KR101455202B1 - Construction method of an underground structure using lower member installed temporary system - Google Patents

Abstract

An objective of the present invention is to provide an underground structure construction method using a lower member where a temporary facility is disposed. According to the present invention, the temporary facility capable of supporting earth pressure of a retaining wall body is disposed above and inside the lower member of an underground structure, and an upper member of the underground structure can have an operation space ensured, without any spread beam, by the temporary facility for construction in an upwardly open state. According to the present invention, a spread beam is disposed on the underground structure, between furring strips disposed in the retaining wall body, during downward ground drilling, an outer side inclination support member or a horizontal support member is disposed between the furring strips disposed on both sides of the retaining wall body and a side wall of the lower member of the underground structure, and an inner side inclination support member is disposed inside the lower member of the underground structure to be inclined on a line extending from the outer side inclination support member so that the earth pressure of the retaining wall body can be supported.

Description

BACKGROUND OF THE INVENTION Field of the Invention [0001] The present invention relates to a construction method of an underground structure using a lower member provided with a pseudo-

The embodiment of the present invention is characterized in that the lower part of the underground structure installed in the ground supports the earth pressure of the earth retaining wall by providing a supporting structure capable of supporting the retaining wall and the upper part of the underground structure is supported by the above- The present invention relates to a method of constructing an underground structure using a lower member provided with a provisional structure capable of being installed in a state where a work space is secured and an upper portion thereof is opened.

The embodiment of the present invention is a construction method used for installing a low-depth underground structure such as an open-ended tunnel, a culvert, a cavity, etc. In order to support the earth pressure of the earth retaining wall, The present invention relates to a method of constructing an underground structure.

The contents described in this section merely provide background information on the embodiment of the present invention and do not constitute the prior art.

As shown in FIG. 1 (a), a method of constructing an underground structure according to the related art includes installing earth retaining walls 100 on both sides of a ground at an interval greater than the width of an underground structure, digging the ground from the ground, A strut 300 is installed between the wale belts 200 installed on the body 100 to support the earth pressure of the earth retaining wall body.

The lower part 400 of the underground structure installed on the abandoned concrete 800 or the upper part of the aggregate is installed on the bottom surface of the excavated concrete 800 by placing the abandoned concrete 800 on the excavated bottom surface or by reinforcing the aggregate (not shown) Concrete or precast concrete is used to disassemble the strut 300 when the upper member 500 of the underground structure is installed and the upper member 500 is installed on the lower member 400 and the upper member 500 ) Uses on-site concrete or precast concrete.

As the installation of the underground structure progresses, the strut 300 is disassembled in the reverse order of the installation sequence, and the outside of the underground structure is filled up to the ground by the earth and sand Loses.

However, according to the related art, since the disassembly and restoration of the strut are repeated according to the installation direction of the underground structure and the upper member of the underground structure is installed, the installation process of the underground structure is complicated and the workability is decreased and the air is lengthened.

As shown in FIG. 1 (b), a method of constructing an underground structure according to another embodiment of the present invention is to install an earth retaining wall 100 in the ground and excavate the ground from underground, And a slant supporting member 600 is installed between the lower portion of the earth retaining wall 100 and the lower block (kicker block 700).

The bottom surface of the excavation is reinforced by placing the abandoned concrete 800 or the aggregate (not shown) on the bottom surface of the excavation, and after installing the abandoned concrete 800 or the lower member 400 of the underground structure on the upper part of the installed aggregate, The support member 600 is dismantled and the gravel is buried between the side wall of the underground structure lower member 400 and the earth retaining wall 100.

The upper member 500 is installed on the lower structure 400 and the gravel is filled between the upper structure 500 and the earth retaining wall 100. When the underground structure is completed, (300) is disassembled.

However, in another embodiment of the prior art, a lower block (kicker block) must be installed on the bottom of the excavation so that one side end of the sloping support member can be supported, and the slope support member When the concrete is cured when it is buried in the poured concrete, the projecting portion of the inclined support member is cut and disassembled, and holes are formed in the lower member of the underground structure, resulting in durability degradation and leakage of the underground structure.

