KR101994069B1 - the method of reconstruction of underground building - Google Patents

Abstract

The present invention relates to a novel reconstruction method of an underground building, which is possible to reduce time and costs required for demolishing an underground building and constructing a novel building. According to the present invention, the reconstruction method of an underground building is possible to demolish the conventional underground building and reconstruct the novel underground building at the same time, thereby reducing time required for demolishing an underground portion of the conventional building and reconstructing the novel building and reducing costs.

Description

The reconstruction of underground buildings

The present invention relates to a new underground building reconstruction method capable of reducing the time and cost required for removing underground buildings and constructing new ones.

Generally, the high-rise buildings are constructed with the lower part buried underground.

When rebuilding such a high-rise building, the building is demolished and the building is rebuilt.

On the other hand, when removing such a high-rise building, the ground part is first demolished and the underground part is demolished.

At this time, when the underground part of the high-rise building is demolished, the general high-rise building is deeply deep. When the underground part of the high-rise building is demolished, the underground slab is punctured, A method of removing the structure of the part was used.

Therefore, it takes a very long period of time to dismantle the underground part of the existing building and reconstruct the new building, as well as a costly problem.

Therefore, there is a need for a new method to solve such a problem.

10-1387954,

SUMMARY OF THE INVENTION It is an object of the present invention to provide a new underground building reconstruction method capable of reducing the time and cost required for removing underground buildings and constructing new buildings.

According to a first aspect of the present invention, there is provided a base structure including a base, a retaining wall extending upward from a periphery of the base, A method of rebuilding a basement structure including a plurality of slabs (3) provided to be connected to a plurality of lakers (A) fixed at both ends of the retaining wall (2) and a slab (3) A jack support installation step for installing a jack support 8 extending up and down in the slab 3 and installing the earth retaining wall 6 on the outer periphery of the retaining wall 2 A reinforcing step of constructing a plurality of PRDs 9 penetrating the foundation 1 and the slab 3 in the vertical direction and a reinforcing step of constructing the lower slab 3 sequentially from the upper slab 3 and the lacquer A. [ A slab construction step of removing the lacquer A and the slab 5 of a new building, An underground building reconstruction method comprising the steps of: based on the construction and dismantling the construction base (4) of the new construction of the water base (1) is provided.

