KR101049949B1 - Vertical sphere structure using reverse punching method and its construction method - Google Patents

Abstract

The present invention is fixed to the piece to be fixed to the piece to protrude into the support member in a state in which the support member is fixed to a plurality of thumb piles buried so that the upper end is projected, the thumb pile spaced a certain distance from the piece Thereafter, the present invention relates to a vertical sphere structure using a reverse punching method and a construction method thereof by repeating a method of curing concrete structures by pouring concrete into inner and outer molds respectively mounted to the support member and the thumb pile.

According to the vertical spherical structure and the construction method using the reverse drilling method of the present invention, by laying down the concrete structure on which the concrete is poured from the top to the bottom, and finishing between the constructed concrete structures using a separate finishing material such as grouting agent In addition to preventing inflow into the vertical sphere structure, safety accidents caused by the inflow can be prevented in advance, and the life of the product can be extended and maintenance is prevented by preventing corrosion of the vertical sphere structure by the inflow. It is easy for the user to improve the reliability of the product.

 Retrofit, vertical sphere, thumb pile, formwork,

Description

Vertical shaft using the retaining wall and construction methode the same}

The present invention is a method for forming a vertical sphere using a reverse punching method, and more specifically, to fix the piece to the thumb pile radially driven, the support in a state in which the support member is fixed to the thumb pile spaced a certain distance from the piece After fixing the reinforcing bar to the piece so as to protrude into the member, by using the reverse punching method to form a vertical sphere by repeating the method of curing the concrete structure by placing concrete in the inner and outer molds respectively mounted to the support member and the thumb pile It relates to a vertical sphere structure and its construction method.

In general, a vertical hole (also called a joint hole) is a vertical tunnel that connects vertically from the ground to the underground tunnel to excavate the tunnel.In tunnel construction, various equipment and construction materials are transported and moved from the ground, and the tunnel It acts as a passage for discharging the soil and rock generated during excavation to the ground.After the tunnel is completed, it connects various cables of the manager's mobile passage and communication or power port from the underground tunnel to the ground and connects various pipes. Play a role.

The method of constructing the vertical sphere, the excavation method that installs a temporary fixture that can support the retaining wall while excavating the ground on which the vertical sphere is constructed, and after removing all the earth and sand to build the vertical sphere from the bottom layer; It is called the Top-Dowm Method, which is a reversing method that constructs a vertical wall and builds a vertical sphere from the top.

As a vertical sphere construction method using the reverse drilling method, a vertical sphere construction method using a precast concrete segment block has been registered in Korean Patent No. 0349107.

The pre-registered patent is to embed a plurality of H piles so that the cross-sectional shape of the vertical spheres in the ground on which the vertical spheres are to be placed, and then excavate the inside of the plurality of H piles to the same depth as the height of the concrete block. The concrete block is fastened by bolts to the H pile, and the H pile is repeatedly formed to form a vertical sphere by repeating a method of pouring concrete.

However, the vertical sphere formed by the above process contaminates the soil while the H pile embedded in the ground is corroded, and at the same time, a crack occurs between the H pile and the placed concrete, and the inflow water flowing into the cracked portion is passed between the concrete blocks. Inflow into the vertical sphere, there was a problem that a safety accident, such as a short circuit caused by the influent flows.

In addition, the concrete and concrete blocks placed between the H pile and each H pile are difficult to maintain as they are corroded by the inflow water, and when the concrete blocks cannot maintain their original shape due to damage of the corroded parts, there is even a problem of rebuilding. there was.

In view of the above-described conventional defects as described above, the object of the present invention, by placing concrete to form a vertical sphere to block the inflow of influent and also to prevent inadvertent safety accidents due to inverted accident It is to provide a vertical sphere structure using the construction method and a construction method thereof.

In addition, another object of the present invention is to provide a vertical sphere structure using a reverse punching method and its construction method that can prevent the corrosion caused by the influent water to extend the life of the product by the user to improve the reliability of the product.

The present invention is a vertical sphere structure for constructing a vertical sphere using a reverse punching method,

A plurality of thumb piles embedded so that an upper end thereof protrudes from the ground on which the vertical sphere is to be formed;

A piece fixed to the upper end of the thumb pile projecting to the ground to support the concrete structure with reinforcing bars;

A reinforcing bar fixed to the piece to support a shape of the concrete structure and having an end protruding into the support member;

A bracket fixed to the thumb file to support the support member so as to maintain a certain distance from the piece;

A support member mounted to the bracket to form a bottom of the concrete structure;

Inner and outer molds respectively mounted to the support member and the thumb pile;

A fixing member which connects and fixes the inner and outer molds; And,

It is characterized in that it is configured to include a concrete structure that is cured by being poured into the inner and outer rim.

