KR20120061464A - Structure construction method and structure of use it - Google Patents

Abstract

PURPOSE: A construction method of a structure and a structure using the same are provided to reduce construction time by simultaneously constructing an underground structure and a ground structure. CONSTITUTION: A construction method of a structure is as follows. Columns(100) having precast parts are manufactured. Boreholes(260) are formed on the ground. The columns are inserted into the boreholes. The inserted columns are fixed to cast-in-place piles. The ground around the columns is excavated. Beams(190) or slabs are installed on the exposed parts of the columns. The steps are repeated to form a foundation of a structure.

Description

Construction method and structure using the same {STRUCTURE CONSTRUCTION METHOD AND STRUCTURE OF USE IT}

The present invention relates to a method for constructing a structure using a reverse punching method and a structure using the same.

Recently, 25 construction methods have been applied to utilize underground spaces as well as the ground according to the development of building technology. Accordingly, the structures have been constructed with a plurality of basement layers below the ground structure.

In general, as a method of constructing a structure, after the soil is discharged, the netting method of constructing the structure sequentially from the lower part of the basement to the upper part is fixed, and the supporting pillar is fixed to the pile provided immediately below the underground pillar, and the ground is excavated to the supporting pillar. Top-Down is mainly used to support mud walls and excavate the ground to build underground layers in turn.

In general, the steel support column of the reverse drilling method is used, and the steel support column installed at the construction site is installed to support the load during construction, and the construction is performed to reinforce the steel support column to the design section during the underground construction.

However, in the related art, the steel support pillars installed in the underground structure alone cannot secure sufficient supporting force for supporting the ground structure. Accordingly, after completing the construction of the underground structure, it is common to start constructing the ground structure. As such, there is a problem in that the air is long because the construction of the ground structure must be undertaken after the construction of the underground structure is completed.

One embodiment of the present invention is to be able to build an underground structure and a ground structure at the same time, the column is installed on the underground structure to have an equivalent cross-sectional design to support the weight including the ground structure and the construction of the underground structure and At the same time, the construction of the ground structure can be shortened, the construction period can be shortened, and the weight of the column can be reduced to facilitate transportation or construction, and the construction method of the structure and the structure using the same to facilitate the installation of beams or slabs. To provide.

Method for constructing a structure according to an aspect of the present invention comprises the steps of (a) manufacturing a pillar having a precast portion; (b) forming a perforation hole in the site construction pile in the ground; (c) inserting a pillar having a precast portion in the drilling hole; (d) fixing the pillar with the inserted precast portion to site construction pile concrete; (e) excavating the perimeter of the column having a fixed precast portion; (f) installing a beam or slab on the exposed portion of the column having a fixed precast portion; (g) repeating steps (e) and (f), and excavating to a foundation position to build a foundation.

After step (d), apart from steps (e), (f) and (g), installing a pillar of the upper structure on top of the pillar having a fixed precast portion; Installing an upper beam or upper slab on a column of the superstructure; And repeating the steps of installing the pillars of the upper structure and installing the upper beams or the upper slabs on the pillars of the upper structure to build the upper structure.

The precast part forms a hollow part penetrating in the axial direction, and part or all of the inner circumference of the hollow hole is formed of a steel pipe, and includes a protrusion part protrudingly formed part or all of the steel pipe at the lower end of the precast part, (d) In the step, the concrete may be filled in the hollow pipe of the protrusion and the hollow hole of the precast part.

The pillar having the precast portion includes a precast portion having a hollow hole penetrating axially in the lower portion, the upper portion of the precast portion is formed of a steel pipe, and part or all of the inner circumference of the hollow hole is formed of a steel pipe, and the precast The part includes a protrusion formed by protruding part or all of the steel pipe at the lower end, and in step (d), concrete is filled in the steel pipe inside the protrusion, the hollow hole in the precast part, and the steel pipe above the precast part, (e) After the step) it may include forming a steel pipe portion of the upper portion of the precast portion to the design equivalent cross section.

The pillar having the precast portion may have a lower end portion of the precast portion supported on the upper portion of the site construction pile concrete.

In addition, the pillar having the precast portion may be supported at a position where the lower end of the precast portion is lower than the upper portion of the construction pile concrete.