According to another aspect of the present invention, the lacquer A comprises a fixing member 10 provided on the upper surface of the slab 3, a lower member 10 disposed downward from the outer end to an inner end, And the outer end of the rake body 20 is fixed to the inner side surface of the retaining wall 2 by an anchor bolt 27. The rake main body 20 is provided on the fixing member 10 to fix the fixing member 10 to the slab 3, A load sensing sensor 40 provided in the rake main body 20 for sensing a load applied to the rake main body 20 and a sensor 40 for detecting a load applied to the rake main body 20, (51, 52) for detecting a change in the relative position between the slab (20) and the slab (3) And is configured to be able to communicate with the smartphone 70 carried by the manager so that the separation sensing means 3 And a control means (60) for outputting a warning signal to the smartphone (70) when an abnormality is detected by the load detection sensor (40) and the position change detection means (51, 52) (10) comprises a horizontal board (11), a vertical board (12) extending upward from the inner end of the horizontal board (11), and a reinforcing board (12) connecting the horizontal board The rake body 20 is fixed to the upper surface of the slab 3 by an anchor bolt 14 passing through the horizontal plate 11 including the rake body 13 and the rake body 20. The rake body 20 is arranged to be inclined downwardly inward, A support case 22 having a tubular shape with an inner end opened and an inner end of the bar body 21 slidably inserted and coupled to the bar body 21; A support plate 23 disposed inside the support case 22 so as to be in close contact with an inner end of the bar body 21, The hinge bracket 25 hinges on the outer end of the support case 22 so as to be pivotable in the up-and-down direction and fixedly coupled to the inner surface of the retaining wall 2, Wherein an inner end of the bar body is brought into close contact with the vertical plate of the fixing member and the fixing plate is supported by a retaining plate, When the fixing plate 24 is lowered by using a breaker 7 or a hammer or the like so that both ends of the rake body 20 are fixed to the fixing member 10 and the inner side of the retaining wall 2 The separation sensing means 30 extends vertically and has a large diameter portion 31a at its lower end and a small diameter portion 31b at its upper end and upper and lower through holes 31c and 31d , A cylinder (31) formed to penetrate the horizontal plate (11) in a vertical direction, A lower piston 32 movably coupled to the inside of the large diameter portion 31a of the tub 31 and having an extension bar 32a extending downward through the lower through hole 31d on a lower side thereof, An elastic member 33 which is connected to the lower piston 32 and presses the lower piston 32 downwardly and an upper member 31c which is coupled to the small diameter portion 31b of the cylinder 31 so as to be able to ascend and descend, A lower piston 32 and an upper piston 34 which are filled between the upper piston 34 and the lower piston 32. The upper piston 34 is provided with a rack gear 34a extending upwardly through the upper piston 34 and the upper piston 34, A hydraulic oil 35 which is reciprocally moved up and down relative to the cylinder 31 and a support bracket 36 provided on the upper side of the cylinder 31 by a rotary shaft 37a and is engaged with the rack gear 34a A pinion gear 37 and a rotation angle measuring unit 37 connected to the rotation shaft 37a for measuring a rotation angle of the rotation shaft 37a, The load sensing sensor 40 is provided between the support case 22 and the support plate 23 and the position change sensing means 51 and 52 are disposed between the support case 22 and the support plate 23, A light emitting unit 51 provided on the lower side of the bar body 21 of the bar body 21 and adapted to irradiate light to the lower side and a light receiving means 52 provided on the upper surface of the slab 3 for receiving light irradiated from the irradiation unit , And the light receiving means (52) includes a rotating bracket (52a) fixed to the upper surface of the slab (3), a rotating shaft provided on both sides of the rotating bracket (52a) A light receiving case 52b provided with a transparent window 52c and a plurality of light receiving units 52a and 52b which are spaced from each other in the lateral direction on the inner bottom surface of the light receiving case 52b and irradiate light emitted from the light emitting unit 51 And a sensor (52d).

According to the reconstruction method of the underground structure of the present invention, since the existing underground structure can be removed and the new underground structure can be reconstructed, the period required for removing the underground portion of the existing structure and reconstructing the new structure is reduced, There is an advantage to be saved.

1 to 6 are reference views showing a method of reconstructing an underground structure according to the present invention,
FIG. 7 is a side cross-sectional view of a laker used in a reconstruction method of an underground structure according to the present invention,
FIG. 8 is a side cross-sectional view showing an enlarged view of a lacquer used in a reconstruction method of an underground structure according to the present invention,
FIG. 9 is a side cross-sectional view showing a lacquer fixing member and separation detecting means used in a reconstruction method of underground structures according to the present invention,
FIG. 10 is a side sectional view showing a lacquer separation sensor used in a reconstruction method of underground structures according to the present invention,
11 is a side cross-sectional view showing a light receiving means of a lacquer used in a reconstruction method of an underground structure according to the present invention,
12 is a circuit diagram of a laker used in a reconstruction method for underground structures according to the present invention,
FIGS. 13 to 18 are reference views showing the installation method and operation of the lacquer used in the reconstruction method of the underground structure according to the present invention.

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

1 to 18 show a method of reconstructing an underground structure according to the present invention. The method includes a foundation 1, a retaining wall 2 extending upward from a periphery of the foundation 1, And a plurality of slabs (3) provided so as to be connected to the retaining wall (2), and a method for constructing a new building at the place.

According to the present invention, as shown in FIGS. 1 to 6, a method of reconstructing an underground structure includes a plurality of lakers (not shown) fixed at both ends of the retaining wall 2 and the slab 3 to reinforce the retaining wall 2 A jack support installation step for installing a jack support (8) extending vertically to the slab (3), and a jack support installation step for installing a retaining wall body (6) on the outer periphery of the retaining wall (2) A reinforcing step of installing a plurality of PRDs 9 penetrating the foundation 1 and the slab 3 in the vertical direction and removing the slab 3 and the lacquer A on the upper side, A slab constructing step of sequentially removing the lower slab 3 and the lacquer A from the lacquer 3 and the lacquer A and constructing the slab 5 of a new building; And a basic construction step for constructing a foundation (4) of a new building.

