main heat wall 10a and the rear main heat wall 10b can be integrated to effectively resist the back earth pressure.

The grouting injection may be performed by using various known methods such as JSB (Jumbo Special Pile), RJP (Rod In Jet Pile), S.I.G (Super Injection Grouting) and S.G.R (Space Grouting Rocket System).

The front upper main heating wall 10a and the upper main heating wall 10b are connected to each other at regular intervals in the lateral direction by the connecting beam 11 to form two rows of front main heating wall 10a and rear main heating wall 10b It can be reinforced and integrated.

The connecting beams 11 may be joined in various ways. In particular, a core material such as H-shaped steel may be formed on the main heating walls 10a and 10b at regular intervals. The front and rear main heating walls 10a and 10b The connecting beams 11 may be coupled to each other so as to interconnect the core members.

2, the ground reinforcing passive resistance portion 20 is formed by grouting at a predetermined depth of the ground at a predetermined interval in the lateral direction of the front surface of the main heating wall 10 (b).

When forming the ground reinforcement passive resistance portion 20, a grouting pipe is inserted to a certain depth so as to form the ground reinforcement passive resistance portion 20 at a certain depth of the ground, and then formed by grouting. Of grout material can be used.

The provision of the ground reinforcement passive resistance portion 20 before the front portion of the main heat wall 10 is excavated is effective in that the ground reinforcement passive resistance 20 formed by interviewing the front face of the main heat wall 10, So that the main heat wall 10 can be self-sustained without any additional reinforcing member even when the front portion of the main heat wall 10 is excavated, as described later, by allowing the portion 20 to resist the earth pressure on the back surface of the main heat wall 10.

The ground reinforcement passive resistance portion 20 is formed in a face-to-face contact with the front face of the main heating wall 10 and is formed at regular intervals in the lateral direction of the main heating wall 10.

Generally, the earth retaining wall is a structure for resisting the earth pressure on the rear surface opposite to the excavation surface side. It is common to provide reinforcing members such as thumb piles, earth plates, wales, struts, So that only the ground reinforcement passive resistance part 20 can be made to resist without a separate reinforcing member.

Finally, as shown in FIG. 3, the front portion of the main heat wall 10 is excavated to a certain depth (c).

The excavation is performed by excavating stepwise by maintaining the slope stability angle, and excavation is performed so that the load does not reach the upper end of the main heat wall 10. The excavation depth is excavated up to the height at which the ground reinforcement passive resistance part 20 is formed, so that the ground reinforcement is reinforced by the ground reinforcement passive resistance part 20.

Thus, even if the front portion of the main heat wall 10 is excavated to a certain depth, the ground of the excavation side is reinforced by the ground reinforcement passive resistance portion 20 formed at the lower portion of the main heat wall 10, And it is possible to suppress the excavation surface side displacement of the earth retaining wall.

The ground reinforcing passive resistance portion 20 is formed in a face-to-face contact with the front portion of the main heating wall 10 and is formed at regular intervals in the lateral direction of the main heating wall 10. The ground reinforcing passive resistance portion 20, As shown in FIG. 3B, when the excavation depth and the magnitude of the earth pressure applied to the back surface of the main heat wall 10 are increased, the ground reinforcement can be provided in the longitudinal direction of the main heat wall 10 Two or more passive resistance portions 20 may be continuously formed.

When the depth of excavation is deepened or the back earth pressure of the main heat wall 10 increases, it is difficult for the ground reinforcement passive resistance portion 20 to resist the earth pressure of the rear soil so that the lacquers 30a and 30b, And the upper fixing horizontal anchor 50. The reinforcing member may be formed of a metal such as stainless steel.

4 is a side view and a plan view of an embodiment reinforced using lakers 30a and 30b of a method for constructing a manual resistance increasing earth retaining wall by excavation surface grouting according to the present invention.

As shown in FIG. 4, after the step (c), the lakers 30a and 30b may be formed on the ground reinforcing passive resistance part 20 to reinforce the main heat wall 10. FIG.

The lower wale band 12 and the upper wale band 13 are formed in the lateral direction at portions spaced upward from the lower end portion and the lower end portion of the front portion of the main heat wall 10 for supporting the lakers 30a and 30b, Reinforced passive resistance portion 20 at a position spaced a predetermined distance from the front portion of the main heat wall 10 by inserting the support pile 31 vertically.