The pillar having the precast portion may include a coupling member for connecting the steel of the beam or the slab or a hollow hole for the connection to the precast portion of the portion joined with the beam or the slab.

The structure according to another aspect of the present invention is constructed by using a pillar having a precast portion, and using the above-described construction method of the structure.

According to an embodiment of the present invention, only the pillars installed on the ground can support the loads of the structures installed in the basement and the ground, and thus, the construction period of the structure can be constructed by constructing the ground structure and the ground structure at the same time. It can be shortened.

In addition, it is not necessary to reinforce the structure of the column in the construction process, thereby reducing the construction period as well as shortening the construction period, and the design section of the column can support the load of the structure installed in the basement and the ground. It is manufactured so that the reliability of the load can be improved. In addition, by using the present embodiment it is possible to reduce the construction cost since the temporary steel frame used for the installation of the support pillar is unnecessary.

In addition, since the axial force acting on the pillar before the mat foundation work is completed is directly transmitted to the site construction pile, the load and the thickness of the mat foundation acting on the mat foundation can be reduced, and construction cost and construction period can be reduced.

1 is a view for explaining a method of constructing a structure according to the present invention.
2 to 4 is a view for explaining the form of the pillar having a precast portion according to an embodiment of the present invention.
5 (a) and 5 (b) are cross-sectional views of a pillar according to an embodiment of the present invention.
6 is a cross-sectional view of a pillar having a precast portion according to another embodiment of the present invention.
7 is a cross-sectional view of the beam or slab is installed on the pillar having a precast portion according to another embodiment of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings. The embodiments of the present invention can be modified into various other forms, and the scope of the present invention is not limited to the embodiments described below. Shapes and sizes of the elements in the drawings may be exaggerated for clarity, elements denoted by the same reference numerals in the drawings are the same elements.

1 is a view for explaining a construction method of a structure according to the present invention. Referring to FIG. 1, in the method of constructing a structure according to the present embodiment, the structure 10 may be constructed using a reverse punching method.

In the present embodiment, the method of constructing a structure may include constructing a pillar 100 having a precast portion, and then constructing the structure 10 using a reverse drilling method to which the pillar 100 is applied.

To this end, a pillar 100 having a precast portion is manufactured for installation of an underground pillar.

The pillar 100 having the precast portion may be manufactured by precast the reinforced concrete portion of the underground pillar so that the pillar portion positioned underground has a design section for supporting the load of the structure 10.

When the pillar 100 having the precast portion is manufactured as described above, a perforation hole 260 for inserting the pillar 100 into the target ground 250 on which the structure 10 is to be constructed may be formed. In addition, a drilling hole 260 is formed in the ground 250, and a pillar 100 having a precast part may be inserted into the drilling hole 260 by using a transportation means such as a crawler crane.

Next, concrete can be poured in the field in the state where the pillar 100 having the precast portion is inserted into the drilling hole 260 formed in the ground 250, and thus the precast portion inserted into the drilling hole 260 is inserted. The branch 100 can be fixed to the site construction pile 150.

When the concrete curing of the site construction pile 150 is completed, it is possible to excavate the ground 250 is inserted into the pillar 100 having a precast portion.

Next, the beam 190 or the slab may be bonded to the corresponding portion of the pillar 100 having the precast portion.

That is, while drilling the ground 250, the underground structure can be constructed step by step while installing the beam 190 or slab in the corresponding portion of the pillar 100 having a precast portion fixed to the site construction pile 150. At this time, when supporting the earth pressure acting on the earth pressure 200 only by the beam 190 or the slab, it is possible to bond the beam 190 or the slab only to the portion necessary to support the earth pressure, other beam 190 Alternatively, the slabs may be installed at any time.

In addition, the installation time of the other beam 190 or the slab, etc. can be appropriately selected according to the construction process such as the transport and discharge of the soil due to the excavation underground, the foundation start time.

On the other hand, apart from constructing the underground structure of the building in the same manner as above, the upper structure pillar 120 is installed on the upper portion of the pillar 100 having the precast portion, and the upper beam on the pillar 120 of the upper structure Through the process of installing the 130 and the upper slab it is possible to build the upper structure of the building.