7 to 18, the lacquer A includes a fixing member 10 provided on the upper surface of the slab 3, and a fixing member 10 disposed downward from the outer end to the inner end, A rake main body 20 which is in tight contact with the fixing member 10 and whose outer end is fixed to the inner side surface of the retaining wall 2 by an anchor bolt 27 and a fixing member 10 provided on the fixing member 10, A load sensing sensor 40 provided in the rake main body 20 and sensing a load applied to the rake main body 20, A position change sensing means 51 and 52 for sensing a change in a relative position between the rake main body 20 and the slab 3, And control means (60) connected to the means (51, 52).

9, the fixing member 10 includes a horizontal plate 11, a vertical plate 12 extending upward from an inner end of the horizontal plate 11, And a reinforcing plate 13 connecting the flat plate 11 and the vertical plate 12 so as to be disposed on the upper surface of the slab 3 so as to be spaced apart from the retaining wall 2 by a predetermined distance And an anchor bolt 14 penetrating through the horizontal plate 11 is used on the upper surface of the slab 3. [

As shown in FIG. 8, the rake body 20 includes a bar body 21 which is disposed so as to be inclined downward inward and whose inner end is in close contact with the vertical plate 12, A support case 22 having an inner end slidably inserted into and engaged with the bar body 21 and a support plate 22 disposed inside the support case 22 so as to be in close contact with an inner end of the bar body 21, (22) hingedly coupled to the outer end of the support case (22) so as to be vertically pivotable by a hinge bracket (25) provided on the inner surface of the upper part extending in the vertical direction, And a fixing plate 24 fixedly coupled to the side surface and having a prism plate 26 extending inward on a lower inner surface thereof.

The bar body 21 uses a general H beam.

The support case (22) has a cylindrical shape with an inner diameter larger than that of the bar body (21).

The support plate 23 is formed in the form of a disc of a metal material having high strength.

The fixing plate 24 is composed of a rectangular metal plate extending in the vertical direction.

The price plate (26) uses a metal plate having a concave groove (26a) formed at the center of its upper surface.

14, the inner end of the bar body 21 is brought into close contact with the vertical plate 12 of the fixing member 10, and the fixing plate 24 is brought into close contact with the retaining wall 2 , When the fixing plate 24 is lowered by using the breaker 7 or the hammer or the like as shown in FIG. 15, both ends of the rake body 20 are fixed to the fixing member 10 and the retaining wall 2 So that it can be brought into close contact with the inner surface.

15, when the fixing plate 24 is brought into close contact with the retaining wall 2 with an appropriate pressure, the fixing plate 24 is fixed to the retaining wall 24 using the anchor bolts 27 passing through the fixing plate 24, So that both ends of the rake body 20 can be fixed to the slab 3 and the retaining wall 2.

As described above, when the rake body 20 is fixed, the inner side surface of the retaining wall 2 is supported, and it is possible to prevent the retaining wall 2 from collapsing due to the earth pressure.

9 and 10, the separation sensing means 30 extends in the vertical direction, and has a large-diameter portion 31a at its lower end, a small-diameter portion 31b at its upper end, and upper and lower through- A cylinder 31 formed with a plurality of through holes 31c and 31d and coupled to penetrate the horizontal plate 11 in a vertical direction and a cylinder 31 coupled to the inside of the large diameter portion 31a of the cylinder 31, A lower piston 32 having an extension bar 32a extending downward through the lower through hole 31d and an elastic member 32 connected to the lower piston 32 to press the lower piston 32 downward An upper piston 34 which is movably coupled to the small diameter portion 31b of the cylinder 31 and has a rack gear 34a extending upward through the upper through hole 31c, Is filled between the upper piston (34) and the lower piston (32), and the lower piston (32) and the upper piston (34) And a support bracket 36 provided on the upper side of the cylinder 31 by a rotary shaft 37a so as to be rotatably engaged with the rack gear 34a, And a rotation angle measuring sensor 38 connected to the rotation shaft 37a and measuring the rotation angle of the rotation shaft 37a.