In addition, the present invention is a construction method of a vertical sphere structure for constructing a vertical sphere using a reverse punching method,

Embedding a thumb pile radially such that an upper end portion protrudes from the ground on which the vertical sphere is to be formed;

Fixing a piece for supporting a concrete structure on an upper end of the thumb file;

A first construction step of forming concrete to pour the concrete so that the lower end of the rebar fixed to the piece protrudes;

A second construction step of pouring concrete to form a second concrete structure such that a lower end portion of the reinforcing steel which is fixed to the reinforcing steel bar protruding from the first concrete structure is formed;

Repeating the second construction step is to build a vertical sphere.

According to the vertical spherical structure and the construction method using the reverse drilling method of the present invention, the concrete structure in which the concrete is poured down from the top to the bottom, and the space between the constructed concrete structures using a separate finishing material such as grouting agent By closing so as not to occur, it is possible to block the inflow into the vertical sphere structure and to have an advantage to prevent the safety accidents due to the inflow of the inlet in advance.

In addition, according to the vertical sphere structure and the construction method using the reverse drilling method of the present invention, it is possible to prevent the corrosion of the vertical sphere structure by the inflow water to prolong the life of the product and easy maintenance, so that the user can improve the reliability of the product. It can have the advantage of improving.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. 1 is an exploded perspective view of the present invention, Figure 2 is a cross-sectional view of the installation state of the present invention, Figure 3 is a plan view of FIG.

The present invention is a vertical sphere structure for constructing a vertical sphere using a reverse punching method, a plurality of thumb piles (100) embedded so that the upper end is projected on the ground on which the vertical sphere is to be formed, the thumb protruding to the ground Piece 200 is fixed to the upper end of the pile 100 to support the concrete structure 800 with the reinforcement 300, is fixed to the piece 200 to support the shape of the concrete structure 800, the end is The rebar 300 is configured to protrude into the support member 500, and the bracket 400 is fixed to the thumb pile 100 so as to maintain a predetermined distance from the piece 200 to support the support member 500. It is mounted on the bracket 400, the support member 500 is formed to form the bottom surface of the concrete structure 800, the inner and outer dies mounted on the support member 500 and the thumb pile 100, respectively ( 600 and 600 ', the inner and outer formwork 600 ( 600 ') is connected to the fixing member 700 is configured to be fixed, including the concrete structure 800 is poured into the inner and outer molds 600, 600' is cured, more specifically, The explanation is as follows.

The reinforcement 300, the upper portion is fixed to the vertical portion perpendicular to the piece 200, the lower portion is provided with a vertical reinforcement 310 protruding into the support member 500, horizontally spaced on the vertical reinforcement 310 It is provided including a horizontal reinforcement 320 is fixed to.

The support member 500 is seated on the bracket 400 to form a bottom surface of the concrete structure 800 and is provided with a body 510 formed with a space 511 therein, the bottom surface of the concrete structure 800 It includes a through hole 520 radially penetrating to accommodate the vertical reinforcement 320 on one surface of the body 510 to form a.

Preferably, the pour ball forming member 530 is formed on the upper surface of the body 510.

It is provided to include a pour hole 810 to be recessed inward to the bottom surface of the concrete structure 800 to the concrete is poured.

In addition, the present invention, as a construction method of the vertical sphere structure to build a vertical sphere using a reverse punching method, as shown in Figure 5, the thumb pile radially so that the upper end is projected on the ground on which the vertical sphere is to be formed (100) Embedding step ST10; Fixing a piece (200) supporting the concrete structure (800) at the upper end of the thumb pile (100); The lower end portion of the reinforcement 300 fixed to the piece 200 is formed in the form (600, 600 ') so as to protrude into the space 511, the pouring hole 810, the form (600, 600') The first construction step (ST30) to form concrete structure 800 by pouring concrete; As the lower end of the reinforcement 300 fixed to the reinforcement 300 protruding from the concrete structure 800 protrudes into the space 511 to form a formwork 600, 600 'to form a pour hole 810, A second construction step (ST40) of forming concrete into a formwork (600) (600 ') by placing the concrete into the formwork (810) of the concrete structure (800); By repeating the second construction step (ST40) to build a vertical sphere, it will be described in more detail as follows.