As described above, in the present embodiment, the method for constructing a structure may construct an upper structure of the structure at the same time as the underground structure of the structure.

In addition, the beam 190 or slab first installed in the present embodiment does not necessarily need to be adjacent to the ground, and the beam 190 or the slab may be installed by selecting an optimal floor in a construction process.

For example, if it is optimal to construct the beam 190 or the slab on the ground floor, it is excavated to form a space for installing the beam 190 or the slab on the ground floor. It is possible to build a beam 190 or slab of the first basement level, and then to build an underground structure from the first basement to the lower floor, and at the same time, to build an upper structure from the first floor above.

In addition, the installation time of the slab in the construction process of the underground structure 12 may be appropriately selected depending on the construction process such as the transport and discharge of the soil accompanying the excavation of the ground 250 or the start time of the mat base 170.

In this embodiment, the mat base 170 is a structure located on the lowest layer of the pillar 100, and is shown as an imaginary line in FIG. 1.

In the present embodiment, the upper pillar 120 may be formed to be the same as the design section, or may have a smaller cross section than the design section beam 190. In addition, the upper pillar 120 may be coupled to the upper portion of the pillar 100 to be installed underground by mechanical fastening or welding.

In addition, the upper pillar 120 may be formed with a cross section smaller than the design cross section, the upper pillar 120 is a cross section of the upper pillar 120 so as to support the increased load as the ground construction proceeds Can be reinforced.

2 to 4 is a view for explaining the form of the pillar having a precast portion according to an embodiment of the present invention.

Referring to FIG. 2, the pillar 100 having the precast unit according to the present exemplary embodiment may be formed as a precast unit 101 having a hollow hole 102 penetrating the entire axial direction. If the outer shape of the pillar 100 having the precast portion is formed in the same manner as the design cross section, additional structural work such as reinforcing the pillar 100 during the underground construction is unnecessary.

In addition, the hollow hole 102 of the pillar 100 may be used as an insertion hole of a tremi pipe for supplying the concrete C when the concrete of the site construction pile 150 is poured.

In addition, in the present embodiment, by forming the hollow hole 102 in the axial direction, it is possible to reduce the weight during construction of the pillar 100 having the precast portion, and thus to the perforation hole 260 of the site construction pile 150 The work of vertically inserting the pillar 100 having the precast portion can be facilitated.

In addition, a protrusion may be formed at the lower end 111 of the pillar 100 in the present embodiment. For example, the protrusion may include a steel pipe 104 that is a hollow member or may include a steel material 105 that is a core material.

On the other hand, after the concrete installation of the construction pile 150, the concrete (C) can be filled in the interior of the hollow pipe 102 and the precast portion of the steel pipe 104 penetrating the mat base 170.

As such, the concrete is filled in the tube shape by curing the concrete (C) in the field construction pile 150 and the steel pipe 104 penetrating the foundation and the drilling hole 102 of the precast portion 101. CFT (CFT: Concrete Filled Tub) structure, and thus the column 100 having a precast portion may be a design equivalent cross-section.

In addition, referring to FIG. 3, according to the present embodiment, a hollow hole 102 penetrating in the axial direction of the precast part 101 is formed at a lower part of the pillar 100, and an upper part of the precast part 101 is formed at the upper part of the precast part 101. Steel pipe 103 may be bonded.

The pillar 100 is concrete in the steel pipe 104 and the pre-cast hole 100 and the upper steel pipe 103 through the mat foundation 170, after the concrete pouring of the site construction pile 150 (C) can be charged.

Therefore, curing the concrete (C) in the concrete of the construction site 150, the inside of the steel pipe 104 penetrating the mat base 170, the inside of the drill hole 102 of the precast portion and the inside of the steel pipe 103 of the upper portion As it becomes a CFT structure, the pillar 100 having a precast portion may be equivalent to the design.

As such, in the present embodiment, the lower floor of the underground structure to which the large load acts is filled with concrete in the drilled hole 102 formed in the precast portion 101 so as to have a design equivalent cross section, and early reinforcement work after the start of the underground construction The upper part can be a steel pipe, thereby reducing the weight during construction of the pillar 100 having a precast portion.