7, when the lower surface of the fixing member 10 is in close contact with the upper surface of the slab 3, the lower barrel 32a of the lower piston 32 presses the lower piston 32 The hydraulic oil 35 and the upper piston 34 are pushed up to the upper side.

18, when the slab 3 is pushed upward, the lower piston 32 and the upper piston 34 are lowered, and thereby, the rack gear 34a coupled to the rack gear 34a The pinion gear 37 rotates.

At this time, the rotation angle measuring sensor 38 measures the height of the slab 3 pushed upward by measuring the rotation angle of the rotation shaft 37a of the pinion gear 37, Control means 60 is transmitted.

That is, the fixing member 10 supports the inner end of the rake body 20, and earth pressure is applied to the rake body 20 to push the retaining wall 2 inward.

When the earth pressure pushing the retaining wall 2 is raised, the retaining wall 2 is pushed inward. In this case, excessive force is applied to the retaining member 10 by the rake body 20, As shown in Fig. 18, the fixing member 10 fixed to the slab 3 is pushed inward and is lifted upwards from the upper surface of the slab 3, as shown in Fig.

In this case, the separation sensing means 30 measures the height at which the fixing member 10 is lifted.

7 and 8, the load sensing sensor 40 is provided between the support case 22 and the support plate 23 to measure the earth pressure applied to the rake main body 20 .

As shown in FIGS. 7, 10 and 11, the position change detecting means 51 and 52 are provided on the lower side of the bar body 21 of the rake body 20, A light emitting unit 51 and a light receiving means 52 provided on the upper surface of the slab 3 for receiving light irradiated from the irradiation unit.

The light emitting unit 51 is configured to focus the light of the LED lamp provided therein by using a lens and irradiate the light toward the outside in a downward sloping manner in the form of a straight laser beam.

The light receiving means 52 is rotatably coupled to the pivot bracket 52a by pivot shafts provided on both sides of the pivot bracket 52a fixed to the upper surface of the slab 3, A plurality of light receiving sensors 52d which are spaced from each other in the lateral direction on the inner bottom surface of the light receiving case 52b and irradiate light emitted from the light emitting unit 51, .

16, the rake main body 20 is provided, and the light receiving means 52 is provided at a position where the light of the light emitting means 51 is irradiated from the upper surface of the slab 3 The angle of the light receiving case 52b is adjusted so that the light emitted from the light emitting means 51 is received by the light receiving sensor 52d located at the center of the light receiving sensor 52d, (51, 52) can be completed.

At this time, when the relative position between the rake body 20 and the slab 3 is kept constant, the light emitted from the light emitting means 51 is continuously irradiated to the light receiving sensor 52d at the most central portion.

Conversely, when the relative position between the rake body 20 and the slab 3 is such that the rake body 20 is pushed by the earth pressure acting on the retaining wall 2, or the slab 3 is pushed downward and deformed The light emitted from the light emitting means 51 is received by a light receiving sensor 52d other than the light receiving sensor 52d located at the center as shown in Fig.

Therefore, when the relative position between the rake body 20 and the slab 3 is deformed due to the earth pressure applied to the retaining wall 2 by monitoring the light received by the light receiving sensor 52d, .

The control means 60 is provided with a communication unit 61 capable of wirelessly communicating with the smartphone 70. The control means 60 is provided with the distance sensing means 30, the load sensing sensor 40, and the position change sensing means 51, A warning signal can be output to the smartphone 70 through the communication unit 61. [0033] FIG.

That is, the control means 60 detects that the fixing member 10 is spaced apart from the upper surface of the slab 3 by a predetermined height or more, or the load sensing sensor 40, The relative position between the rake body 20 and the slab 3 is detected by the position change detecting means 51 and 52 at a predetermined value or more If a change is detected, it is determined that an abnormality has occurred in the building, and a warning signal is output to the smartphone 70 to alert the administrator.

A method of dismantling the existing building and reconstructing the new building using the constructed lacquer (A) will be described as follows.

First, as shown in Fig. 1, the ground portion of the existing building is removed to reveal the underground portion of the existing building.