The first construction step (ST30), as shown in Figure 6, digging the soil inside the radially embedded thumb pile 100 deeper than the height of the concrete structure 800 (ST31) )Wow; Forming an outer die (600 ') in the thumb pile (ST32); Fixing the bracket (400) to the thumb pile (100) so that the outer die (600 ') and the support member (500) are kept in the same line (ST33); Receiving the lower end of the reinforcement 300 and seating the support member 500 on which the pour ball forming member 530 protrudes to the bracket 400 (ST 34); Fixing the rebar 300 to protrude into the piece 200 and the support member 500 (ST35); Fixing the inner formwork 600 to the support member 500 so as to be in close contact with the pouring ball forming member 530 (ST36); Connecting the inner formwork 600 and the outer formwork 600 'with a fixing member 700 to fix the inner formwork 600 and the outer formwork 600'; Placing concrete on the inner and outer molds 600 and 600 ′ to cure the concrete structure 800 (ST38).

The fixing of the reinforcing bar 300 (ST35) may include: fixing the vertical reinforcing bar 310 to the piece 200 (ST35-1); Fixing the horizontal rebar 320 to the vertical reinforcement 310 to be spaced apart at a predetermined interval (ST35-2).

In the second construction step ST40, as shown in FIG. 7, the soil inside the thumb pile 100 located at a lower position than the concrete structure 800 is deeper than the height of the concrete structure 800 ′. Digging and digging step (ST41); Forming an outer die (600 ') in the thumb pile (ST42); The bracket 400 is separated from the thumb pile 100 in a state in which the support member 500 of the first construction step ST30 is supported by heavy equipment such as a crane, and the separated bracket 400 is moved downward. Fixing the bracket 400 to the thumb pile 100 so that the outer die 600 'and the support member 500 are kept in the same line (ST43); Moving the support member 500 supported by the heavy machinery to the bracket 400 to be seated downward (ST44); Fixing the reinforcement (300 ') to protrude into the support member (500) to the reinforcement (300) protruding below the concrete structure (800) (ST45); Fixing the inner formwork 600 to the support member 500 so as to be in close contact with the pouring ball forming member 530 (ST46); Connecting and fixing the inner formwork 600 and the outer formwork 600 'with a fixing member 700 (ST47); Curing the concrete structure 800 'by pouring concrete into the inner and outer molds 600 and 600'; And finishing the concrete structure 800 ′ between the concrete structure 800 of the first construction step ST30 with the finishing material 900 (ST49).

Fixing the reinforcement (300 ') (ST45), the step of fixing the vertical reinforcement (310') to the vertical reinforcement (310) fixed to the concrete structure (800) (ST45-1); And fixing the horizontal rebar 320 'to the vertical rebar 310' at a predetermined interval (ST45-2).

Next will be described the manufacturing process of the vertical sphere according to the present invention configured as described above.

First, as illustrated in FIGS. 4A to 4D, a perforator in which the thumb pile 100 is embedded in the ground on which the vertical sphere is to be formed is formed by a puncher (not shown), or the thumb pile 100 by anti-taking (not shown). Buried radially by driving) (ST10), the upper end of the thumb pile 100 is preferably a predetermined length, that is, about 0.5 ~ 1M protrudes from the ground.

Here, the vertical sphere is mostly formed in a circle or a square, but will be described here as limited to a circle.

After fixing the piece 200 to the upper end of the thumb pile 100 protruding from the ground (ST20) (ST20), the concrete structure supported by the reinforcement 300, ie the vertical reinforcement 310 fixed to the piece 200 800 is formed in the first construction step ST30.

The first construction step (ST30), digging deeper than the height of the concrete structure 800, the soil inside the thumb pile 100, that is, embedded radially (ST31), each of the thumb pile ( The outer formwork 600 'is formed between 100 and 100' (ST32), and the outer formwork 600 'may use an earth plate called a pile of piles, but it is a shock for pouring concrete into a grid-shaped iron member. It is preferable to form at a rate.

When the outer formwork 600 'is made of shockrate, it is placed on the soil surface between the thumb pile 100, 100', and then cured by pouring concrete mixed with a hardener.

The bracket 400 is fixed to the thumb pile 100 so that the lower end of the outer formwork 600 'and the upper end of the support member 500 are in the same line while the outer formwork 600' is fixed by the above process. After (ST33), the bracket 400, the body 510 of the support member 500, that is to connect and seat the plurality of body 510, the through hole penetrated to one surface of the body (510) 520 is seated on the same line as the piece 200 (ST34), and the lower portion protrudes through the through hole 520 of the support member 500 protruding the piece 200 and the pour ball forming member 530. The rebar 300 is fixed (ST35).