In addition, since the steel pipe 103 of the upper portion of the precast portion 101 becomes a CFT structure having a strong compressive force by the concrete filling, it can easily support the load during the construction of the upper structure. The upper steel pipe 103 portion may form a design equivalent cross section during the underground construction after the step of excavating the surrounding ground of the pillar 100 having a precast portion fixed to the site construction pile 150. At this time, the time to form the pillar 100 into a design equivalent cross section can be suitably selected by a construction process.

In the present exemplary embodiment, the lower end 111 of the precast unit 101 may be installed at the same height as the upper end 171 of the mat base 170, as shown in FIGS. 2 and 3. A portion of the protrusion fixed to the portion 150 that passes through the mat base 170 may be formed of a steel pipe 104.

In addition, in the present embodiment, the pillar 100 having the precast part may have a design equivalent cross section by filling concrete in the perforation hole 102 of the precast part 101. Therefore, before the concrete curing of the mat foundation 170, the support strength of the CFT structure of the portion of the steel pipe 104 passing through the mat foundation 170 and the support strength of the site construction pile 150, the support strength of these It can support loads in underground and ground construction within the allowable range of medium strength.

In addition, the weight of the pillar 100 having the precast portion needs to be restrained to a range that can be constructed, and as in the present embodiment, the installation or the upper portion of the hollow hole 102 in the axial direction is also formed by the steel pipe 103. It is effective for reducing, and by using high-strength concrete can reduce the cross section of the underground column can further reduce the weight of the column (100).

Referring to FIG. 4, the lower end 111 of the pillar 100 may be supported at a lower position than the upper end 151 of the site construction pile 150.

That is, by inserting the lower end 111 of the precast portion 101 below the height of the upper end 151 of the site construction pile 150, the compressive force of the precast portion 101 to the concrete of the site construction pile 150 Can be delivered directly to

In this case as well, the steel 105 fixed to the concrete of the site construction pile 150 may protrude under the precast portion 101. Here, the steel 105 as a protrusion may transmit a part of the axial force to the site construction pile 150 by friction with the concrete of the site construction pile 150.

On the other hand, the pillar 100 in the present embodiment is located below the height of the concrete upper end 151 of the construction site pile 150, the lower end 111 of the precast portion 101, thereby penetrating the mat base 170 Since no portion of the steel pipe 104 exists, it is possible to support construction loads in the basement and ground to the extent of the support strength of the site construction pile 150.

In addition, the pillar 100 in the present embodiment has been described as a precast portion 101 is formed as a whole, but is not limited to this structure to join the steel pipe 103 to the upper portion of the precast portion 101 as shown in FIG. It is also possible to apply.

5 (a) and 5 (b) are cross-sectional views of the pillar 100 according to the embodiment of the present invention.

Referring to FIG. 5, the pillar 100 having the precast portion 101 or the hollow hole 102 formed in the pillar 100 has a circular shape as shown in FIG. 4A. It may be formed, or may be formed in a quadrangle as shown in (b) of FIG.

The hollow hole 102 formed in the pillar 100 can be used as an insertion hole of a tremi tube when concrete is being cast in the field construction pile 150, and at the same time, the pillar 100 is designed by pouring concrete into the hollow hole 102. It can be formed in an equal cross section.

In this embodiment, the shape of the pillar 100 or the hollow hole 102 is not limited by this embodiment, it may be modified in various forms. For example, the column 100 or the hollow hole 102 may be formed in various shapes such as a polygon including an ellipse, a hexagon, and an octagon in addition to a circle and a square, and secures the constructability of the concrete filling, or secures the strength against the side pressure of the concrete. According to the overall weight limitation of the pillar 100 may be modified in various forms.

In addition, a steel pipe 112 may be installed on the outer circumference of the hollow hole 102. Here, the steel pipe 112 may serve as a structure and formwork for forming the hollow hole 102 during precast fabrication.

In addition, a plurality of reinforcing bars 109 may be arranged in the pillar 100 of the present embodiment. These reinforcing bars 109 may be used to improve the tensile force as well as to maintain the shape during the precast of the column (100).