2, a plurality of lakers A are fixed to the retaining wall 2 and the slab 3 at both ends to reinforce the retaining wall 2, so that the earth pressure of the retaining wall 2 Thereby preventing the retaining wall 2 from collapsing.

Then, as shown in Fig. 3, a jack support 8 extending in the vertical direction is provided on the slab 3. As shown in Fig.

A plurality of the jack supports 8 are arranged so that upper and lower ends of the jack supports 8 closely contact the upper and lower sides of the slab 3 to reinforce the slab 3.

4, an earth retaining wall 6 is provided on the outer periphery of the retaining wall 2, and a plurality of PRDs 9, 9 extending vertically through the foundation 1 and the slab 3, percussion rotary drill.

At this time, the PRD 9 is installed so as to extend to the upper side of the uppermost slab 3, and supports the slab 3 of a newly installed building.

Then, as shown in Fig. 5, the uppermost slab 3 and the lower lacquer A are removed, and a new building slab 5 is constructed.

Then, the slab 3 and the lacquer A on the lower side are sequentially removed, and the slab 5 of the new building is constructed.

At this time, when the existing building is composed of three basements, as shown in the drawing, the slab (3) on the first basement and the lacquer (A) on the first basement are removed and the slab (3) And sequentially removing the slabs (3) and the lacquers (A) of the underground two-story and three-story basement, and installing the two-story underground and three-story slabs (3) of the new structure.

At this time, the manager monitors the warning signal transmitted from the control means 60 of the laker A to the smartphone 70, and takes a follow-up action when an abnormality occurs in the retaining wall 2 or the laker A do.

When the slab 3 and the lacquer A are completely removed, as shown in FIG. 6, the basement 1 of the existing building is dismantled and the foundation 4 of the new building is constructed, Can be completed.

According to the reconstruction method of the underground structure, it is possible to reconstruct the new underground structure while removing the existing underground structure, thereby reducing the period of time required for removing the underground portion of the existing structure and reconstructing the new structure, There is an advantage to be able to do.

The lacquer A used for the reconstruction of the underground structure is disposed on the upper surface of the slab 3 and is disposed downward from the outer end to the inner end, And the outer end of which is fixed to the inner side surface of the retaining wall 2 by an anchor bolt 27 and a rake body 20 provided on the fixing member 10 and fixed to the slab 3 A load sensing sensor 40 provided in the rake main body 20 for sensing a load applied to the rake main body 20 and a sensor 40 for sensing a load applied to the rake main body 20, A position change sensing means 51 and 52 for sensing a change in the relative position between the main body 20 and the slab 3, 52, and is capable of communicating with the smartphone 70 carried by the manager, And a control means 60 for outputting an alarm signal to the smartphone 70 when an abnormality is detected by the decreasing index stage 30, the load sensing sensor 40 and the position change sensing means 51 and 52 Not only the retaining wall 2 can be firmly fixed by the earth pressure when the slab 3 is demolished but also the fixing member 10 is pushed up in the process of demolishing the slab 3, If the retaining wall 2 or the slab 3 is deformed by the earth pressure so that the relative position between the rake body 20 and the slab 3 is changed, It is possible to inform the smartphone 70 of the fact that the stability of the work can be confirmed more effectively.

1. Foundation 2. Retaining wall
3. Slabs 6. Walls
8. Jack Support 9. PRD
A. Laker

Claims (2)