At this time, the reinforcement 300, the upper end of the vertical reinforcement 310 is fixed to the piece 200 to be spaced apart at a predetermined interval (ST35-1), the lower end of the vertical reinforcement 310 of the support member 500 Protruding through the through-hole 520 is located in the space 511, the protruding length is preferably at least 20cm protruding, the horizontal reinforcement 320 is fixed to the vertical reinforcement 310 to be spaced at a predetermined interval (ST35) -2).

In addition, to fix the inner formwork 600 to the inner surface of the support member 500, the body 510 (ST36), one side of the inner formwork 600, the connection hole in the same line as the pour ball forming member 530 ( It is preferable that the 610 is penetrated, and the inner die 600 and the outer die 600 'are connected and fixed by the fixing member 700 (ST37), and the fixing member 700 is used to fix the mold. To include a conventional tie bolt, and the wedge pin is mounted to the tie bolt, it is necessary to cure the concrete structure 800 by pouring concrete in the inner and outer formwork 600, 600 '(ST38).

When the concrete structure 800 is cured, the inner formwork (ie, wedge pin (not shown) fixing the inner and outer formwork 600, 600 '), the end of the wedge pin (not shown) is separated from the end of the tie bolt ( After separating the 600 from the inner surface of the body 510 of the support member 500, and connects the concrete structure 800 'to the concrete structure 800 in the second construction step (ST40).

The second construction step (ST40), digging the soil inside the thumb pile 100 located at a lower position than the concrete structure 800 deeper than the height of the concrete structure (800 ') (ST41), An outer formwork 600 'is formed between each of the thumb piles 100 and 100' (ST42), and the outer formwork (not shown) is separately fixed to the thumb piles 100 and 100 '. 600 ') is installed, the support (not shown) separately fixed to the thumb pile 100, 100' to support the outer formwork 600 'of the first construction step (ST30) is preferably separated. .

When the outer formwork 600 'is formed in the above process, the support member 500 in the state in which the support member 500 of the first construction step ST30 is supported by heavy equipment such as a crane so as not to move by its own weight. Detach the bracket 400 supporting the thumb pile 100, the separated bracket 400 is bracket 400 so that the lower end of the outer die 600 'and the upper end of the support member 500 is in the same line. ) Is fixed to the thumb pile 100 (ST43).

In addition, in the state in which the support member 500, which is supported by heavy equipment, is seated on the bracket 400 fixed to the thumb pile 100 (ST44), the rebar 300 protruding from the concrete structure 800 is seated. ) And the rebar 300 'is fixed to the through hole 520 of the support member 500 from which the pouring hole forming member 530 protrudes (ST45).

At this time, the reinforcement (300 '), and fixed the upper end of the vertical reinforcement (310') to the vertical reinforcement (310) protruding into the concrete structure (800) (ST45-1), The lower end protrudes into the through hole 520 of the supporting member 500 and is located in the space 511, and fixes the horizontal rebar 320 'to the vertical rebar 310' to be spaced at a predetermined interval (ST45-2). .

Fixing the inner formwork 600 to the inner surface of the support member 500 body 510 (ST46), when the inner formwork 600 is fixed to the body 510, the connection hole 610 of the inner formwork 600 ) Is in communication with the pour hole 810 of the concrete structure 800 and at the same time connecting the inner formwork 600 and the outer formwork 600 'with the fixing member 700, that is, tie bolts and wedge pins at the same time After mounting and fixing to (ST47), through the connection hole 610 and the pouring hole 810 to pour concrete in the inner and outer formwork 600, 600 'to cure the concrete structure (800') (ST48) .

When the concrete structure 800 'is cured, the concrete structure 800' and the concrete structure 800 is finished between the finishing material 900, such as grouting material (ST49), so that no space is generated, By repeating the two construction steps (ST40) to form a concrete structure is to complete the vertical sphere.

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

1 is an exploded perspective view of the present invention

2 is a cross-sectional view of the installation state of the present invention

3 is a plan view of FIG.

