KR101522300B1 - the self-positioning structure of column and the modular pile up construction method using the same - Google Patents

Abstract

The present invention is for installing the column 100 on the base plate 200 or the lower column 100 '
A water guide tube 110 installed below the column 100; And an arm guide tube 220 installed on the base plate 200 or the lower column 100 in a shape corresponding to the horizontal cross section of the water guide tube 110,
The water guide tube 110 has a vertical section in an inverted trapezoid or a taper shape so that when the column 100 is lifted down and the water guide tube 110 is lowered into the interior of the arm guide tube 220 The column 100 is installed on the base plate 200 or the lower column 100 'while maintaining the verticality and the horizontal degree defined by its own weight and gravity. Structure.
In addition, using the self-positioning structure of the column,
(1) installing a plurality of the arm guard tubes (220) on the plurality of base boards (200) or the lower pillars (100 ') spaced apart from one another by column spacings; (2) A plurality of columns 100 provided with a water guide tube 110 are connected to a plurality of girders to form a plurality of one-piece OBCs (OBCs) each consisting of one unit. A mounting and mounting step to be installed spaced apart; And (3) a cell connecting step of connecting the OBCs spaced apart from each other by a girder. The present invention provides a modular lamination method using a self-positioning structure of a column.

Description

[0001] The present invention relates to a self-positioning structure of a column and a modular lamination method using the same,

The present invention relates to a self-positioning structure of a column which is installed by dryly assembling a column during a building expansion or remodeling process and maintaining the vertical and horizontal degrees determined by the weight of the column and the gravity of the column, And a lamination method.

* Demand and interest for dry steel construction methods such as steel frame and PC have recently increased.

In the conventional method, the method of assembling the workers by ascertaining the verticality and the horizontality of the work by hand at high altitude is carried out by using the individual pillars and girders at the construction site.

However, the above-mentioned conventional method has a disadvantage in that safety problems occur because it is carried out in a high-altitude, and it is difficult to ensure the accuracy of construction, leading to increase in air and azeotropic cost.

Therefore, it is possible to assemble the members preliminarily manufactured on the ground or in the factory with the exact dimensions and shape by dry assembling in the construction site, but the construction precision such as verticality and horizontality is automatically adjusted and maintained by gravity and gravity of members Development is urgent.

SUMMARY OF THE INVENTION The present invention has been made in order to solve the above-mentioned problems of the related art. The purpose is as follows.

First, it is necessary to dryly assemble the prefabricated members on the ground or factory with exact dimensions and shape, but the accuracy of construction such as vertical and horizontal is automatically adjusted and maintained by gravity and gravity of members And a modular lamination method using the self positioning structure.

Second, it provides a self-positioning structure of a column which is excellent in air and air-saving effect because it is constructed in a high speed and safe manner, and a modular lamination method using the same.

Third, a plurality of columns are connected by a plurality of girders, and a plurality of one-bay cells or multi-bay cells each consisting of one unit are connected to each other, and gravity is applied to maintain the accuracy of vertical and horizontal workings. And a modular lamination method using the self positioning structure.

Fourth, the present invention provides a self-positioning structure of a column which can be easily re-used due to easy installation and disassembly, and a modular lamination method using the same.

Fifth, the self-positioning structure of the column that can vertically enlarge immediately without migration and retirement of the resident in the renovation process of the building due to the environmental pollution factors such as noise and dust is provided and a modular lamination method using the same is provided.

In order to solve the above-mentioned technical problem, the present invention is to install the column 100 on the base plate 200 or the lower column 100 '

A water guide tube 110 installed below the column 100; And an arm guide tube 220 installed on the base plate 200 or the lower column 100 in a shape corresponding to the horizontal cross section of the water guide tube 110,

The water guide tube 110 has a vertical section in an inverted trapezoid or a taper shape so that when the column 100 is lifted down and the water guide tube 110 is lowered into the interior of the arm guide tube 220 The column 100 is installed on the base plate 200 or the lower column 100 'while maintaining the verticality and the horizontal degree defined by its own weight and gravity. Structure.