In the embodiment of the present invention, the upper and the inner side of the lower structure of the underground structure is provided with a supporting structure capable of supporting the earth pressure of the retaining wall, and the upper structure of the underground structure is provided with a work space The present invention also provides a method of constructing an underground structure using a lower member provided with a hermetic structure that can be installed in the underground structure.

According to an embodiment of the present invention, there is provided a method of constructing an underground structure, the method comprising: installing earth retaining walls (10) in the ground in a longitudinal direction of an underground structure, Installing a strut brace (30) on the underground structure between the wales (20) installed on the earth retaining wall (10) while excavating the ground from the ground to the underground;

Placing the abandoned concrete (40) on the ground surface of the excavated soil or laying an aggregate;

The U-shaped bottom member 50 is provided on the abandoned concrete 40 or the laid aggregate and the wale 20 installed on both sides of the earth retaining wall 10 and the side wall 52 of the U- Installing an outer inclined support member (60) between the upper portions;

Filling the soil between the side wall (52) of the U-shaped lower member and the earth retaining wall (10) and dismantling the outer inclined support member (60); Installing a U-shaped upper member (70) on the side wall (52) of the U-shaped lower member;

Dismantling the stranded bobbin (30) installed on the upper part of the underground structure by filling up the gravel between the side wall (72) of the U-shaped upper member and the earth retaining wall body (10) And filling up the gravel to the ground.

As described above, according to the present invention, provision of a pseudo pillar to a lower member of an underground structure reduces the installation and disassembly of a strut pile supporting the earth pressure of the piled wall, and the upper member of the pile is lowered It is possible to improve the workability of the underground structure, reduce the number of temporary members, and shorten the air.

Further, the present invention has the effect of improving the durability of the underground structure because it does not damage the lower member of the underground structure because it is easy to install and dismantle the temporary structure supporting the earth pressure of the earth retaining wall.

1 (a) and 1 (b) are cross-sectional views showing a conventional method of constructing an underground structure
2 (a) to 2 (g) are cross-sectional views illustrating a construction process of an underground structure using a lower member provided with a trick
3 (a) to 3 (h) are cross-sectional views illustrating a method of constructing an underground structure using a lower member provided with a truncated cone according to another embodiment of the present invention
Fig. 4 (a) is an enlarged sectional view taken along the line A in Fig. 3
Fig. 4 (b) and Fig. 4 (c) are enlarged cross-sectional views showing that the inner and outer inclination supporting members are provided on the side wall of the U-
4 (d) is an enlarged cross-sectional view of a portion B in Fig. 3 (b)
Figs. 5 (a) and 5 (b) are enlarged cross-sectional views showing that inner and outer supporting members are provided on the precast lower member, which is another embodiment of the present invention

DETAILED DESCRIPTION OF EXEMPLARY EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 (a) to 2 (g) are cross-sectional views showing a construction process of an underground structure using a lower member provided with a horseshoe structure according to an embodiment of the present invention. In FIGS. 2 (a) The walls 10 are installed on both sides in the longitudinal direction of the underground structure with a predetermined distance apart from the width of the underground structure.

A strut 30 is installed on the upper part of the earth retaining wall 10 between the wales 20 installed on the earth retaining wall 10 while excavating the ground from the ground to the ground and the abandoned concrete 40 is installed on the excavated ground bottom (Not shown) to reinforce the bottom of the ground.

A U-shaped lower member 50 is installed on the abandoned concrete 40 or an upper portion of the laid aggregate and an upper portion of the U-shaped lower member 50 is connected to an upper portion of the side wall 52 of the U- An outer inclined support member 60 is installed to support the earth pressure of the earth retaining wall body. When the U-shaped lower member is formed continuously in the longitudinal direction of the underground structure, the connection part of the lower members forms a waterproof layer (not shown).

In order to ensure the stability of the earth retaining wall 10, the abandoned concrete 40 is laid or an aggregate (not shown) is laid on the excavated ground bottom, and the outer inclined support member 60 is provided on the U- A temporary support member (not shown) may be operated between the earth retaining walls 10.

2 (d) to 2 (f), the outer slope supporting member 60 installed on the upper portion of the U-shaped lower member 50 is dismantled A U-shaped upper member 70 or an arched upper member (not shown) is installed on the upper part of the U-shaped lower member 50, and the U-shaped upper member 70 or the arched upper member is inserted into an on- Concrete is used, and the connection portion of the lower member and the upper member forms a waterproof layer (not shown).