4a to 4d is an operating state diagram of the present invention

5 is a process diagram of the present invention

6 is a process chart of the first construction step of the present invention

7 is a process chart of the second construction step of the present invention

<Explanation of symbols for the main parts of the drawings>

100, 100 ': Thumb pile 200: Piece

300: rebar 310: vertical rebar

320: horizontal rebar 400: bracket

500: support member 510: body

520: through hole 600,600 ': inner and outer die

610: connection hole 700: fixing member

800,800 ': Concrete structure 810: Pourer

Claims (10)

A vertical sphere structure for constructing a vertical sphere using a reverse punching method, A plurality of thumb piles embedded so that an upper end thereof protrudes from the ground on which the vertical sphere is to be formed; A piece fixed to the upper end of the thumb pile projecting to the ground to support the concrete structure with reinforcing bars; A reinforcing bar fixed to the piece to support a shape of the concrete structure and having an end protruding into the support member; A bracket fixed to the thumb file to support the support member so as to maintain a certain distance from the piece; A support member mounted to the bracket to form a bottom of the concrete structure; Inner and outer molds respectively mounted to the support member and the thumb pile; A fixing member which connects and fixes the inner and outer molds; And, Vertical sphere structure using a reverse perforation method, characterized in that it comprises a concrete structure that is cured by being poured into the inner and outer housing. The method according to claim 1, the reinforcing bar, A vertical reinforcing bar vertically fixed to the piece and a lower end protruding into the support member; Vertical sphere structure using a reverse punching method characterized in that it comprises a horizontal reinforcement horizontally fixed to the vertical reinforcement at a predetermined interval. The method according to claim 1, wherein the support member, A body seated on the bracket to form a bottom of the concrete structure and having a space formed therein; Vertical sphere structure using a reverse punching method characterized in that it comprises a through-hole penetrating radially to accommodate the vertical rebar on one surface of the body forming the bottom of the concrete structure. The method of claim 3, Vertical spherical structure using the reverse drilling method, characterized in that the pour ball forming member protrudes on the body of the support member. The method according to claim 1 or 3, Vertical spherical structure using a reverse punching method characterized in that it is provided with a pour ball to be poured into the bottom surface of the concrete structure to be poured concrete. As a construction method of a vertical sphere structure for constructing a vertical sphere using the reverse punching method, Embedding a thumb pile radially such that an upper end portion protrudes from the ground on which the vertical sphere is to be formed; Fixing a piece for supporting a concrete structure on an upper end of the thumb file; A first construction step of forming a formwork so that a casting hole is formed while the lower end portion of the rebar fixed to the piece is protruded into a space, and the concrete is poured into the formwork to form a concrete structure; A second construction step of forming a formwork so that a pour hole is formed while the lower end portion of the reinforcing bar fixed to the reinforcing steel bar protruding into the concrete structure is formed, and the concrete is poured into the formwork with the pour hole of the concrete structure; The vertical sphere structure construction method using a reverse punching method characterized in that to construct a vertical sphere by repeating the second construction step. The method of claim 6, wherein the first construction step, Digging a soil in the radially buried thumb pile deeper than a height of a concrete structure; Forming an outer formwork on the thumb pile; Fixing the bracket to a thumb file so that the outer formwork and the support member are kept in the same line; Mounting a support member on which a pour ball forming member protrudes while receiving the lower end of the rebar; Fixing the reinforcing bar to protrude into the piece and the support member; Fixing the inner formwork to the support member to be in close contact with the pour ball forming member; Fixing the inner formwork and the outer formwork with a fixing member; A method of constructing a vertical sphere structure using a reverse punching method comprising the step of curing concrete structures by pouring concrete into the inner and outer molds. The method of claim 7, wherein fixing the reinforcing bar, Fixing a vertical reinforcement to the piece; The vertical sphere structure construction method using a reverse punching method comprising the step of fixing the horizontal rebar to the vertical reinforcement at a predetermined interval apart. The method according to claim 6, The second construction step, Digging the soil inside the thumb pile located at a lower position than the concrete structure deeper than the height of the concrete structure; Forming an outer formwork on the thumb pile; The bracket is detached from the thumb file while the support member of the first construction step is supported by heavy equipment such as a crane, and the separated bracket is moved downward to allow the outer formwork and the support member to maintain the same line. Fixing the bracket; Moving the support member supported by the heavy equipment on the bracket to the bottom to be seated on the bracket; Fixing the reinforcing bar to protrude into the support member to the reinforcing bar protruding below the concrete structure; Fixing the inner formwork to the support member to be in close contact with the pour ball forming member; Fixing the inner formwork and the outer formwork with a fixing member; Curing concrete structures by pouring concrete into the inner and outer molds; The vertical sphere structure construction method using a reverse punching method comprising the step of finishing between the concrete structure and the concrete structure of the first construction step with a finishing material. The method of claim 9, wherein fixing the reinforcing bar, Fixing a vertical rebar to a vertical rebar fixed to the concrete structure; The vertical sphere structure construction method using a reverse punching method comprising the step of fixing the horizontal rebar to the vertical reinforcement at a predetermined interval apart.

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