In addition, using the self-positioning structure of the column,

(1) installing a plurality of the arm guard tubes (220) on the plurality of base boards (200) or the lower pillars (100 ') spaced apart from one another by column spacings; (2) A plurality of columns 100 provided with a water guide tube 110 are connected to a plurality of girders to form a plurality of one-piece OBCs (OBCs) each consisting of one unit. A mounting and mounting step to be installed spaced apart; And (3) a cell connecting step of connecting the OBCs spaced apart from each other by a girder. The present invention provides a modular lamination method using a self-positioning structure of a column.

According to the present invention, the following effects are expected.

First, it is necessary to dryly assemble the prefabricated members on the ground or factory with exact dimensions and shape, but the accuracy of construction such as vertical and horizontal is automatically adjusted and maintained by gravity and gravity of members And a modular lamination method using the self positioning structure.

Second, it provides a self-positioning structure of a column which is excellent in air and air-saving effect because it is constructed in a high speed and safe manner, and a modular lamination method using the same.

Third, a plurality of columns are connected by a plurality of girders, and a plurality of one-bay cells or multi-bay cells each consisting of one unit are connected to each other, and gravity is applied to maintain the accuracy of vertical and horizontal workings. And a modular lamination method using the self positioning structure.

Fourth, there is provided a self-positioning structure of a column that can be easily installed and disassembled and reusable members, and a modular lamination method using the same.

Fifth, it provides a self-positioning structure of a column and a modular lamination method using the same that can vertically enlarge the building immediately without migration and retirement of residents due to environmental pollution factors such as noise and dust.

1 to 3 show an embodiment of a self-positioning structure of a column according to the present invention applied to a base plate.
4 is another embodiment of the self-positioning structure of the column of the present invention applied to the base plate.
5 is an embodiment of a self-positioning structure of a column according to the present invention applied to a lower column.
FIG. 6 illustrates the installation process of FIGS. 1-3.
7 is another embodiment of the self-positioning structure of the column of the present invention applied to the lower column.
FIG. 8 shows the installation process of FIG.
FIG. 9 shows a process of filling the filled concrete in the present invention.
10 shows another embodiment of the self-positioning structure of the column of the present invention applied to the lower column in various ways.
11 shows a means for solving the interference of the bent end of the upper end of the flange outer guide plate and the bent end of the upper end of the inner guide plate of the flange.
Fig. 12 shows an embodiment to which Fig. 10 (b) is applied.
Fig. 13 shows an embodiment to which Fig. 10 (c) is applied.
Fig. 14 shows an embodiment to which Fig. 10 (d) is applied.
15 and 16 show a modular lamination method using the self-positioning structure of the present invention in order.
17 shows another embodiment of the modular lamination method using the self-positioning structure of the column of the present invention in order.

The following figure illustrates various combinations of the present invention in one drawing.

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

1. Self-positioning structure of columns

Figs. 1 to 3 are embodiments of a self-positioning structure of a column of the present invention applied to a base plate, and Fig. 5 is an embodiment of a self-positioning structure of a column of the present invention applied to a bottom column.

The self-positioning structure of the column of the present invention is for installing the column 100 on the base plate 200 or the lower column 100 '

A water guide tube 110 installed below the column 100; And an arm guide tube 220 installed on the base plate 200 or the lower column 100 in a shape corresponding to the horizontal cross section of the water guide tube 110,

The water guide tube 110 has a vertical section in an inverted trapezoid or a taper shape so that when the column 100 is lifted down and the water guide tube 110 is lowered into the interior of the arm guide tube 220 So that the column 100 is installed on the base plate 200 or the lower column 100 'while maintaining the vertical and horizontal degrees determined by its own weight and gravity.

1 to 3, the horizontal cross section of the water guide tube 110 is circular, or is a polygon including a triangle and a rectangle.

FIG. 6 illustrates the installation process of FIGS. 1-3.

As shown in the figure, the base plate 200 includes:

A base plate 210; And an arm guide tube 220 installed on the base plate 210,

The base plate 210 is buried in foundation concrete in a new construction site or buried between an existing slab OS and a new expansion and contraction slab NS at a remodeling site to expose the arm guide tube to the outside.

The column 100 may also be a steel frame as shown in Figs. 1 (a), 2 (a) and 3 (a) tube,

A column lower plate 130 is provided below the column 100 and a column lower side wall 120 is provided between the column lower plate 130 and the water receiving guide tube 110 to close the side. can do.