The support piles 31 may be inserted at the same time during grouting to form the ground reinforcing passive resistance portion 20 or may be inserted after formation of the ground reinforcing passive resistance portion 20. [

The lakers 30a are formed by oblique lines so as to support the upper wales 13 and the support pawls 31 of the main heat wall 10 in a diagonal direction so as to prevent buckling due to the lengthy length of the lakers 30a, The loker 30b is horizontally installed so as to support both ends thereof by the lower wale band 12 and the support pawls 31 of the main heat wall 10. [

Between the end portions of the support pawls 31 and the lacquers 30a and 30b, the lacquer strands 32 are formed in the lateral direction so that the end portions of the lacquers 30a and 30b are constrained in the lateral direction The supporting area can be widened to be stably supported.

That is, the lacquer string 32 is coupled to the support pile 31 so as to connect the side of the main heat wall 10 in the lateral direction, and the lacquer string 32 can be formed of various shaped steel such as H-shaped steel.

In addition, the oblique lakers 30a may be configured to have a reinforcing member 33 having a cross section or an H cross section so as to interconnect the lakers 30a in the transverse direction for preventing buckling and reinforcing the length of the lakers 30a. have.

5 is a side view and a plan view of an embodiment reinforced with a truss 40 of a method of constructing a manual resistance increasing earth retaining wall by excavation surface grouting of the present invention.

As shown in FIG. 5, after the step (c), the truss 40 may be formed on the front surface of the main heat wall 10 to reinforce the main heat wall 10.

The ground reinforcing passive resistance portion 20 at a portion spaced a predetermined distance from the front portion of the main heat wall 10 has the same height as the order receiving wall 10 in order to reinforce the front surface of the main heat wall 10 with the truss 40 And the supporting pawls 41 are inserted vertically so as to protrude upward.

The second braided band 42 and the first braided band 14 are connected to each other at the same height in the transverse direction of the support pile 41 and the main heating wall 10 and the first braided band 14 And the second support wale 42 are horizontally connected to each other so as to reinforce the structure of the truss 40 while maintaining the width of the support pile 41. [

In such a configuration, the truss 40 is configured to connect the truss brace 43 and the truss brace 43 in a truss structure.

FIG. 6 is a side view of an embodiment reinforced by using the upper fixed horizontal anchor of the method of constructing the manual resistance increasing earth retaining wall by excavation surface grouting of the present invention.

6, when the main heat wall 10 is formed by two rows of the front main heat wall 10a and the rear main heat wall 10b after the step (c), the upper fixed horizontal anchor 50 is formed, The reinforcing member 10 can be reinforced.

When the main heat wall 10 is formed in two rows, the horizontal arm length Ha becomes longer and the horizontal acting load becomes larger as shown in FIG. 6A at the same excavation depth. Therefore, the upper fixed horizontal anchor 50 is horizontally installed so as to resist the horizontal acting load, thereby suppressing horizontal displacement toward the excavation surface side.

6A, in step (a), a fixing wale 51a (see FIG. 6A) formed in the horizontal direction at the same height as the front surface of the front main heating wall 10a and the rear upper surface of the rear main heating wall 10b, ) 51b are fixedly provided so that the direction of the strand of the upper fixed anchor 50 can be easily changed, fixed and fixed.

(c), the upper fixed horizontal anchor 50 is installed so that one end of the strand is vertically fixed to the rear surface of the rear main heat wall 10b, and the other end of the strand is fixed to the upper end The fixing wales 51a and 51b formed in the front main heating wall 10a and the rear main heating wall 10b penetrate through the fixing wales 51a and 51b to fix the fixing wales 51a on the front surface of the front main heating wall 10a .

A portion where one end of the upper fixed horizontal anchor 50 is fixed is provided with a fixing field of a horizontal anchor 50 strand at the lower end portion of the near partial earth pressure moment balance supporting point (virtual supporting point) of the rear surface of the rear main heating wall 10b.

6B, when the excavation depth is deeper, the horizontal member 52 is further protruded to the front surface of the front main heat wall 10a by a predetermined distance to fix the other end of the strand of the upper fixed horizontal anchor 50, So as to more effectively resist the horizontal acting load and to suppress horizontal displacement toward the excavation surface side.

The horizontal member 52 may be formed of a member such as an H-shaped steel having a predetermined length. The horizontal member 52 may be formed perpendicular to the main heating wall 10 in the fixing wale 51a of the front surface of the front main heating wall 10a, The other end of the upper fixed horizontal anchor 50 is fixed to the outer end of the horizontal member 52 so that the fixing region of the strand is formed to be spaced apart from the front main heating wall 10a by the length of the horizontal member 52 .