The U-shaped lower member 50 is composed of a lower slab 51 and side walls 52 vertically extending vertically at both ends of the lower slab. The U-shaped upper member 70 includes an upper slab 71, And side walls 72 extending vertically downward at both ends of the upper slab.

2 (g), the soil material is filled up to the upper part of the U-shaped upper member 70, the strut 30 installed on the underground structure is dismantled, and the soil is backed up to the ground. Is completed.

3 (a) to 3 (h) are cross-sectional views showing a method of constructing an underground structure using a lower member provided with a trickery structure according to another embodiment of the present invention. FIG. 3 (a) The outer slant supporting member 60 to be used is provided between the upper portion of the side wall 52 of the U-shaped lower member 50 and the wale band 20 provided on the earth retaining wall 10.

3 (b) shows another embodiment of the present invention in which inner and outer inclination supporting members 60 and 61 are provided on the outer side and the inner side of the U-shaped lower member 50. The U- An outer inclined support member 60 is provided between the upper portion of the side wall 52 of the U-shaped lower member 50 and the wale 20 provided on the earth retaining wall 10, and the bottom slab 51 and the side wall 52 The inner inclined support member 61 is provided so as to be inclined on the extension line of the outer inclined support member 60.

3 (c) shows another embodiment of the present invention in which two L-shaped lower members 53 are spaced a predetermined distance apart from both sides of the earth retaining wall 10, And the L-shaped lower member 53 is composed of a lower slab 54 and a side wall 55 extending upwardly and vertically from one end of the lower slab, and the L-shaped lower member 53, The outer slant supporting member 60 is provided between the upper portion of the side wall 55 and the wale 20 provided on the earth retaining wall 10.

3 (d) shows another embodiment of the present invention in which two L-shaped lower members 53 are spaced apart from each other by a predetermined distance on both sides of the earth retaining wall 10, And an outer inclination supporting member 60 is provided between the upper portion of the side wall 55 of the L-shaped lower member 53 and the wale band 20 provided on the earth retaining wall member 10, An inner inclined support member 61 is provided between the bottom slab 54 and the side wall 55 on the inner side of the member 53 so as to be inclined on the extension line of the outer inclined support member 60.

3E shows another embodiment of the present invention in which two L-shaped lower members 53 are provided at a predetermined distance from the both sides of the earth retaining wall 10 at predetermined intervals, and the L-shaped lower member 53 A plurality of shear keys 56 are formed at predetermined intervals in the longitudinal direction of the underground structure and are embedded in the abandoned concrete 40 or the laid aggregate material, An outer inclined support member 60 is provided between the upper portion of the side wall 55 and the wale band 20 provided on the earth retaining wall 10.

3F shows another embodiment of the present invention in which two L-shaped lower members 53 are spaced apart from each other by a predetermined distance from both sides of the earth retaining wall 10, and the L-shaped lower member 53 A plurality of shear keys 56 are formed at predetermined intervals in the longitudinal direction of the underground structure and embedded in the reject concrete 40 or the laid aggregate.

An outer inclination supporting member 60 is provided between the upper portion of the side wall 55 of the L-shaped lower member 53 and the wale 20 provided on the earth retaining wall 10, An inner inclined support member 61 is provided between the slab 54 and the side wall 55 so as to be inclined on the extension line of the outer inclined support member 60. [

3 (g) shows another embodiment of the present invention, in which a horizontal support member and an inclined support member are provided on the outer side and the inner side of the U-shaped lower member 50, respectively. The U-shaped lower member 50 A horizontal support member 62 is provided between the upper portion of the side wall 52 of the U-shaped lower member 50 and the wale 20 provided on the earth retaining wall 10 and the bottom slab 51 and the side wall 52 The inner inclined support member 61 is inclined.

3 (h) shows another embodiment of the present invention, in which a horizontal support member and an inclined support member are provided on the outer side and the inner side of the L-shaped lower member 53, respectively. Shaped lower members 53 are spaced apart from each other by a predetermined distance and a plurality of shear keys 56 are provided below the lower slab 54 of the L shaped lower member 53 in the longitudinal direction of the underground structure And are embedded in the abandoned concrete 40 or the laid aggregate.