The arm guide tube 220 and the column lower sidewall 120 can be bolted with bolts and nuts or welded as shown in the right side of FIG.

FIG. 9 shows a process of filling the filled concrete in the present invention.

9, the inner space formed by the column lower plate 130, the column lower sidewall 120, the water guide tube 110, and the arm guide tube 220 is connected, The filled concrete FC is injected into the injection hole 222 on the side of the tube 220 and the filled concrete FC is injected into the leakage hole 122 formed in the column lower sidewall 120 or the column lower plate 130. [ Is filled or not. That is, it is intended to secure the integrity as in the conventional CFT.

4 is another embodiment of the self-positioning structure of the column of the present invention applied to the base plate, FIG. 7 is another embodiment of the self-positioning structure of the column of the present invention applied to the lower column, FIG.

The embodiment shown in Figs. 4, 7 and 8 and Fig. 10 (a) is for installing the steel column 100 'on the base plate 200' or the lower column 100 '

And a pair of web guide plates 220 'installed on a web of the upper steel frame on the base plate 200' or the lower column 100 '

The web guide plate 220 'has a top end opposite to that of the web guide plate 220', and when the column 100 'descends, the wedge of the upper end of the web guide plate 220' Since the web 100 is guided, the column 100 'is installed on the base plate 200' or the lower column 100 '' while maintaining the vertical and horizontal degrees determined by its own weight and gravity .

10 shows another embodiment of the self-positioning structure of the column of the present invention applied to the lower column in various ways.

10 (b) to 10 (d), a flange outer guide plate 222 'is provided outside the flange of the upper steel frame at the base plate 200' or the lower column 100 ' The bent end of the upper end of the flange outer guide plate 222 'induces a flange of the steel column 100' when the column 100 'descends, so that the column 100' And is installed above the base plate 200 'or the lower column 100' `while maintaining vertical and horizontal degrees determined by its own weight and gravity.

11, a flange inner guide plate 224 'is installed inside the flange of the upper steel frame at the base plate 200' or the lower column 100 ' The bent end of the upper end of the flange inner guide plate 224 'induces a flange of the steel column 100', so that the column 100 'is fixed by its own weight and gravity And is installed above the base plate 200 'or the lower column 100''while maintaining the vertical and horizontal degrees.

11 shows a means for solving the interference of the bent end of the upper end of the flange outer guide plate and the bent end of the upper end of the inner guide plate of the flange.

The contact portion between the bent end of the upper end of the flange outer guide plate 222 'and the bent end of the upper end of the flange inner guide plate 224' may be mitered or semi-miter fitted as shown in FIG. 11 (a) b 'to prevent interference between the bent end of the upper end of the flange outer guide plate 222' and the bent end of the upper end of the flange inner guide plate 224 '.

2. Modular lamination method using self-positioning structure of columns

15 and 16 show a modular lamination method using the self-positioning structure of the present invention in order.

The modular lamination method using the self-positioning structure of the present invention uses the self-positioning structure of the column as shown in FIGS. 15 and 16,

(1) installing a plurality of the arm guard tubes (220) on the plurality of base boards (200) or the lower pillars (100 ') spaced apart from one another by column spacings; (2) A plurality of columns 100 provided with a water guide tube 110 are connected to a plurality of girders to form a plurality of one-piece OBCs (OBCs) each consisting of one unit. A mounting and mounting step to be installed spaced apart; And (3) connecting the OBCs with each other by a girder; And a control unit.

The modular lamination method using the self-positioning structure of the present invention using the embodiments of FIGS. 4, 7, 8, 10, and 11 includes (1) a plurality of base plates 200 ' A plurality of the web guide plates 220 ', the flange outer guide plates 222', or the flange inner guide plates 224 'are installed on the lower column 100' Guide installation step; (2) A plurality of steel column 100 'are connected by a plurality of girders to form a plurality of one-bay cell (OBC) units, Installation phase; And (3) a cell connecting step of connecting the OBCs disposed apart from each other by a girder.

Specifically, FIG. 12 shows an embodiment to which FIG. 10B is applied, FIG. 13 shows an embodiment to which FIG. 10C is applied, FIG. 14 shows an embodiment to which FIG. It is.