A base (1), a retaining wall (2) extending upward from the periphery of the foundation (1)
And a plurality of slabs (3) spaced from each other in a vertical direction and connected to the retaining wall (2) by a peripheral portion,
A lacquer installing step of installing a plurality of lacquers (A) having both ends fixed to the retaining wall (2) and the slab (3) to reinforce the retaining wall (2)
A jack support installation step of installing a jack support (8) extending in a vertical direction on the slab (3)
A reinforcing step of installing a plurality of PRDs (9) provided with an earth retaining wall (6) on the outer periphery of the retaining wall (2) and penetrating the foundation (1) and the slab (3)
A slab constructing step of sequentially removing the lower slab 3 and the lacquer A from the upper slab 3 and the lacquer A and constructing the slab 5 of a new building,
A basic construction step of dismantling the foundation 1 of the existing building and constructing the foundation 4 of the new building,
The laker (A)
A fixing member 10 provided on the upper surface of the slab 3,
A rake main body 20 disposed downward from an outer end to an inner end and having an inner end fixed to the fixing member 10 and an outer end fixed to an inner surface of the retaining wall 2 by an anchor bolt 27,
A spacing sensing means 30 provided in the fixing member 10 for sensing that the fixing member 10 is pushed upward from the upper surface of the slab 3,
A load sensing sensor 40 provided in the rake main body 20 for sensing a load applied to the rake main body 20,
Position change sensing means (51, 52) for sensing a change in the relative position between the rake body (20) and the slab (3)
And is configured to be able to communicate with the smartphone 70 carried by the manager by receiving the signals of the distance sensing means 30, the load sensing sensor 40 and the position change sensing means 51 and 52, And a control means (60) for outputting an alarm signal to the smartphone (70) when an abnormality is detected by the load detection sensor (40) and the position change detection means (51, 52)
The fixing member (10)
A horizontal plate 11,
A vertical plate 12 extending upward from an inner end of the horizontal plate 11,
And a reinforcing plate (13) connecting the horizontal plate (11) and the vertical plate (12)
Is fixed to the upper surface of the slab (3) by an anchor bolt (14) passing through the horizontal plate (11)
The rake body 20 includes:
A bar body 21 which is disposed so as to be inclined downwardly inward and whose inner end is in close contact with the vertical plate 12,
A support case 22 having an inner end opened and having an inner end slidably inserted into the bar body 21,
A support plate 23 disposed inside the support case 22 so as to be in close contact with an inner end of the bar body 21,
Is hinged to an outer end of the support case (22) by means of a hinge bracket (25) provided on the inner side of the upper portion and is hinged to be vertically rotatable and fixedly coupled to the inner surface of the retaining wall And a fixing plate (24) having a prism plate (26) extending inward on the lower inner side surface,
The inner end of the bar body 21 is brought into close contact with the vertical plate 12 of the fixing member 10 and the fixing plate 24 is brought into close contact with the retaining wall 2, When the fixing plate 24 is lowered, both ends of the rake body 20 are closely attached to the inner surface of the retaining member 10 and the retaining wall 10,
The separation sensing means (30)
A large diameter portion 31a is formed at the lower end and a small diameter portion 31b is formed at the upper end and upper and lower through holes 31c and 31d are formed at the upper and lower ends, A cylinder 31 which is coupled to the cylinder 31,
A lower piston 32 movably coupled to the inside of the large diameter portion 31a of the cylinder 31 and having an extension bar 32a extending downward through the lower through hole 31d on the lower side,
An elastic member 33 connected to the lower piston 32 to press the lower piston 32 downward,
An upper piston 34 movably coupled to the small diameter portion 31b of the cylinder 31 and having a rack gear 34a extending upward through the upper through hole 31c,
A hydraulic oil 35 filled between the upper piston 34 and the lower piston 32 so that the lower piston 32 and the upper piston 34 interlock with each other and ascend and descend;
A pinion gear 37 rotatably coupled to a support bracket 36 provided on the upper side of the cylinder 31 by a rotary shaft 37a and engaged with the rack gear 34a,
And a rotation angle measurement sensor (38) connected to the rotation axis (37a) and measuring a rotation angle of the rotation axis (37a)
The load sensing sensor 40 is provided between the support case 22 and the support plate 23,
The position change detection means (51, 52)
A light emitting unit 51 provided on a lower surface of the bar body 21 of the rake main body 20 and adapted to irradiate light downward,
And a light receiving means (52) provided on an upper surface of the slab (3) for receiving light irradiated from the irradiation unit,
The light receiving means (52)
A rotating bracket 52a fixed to the upper surface of the slab 3 and a light receiving case 52b provided on the upper surface of the rotating bracket 52a and having a viewing window 52c, )Wow,
And a plurality of light receiving sensors (52d) spaced mutually laterally from the inner bottom surface of the light receiving case (52b) and irradiating light emitted from the light emitting unit (51) . delete

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