In the method of constructing the manual resistance increasing earth retaining wall by the grouting of the excavation surface of the present invention as described above, the ground reinforcement by grouting is performed on the excavation surface side of the earth retaining wall to increase the manual resisting force so that the lacquer It is possible to make the retaining wall self-supporting, which is very effective for stable, economical and improved workability.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the above teachings. will be. The invention is not limited by these variations and modifications, but is limited only by the claims appended hereto.

10: Warming wall
10a: Front front wall
10b: Rear heat insulating wall
11: Connection beam
12: Lower wale
13: upper wale
14: First brace
20: Ground reinforcement passive resistance part
30a, 30b: Lakers
31: support file
32: Racket Strap
33: reinforcing member
40: Truss
41: support file
42: 2nd brace tape
43: Truss strap
50: upper fixed horizontal anchor
51a, 51b: fixing wale band
52: Horizontal member

Claims (10)

(a) a front main heating wall 10a and a rear main heating wall 10b are formed in two rows so as to be spaced apart from each other at a predetermined interval along the site boundary line CL, and a gap between the front main heating wall 10a and the rear main heating wall 10b Integrating the front main heat wall (10a) and the rear main heat wall (10b) by grouting;
(b) forming the ground reinforcement passive resistance portion 20 by grouting at a predetermined depth in the ground at predetermined intervals in the lateral direction of the front surface of the front main heating wall 10a before excavating the front portion of the front main heat receiving wall 10a;
(c) drilling a front surface of the front main heat-radiating wall 10a to a depth at which the ground-reinforcing passive resistance portion 20 is formed,
In step (a)
Fixing wales 51a and 51b formed in the horizontal direction at the same height of the front surface of the front main heater 10a and the rear surface of the rear main heater 10b are formed as H-
After step (c)
The other end of the strand is fixed to the fixing wales 51a and 51b provided at the upper ends of the front main heating wall 10a and the rear main heating wall 10b, And an upper end fixing horizontal anchor (50) is installed by introducing a tension force to the fixing wale band (51a) on the front surface of the front main heating wall (10a) by passing through the fixing wale grouting Way. The method according to claim 1,
In the step (b)
Wherein the ground reinforcement passive resistance section (20) is formed continuously in the longitudinal direction of the front main heat transfer wall (10a) by a ground reinforcement passive resistance section (20). delete The method according to claim 1,
In step (a)
Wherein the upper and lower main heat transfer walls (10a) and (10b) are connected to each other at regular intervals in the transverse direction by means of a connecting beam (11). The method according to claim 1,
After step (c)
The lower wale band 12 and the upper wale band 13 are formed in the transverse direction at the lower end of the front portion of the front main heater 10a and at the portion spaced apart from the lower end by a predetermined distance,
Reinforcing passive resistance portion 20 at a position spaced apart from the front portion of the front main heater 10a by a predetermined distance,
The lacquers 30a and 30b are configured in oblique and horizontal directions so that both ends are supported by the upper wale 13, the support pile 31, the lower wale 12 and the support pile 31, respectively Increase of manual resistance by excavation grouting. The method of claim 5,
Wherein the lacquer stratum 32 is formed in the transverse direction between the support pile 31 and the ends of the lakers 30a and 30b. delete The method according to claim 1,
A horizontal member 52 having a predetermined length perpendicular to the front main heating wall 10a is formed in the fixing wale 51a on the front surface of the front main heater 10a and the other end of the upper fixing horizontal anchor 50 is fixed Is fixed to the outer end of the excavation surface (52). The method of claim 5,
Wherein a reinforcing member (33) having a cross section or an H section is configured to mutually connect the lacquers (30a) formed by diagonal lines in the transverse direction. The method according to claim 1,
After step (c)
A supporting file 41 is vertically inserted into the ground reinforcing passive resistance portion 20 at a portion spaced apart from the front portion of the front main heating wall 10a so as to protrude upward at the same height as the front main heating wall 10a and,
The first supporting braces 14 are joined in the lateral direction for every predetermined height of the front main heating wall 10a,
The second supporting wale band 42 is formed in the lateral direction for every predetermined height of the support pile 41,
The truss brace 43 is coupled to the first brace band 14 and the second brace band 42 so as to horizontally connect them,
Wherein a truss (40) connecting the truss brace (43) and the truss brace (43) in a truss structure is constituted by the grouting of the excavation surface.

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