6 is a cross-sectional view of a pillar having a precast portion according to another embodiment of the present invention, Figure 7 is a cross-sectional view of the beam or slab is installed on the pillar having a precast portion according to another embodiment of the present invention.

6 and 7, the pillar 100 of the present embodiment may be provided with a coupling member 107 at the joint portion of the precast portion 101 and the beam 190 or the slab. In addition, the beam 190 or the slab may be provided with a connecting steel 192 corresponding to the coupling member 107 installed in the pillar 100.

The coupling member 107 installed in the pillar 100 during construction of the underground structure may contact the connection steel 192 provided in the beam 190 or the slab to construct the beam 190 or the slab.

To this end, the coupling member 107 may be installed to protrude to the surface of the precast portion 101.

In addition, in the present embodiment, the pillar 100 may be provided with a coupling hole for fitting the connection steel 192 of the beam 190 or the slab instead of installing the coupling member 107 in the precast portion 101. have. In addition, the pillar 100 may be attached to the beam 190 or the slab by a fastening member such as a screw, a bolt fastened to the coupling hole. In addition, the connection steel 192 of the beam 190 or the slab may be joined to the pillar 100 by the PC steel.

The present invention is not limited to the above-described embodiment and the accompanying drawings, and it is possible to substitute, modify, and change various forms within the scope of the technical spirit of the present invention described in the claims. It will be self-evident to those who have knowledge.

10 structure 12 underground structure
14: upper structure 100: pillar
101: precast portion 102: hollow hole
103, 104: steel pipe 105: steel
107: coupling member 109: rebar
130: upper beam 150: construction site pile
170: Mat Foundation 190: Beam
192: connecting steel

Claims (8)

(a) manufacturing a pillar having a precast portion;
(b) forming a perforation hole in the site construction pile in the ground;
(c) inserting a pillar having the precast portion into the drilling hole;
(d) fixing the pillar having the inserted precast portion to the site construction pile concrete;
(e) excavating the periphery of the column having the fixed precast portion;
(f) installing a beam or slab on the exposed portion of the pillar having the fixed precast portion;
(g) repeating the steps (e) and (f), and excavating to a foundation position to build a foundation.
The method according to claim 1,
After the step (d), apart from the step (e), the step (f) and the step (g), installing a pillar of the upper structure on top of the pillar having the fixed precast portion;
Installing an upper beam or an upper slab on the pillar of the upper structure; And
Repeating the step of installing the pillar of the upper structure and the step of installing the upper beam or the upper slab to the pillar of the upper structure to build the upper structure further comprising the step of.
The method according to claim 1 or 2,
The precast portion forms a hollow portion penetrating in the axial direction,
Part or all of the inner circumference of the hollow hole is formed of a steel pipe,
At least part of the precast portion includes a protrusion formed in part or all of the steel pipe protruding,
In the step (d), the construction method of the structure, characterized in that the concrete is filled in the hollow pipe and the hollow hole of the precast portion.
The pillar according to claim 1 or 2, wherein the pillar having the precast portion is
It includes a precast portion having a hollow hole penetrating in the axial direction, the upper portion of the precast portion is formed of a steel pipe,
Some or all of the inner circumference of the hollow hole is formed of a steel pipe,
The precast portion includes a protrusion formed by protruding part or all of the steel pipe at the lower end,
In the step (d), the concrete is filled in the steel pipe inside the protruding portion, the hollow hole of the precast portion and the steel pipe above the precast portion,
And after step (e), forming a steel pipe portion of the upper part of the precast part in a design equivalent cross section.
The pillar according to claim 1 or 4, wherein the pillar having the precast portion is
The construction method of the structure, characterized in that the lower end of the precast portion is supported on the upper end of the site construction pile concrete.
The pillar according to claim 1 or 4, wherein the pillar having the precast portion is
The construction method of the structure, characterized in that the lower end of the precast portion is supported at a position lower than the upper end of the site construction pile concrete.
The pillar according to claim 1 or 4, wherein the pillar having the precast portion is
And a hollow hole for coupling member or connection for connecting the steel member of the beam or the slab to the precast part of the beam or the portion that is joined to the slab.
Using the pillar having the precast part,
A structure constructed using the method of constructing a structure according to claim 1.

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