A horizontal support member 62 is provided between the upper portion of the side wall 55 of the L-shaped lower member 53 and the wale 20 provided on the earth retaining wall member 10, The inner inclined support member 61 is provided between the side wall 54 and the side wall 55 so as to be inclined.

Fig. 4A is an enlarged sectional view taken along the line A in Fig. 3A. Fig. 4A is an enlarged sectional view of the U-shaped lower member 50, The outer slant supporting member 60 is formed by enlarging the member 60. The outer slant supporting member 60 is formed such that one side support member 64 is bolted to the wale band 20 and the side wall 52 of the U- A screw jack 63 capable of adjusting the length is coupled to the space 64 between the one side and the other side support member and the earth pressure of the earth retaining wall is connected to the outer side And is transmitted to and supported by the U-shaped lower member 50 by the inclined support member 60.

4 (b) and 4 (c) are enlarged cross-sectional views showing that the inner and outer inclined support members are provided on the side wall of the U-shaped lower member, Shaped lower member 50. The U-shaped lower member 50 has an outer inclined support member 60 and an inner inclined support member 61 disposed inside the side wall of the U- The other side support member 65 of the outer side inclined support member 60 is bolted to the inside of the side wall 52 of the U shaped lower member 50 and the other side support member 65 of the inner side inclined support member 60 64 are joined to the bolts 67 and the earth pressure of the earth retaining wall is transmitted to and supported by the U-shaped lower member 50 by the inner and outer inclined support members 60, 61.

Fig. 4 (d) is an enlarged sectional view taken along line B in Fig. 3 (b), and an inner inclined support member 61, which is slantly provided between the lower slab 51 and the side wall 52 of the U- One side support member 64 is bolted to the side wall 52 of the U shaped bottom member 50 and the other side support member 65 is bolted to the bottom slab 51, A screw jack 63, which is adjustable in length, is coupled between the other support members 64 and 65 to support the earth pressure of the earth retaining wall.

5 (a) and 5 (b) are enlarged cross-sectional views showing inner and outer support members provided on a U-shaped lower member according to another embodiment of the present invention. The upper portion of the U- Or the groove connecting portion 83, and the shape of the connecting portion is different, and the remaining components are the same.

The wristband 20 provided on the retaining wall 10 and the outer supporting member 80 provided on the side wall 52 of the U-shaped lower member 50 are disposed on the side wall of the wale band 20 and the U- 52 are bolted to the bracket 68, respectively.

An outer supporting member 80 is slantly installed between the brackets 68 and is joined to the bracket 68 by a bolt 69 so that the joining portion of the outer supporting member 80 is formed in a hinge structure, Adjustable. An outer inclination supporting member 60 including a screw jack (not shown) which can be adjusted in length may be installed between the brackets 68.

An inner support member 81 sloped between the bottom slab 51 and the side wall 52 on the inner side of the U-shaped lower member 50 is formed by brazing a bracket 68 to the bottom slab and the side wall upper by bolts 67 An inner support member 81 is slantly installed between the brackets 68 and is joined to the bracket 68 by a bolt 69 so that the joining portion of the inner support member 81 is formed in a hinge structure, The angle can be adjusted. An inner inclination support member 61 including a screw jack (not shown) which can be adjusted in length may be installed between the brackets 68.

10: retaining wall 20: wale
30: strut 40: abandoned concrete
50: U-shaped bottom member 51, 54: Lower slab
52, 55: side wall 53: L-shaped bottom member
56: shear key 60: outer inclined support member
61: inner inclination supporting member 62: horizontal supporting member
63: screw jack 64: one side supporting member
65: other side support member 66: nut
67, 69: Bolt 68: Bracket
70: U-shaped upper member 71: Upper slab
72: side wall 80: outer supporting member
81: Inner support member 82:
83:
100: earth retaining wall 200: wale
300: Strap 400: Lower member
500: upper member 600: inclined support member
700: lower block (kicker block) 800: abandoned concrete

Claims (10)