17 shows another embodiment of the modular lamination method using the self-positioning structure of the column of the present invention in order.

The one-bay cell (OBC) is one unit of four pillars, and the multi-bay cell (MBC) of FIG. 17 is made up of six or more pillars according to the capacity of the double- Two or more spaces are created and applied as one unit. At this time, the multi-bay cells (MBC) are interconnected to each other and applied.

The original OBC and the multi-bay cell MBC can be manufactured as one unit by applying one column height of one vertical height or one column of three columns commonly used. , The present invention can be applied without limitations in height and length to the extent permissible by the pivoting capability.

Further, in the present invention, a hole is formed in the upper part of the column 100 included in the original bay cell (OBC) and the multi-bay cell (MBC) to form a hole through which the crane hook is inserted, .

In conclusion, the present invention is based on the premise that the precise dimensions and shapes of the members pre-manufactured on the ground or in the factory are dry assembled at the construction site, and the accuracy of construction such as verticality and horizontality is automatically adjusted by gravity and gravity It is excellent in the air and air-saving effect because it is kept high and safe and fast in high-speed construction.

In addition, a plurality of columns are connected by a plurality of girders, and a plurality of one-bay cells or multi-bay cells each consisting of one unit are manufactured, and the precision of vertical and horizontal workings is adjusted and maintained by gravity, And it is easy to install and dismantle, so that members can be reused.

In addition, since there are few environmental pollution factors such as noise and dust, the building can be vertically enlarged immediately without relocation or retirement.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the invention.

It is therefore intended that the appended claims cover such modifications and variations as fall within the true scope of the invention.

OS: existing slab
NS: stretch slab
FC: Filled Concrete
OBC: One Bay Cell
MBC: MultiBay Cell
100: Column
100`: Steel column
100``, 100```: Lower column
110: male guide tube
120: column bottom wall
122: Leakage hole
130: column bottom plate
200, 200`: base plate
210: Base plate
220: Arm guide tube
220`: web guide plate
222: injection hole
222`: Flange outer guide plate
224`: Flange inner guide plate

Claims (6)

For mounting the column 100 on the base plate 200 or the lower column 100 '
A water guide tube 110 installed below the column 100; And
An arm guide tube 220 installed on the base plate 200 or the lower column 100 'in a shape corresponding to the horizontal cross section of the water guide tube 110;
, ≪ / RTI >
The water guide tube 110 has a vertical section in an inverted trapezoid or a taper shape so that when the column 100 is lifted down and the water guide tube 110 is lowered into the interior of the arm guide tube 220 The column 100 is installed on the base plate 200 or the lower column 100 'while maintaining the vertical and horizontal degrees determined by its own weight and gravity,
The column 100 is a steel frame or a CFT (concrete filled tube), and a column lower plate 130 is installed at a lower portion of the column 100. At a lower side of the column lower plate 130, This closed column lower sidewall 120 is provided,
The inner space formed by the column lower plate 130, the column lower sidewall 120, the water guide tube 110, and the arm guide tube 220 is connected, It is confirmed whether the filled concrete FC is filled into the leakage hole 122 formed in the column lower sidewall 120 or the column lower plate 130 by injecting the filled concrete The self-positioning structure of the column.
The method of claim 1,
Wherein the horizontal cross section of the water guide tube (110) is circular, or a polygon including a triangle and a quadrangle.
3. The method according to claim 1 or 2,
The base plate (200)
A base plate 210; And
An arm guide tube 220 installed on the base plate 210;
, ≪ / RTI >
Wherein the base plate (210) is buried in a foundation concrete at an expansion / contraction site or buried between an existing slab (OS) and a new expansion / contraction slab (NS) at a remodeling site to expose the arm guide tube to the outside. .
delete delete The self-positioning structure of the column of claim 1 or 2 is used,
(1) installing a plurality of the arm guard tubes (220) on the plurality of base boards (200) or the lower pillars (100 ') spaced apart from one another by column spacings;
(2) A plurality of columns 100 provided with a water guide tube 110 are connected to a plurality of girders to form a plurality of one-piece OBCs (OBCs) each consisting of one unit. A mounting and mounting step to be installed spaced apart; And
A cell connection step of connecting the OBCs separated by the OBCs by a girder;
And a modular lamination method using the self-positioning structure of the column.

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