Installing the retaining walls (10) on the both sides in the longitudinal direction of the underground structure with a predetermined distance or more than the width of the underground structure in the ground;
Installing a strut brace (30) on the underground structure between the wales (20) installed on the earth retaining wall (10) while excavating the ground from the ground to the underground;
Placing the abandoned concrete (40) on the ground surface of the excavated soil or laying an aggregate;
The U-shaped bottom member 50 is provided on the abandoned concrete 40 or the laid aggregate and the wale 20 installed on both sides of the earth retaining wall 10 and the side wall 52 of the U- Installing an outer inclined support member (60) between the upper portions;
Filling the soil between the side wall (52) of the U-shaped lower member and the earth retaining wall (10) and dismantling the outer inclined support member (60);
Installing a U-shaped upper member (70) or an arched upper member on the side wall (52) of the U-shaped lower member;
Dismantling the stranded bobbin (30) installed on the upper part of the underground structure by filling up the gravel between the side wall (72) of the U-shaped upper member and the earth retaining wall body (10)
And filling up the gravel to the ground. The method for constructing an underground structure according to claim 1, The U-shaped lower member (50) according to claim 1, wherein the U-shaped lower member (50) comprises a lower slab (51) and side walls (52) extending vertically upwards at both ends of the lower slab, Wherein the upper slab (71) and the side wall (72) extend vertically downward at both ends of the upper slab. The U-shaped lower member (50) according to claim 1, wherein the U-shaped lower member (50) is replaced by two L-shaped lower members (53) spaced apart from each other by a predetermined distance on both sides of the earth retaining wall,
The L-shaped lower member 53 is composed of a lower slab 54 and a side wall 55 vertically extending upward from one side end of the lower slab. . The U-shaped lower member (50) according to any one of claims 1 to 3, wherein the outer inclined support member (60) is formed by bolting one side support member (64) to the wale band The other side support member 65 is bolted to the upper side of the outer side of the side walls 52 and 55 of the shape lower member 53 and the screw jack 63 is coupled between the one side and the other side support members 64 and 65 A method of constructing an underground structure using a lower member provided with a hypothetical feature. 4. The straddle-type vehicle according to any one of claims 1 to 3, wherein an inner inclined support member (61) is provided inside the U-shaped lower member (50) or the L-shaped lower member (53) Wherein the lower member is installed at an inclined angle with respect to the lower member. 4. The method according to claim 3, wherein a shear key (56) is formed at a predetermined interval in the longitudinal direction of the underground structure below the lower slab (54) of the L-shaped lower member (53) to be embedded in the fallen concrete (40) The method of claim 1 or 2, The internal inclining support member (61) according to claim 5, characterized in that one side support member (64) is bolted to the inside upper side of the side wall (52, 55) of the U-shaped lower member (50) And the other side support member 65 is bolted to the lower slabs 51 and 54 of the U-shaped lower member 50 or the L-shaped lower member 53. The other side support member 65 is bolted to the other side support members 64 and 65 And a screw jack (63) is coupled to the lower member. 6. The apparatus of claim 5, wherein the outer ramp support member (60) is replaced by a horizontal support member (62), the horizontal support member (62) Wherein a screw jack (62) is horizontally installed between the side walls (52, 55) of the member (53). 6. The apparatus according to claim 5, wherein the outer inclined support member (60) and the inner inclined support member (61) are replaced by an outer support member (80) and an inner support member (81)
A bracket 68 is bolted to each of the side walls 52 and 55 of the U-shaped bottom member 50 or the L-shaped bottom member 53 and the bracket 68 The outer support member 80 is slanted so that the bracket 68 is connected to the bolt 69 so that the outer support member 80 is formed in a hinge structure,
A bracket 68 is bolted to the upper portions of the bottom slabs 51 and 54 and the side walls 52 and 55 of the U-shaped lower member 50 or the L-shaped lower member 53, The inner supporting member 81 is inclined and the bolt 69 is joined to the bracket 68 so that the inner supporting member 81 is formed in a hinge structure. Construction method of underground structures. 10. The apparatus according to claim 9, wherein the outer support member (80) and the inner support member (81) are replaced by an outer inclination support member (60) and an inner inclination support member (61) A method of constructing an underground structure using a lower member having a built-in structure.

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