KR101675045B1 - Construction method for assembly stucture using module box - Google Patents

Abstract

The present invention is formed in a box structure including a plurality of pillars 110 and a main beam 120. The pillars 110 are formed into a rectangular shape having a " C "shaped cross section structure including an inner plate 111 and two side plates 112 And a pair of the main beams 120 are coupled to the both side plates 112. The module box 100 and the assembled structure using the module box 100 can provide a vertical load This makes it possible to achieve a stable gravity direction support structure even in the case of large high-rise structures or large-scale offshore structures.

Description

TECHNICAL FIELD [0001] The present invention relates to a method of constructing a prefabricated structure using a module box,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a construction field, and more particularly, to a module box and a prefabricated structure using the same.

Various studies have been made on a method of constructing a structure by assembling a module box.

When steel structures are used, H-beams and D-beams are mainly used. In any case, the most difficult problem is the structure of pillars to resist vertical load.

Particularly, in the case of a high-rise structure having a large vertical load or an offshore structure having a large wind load, a design for increasing the strength of the column of the prefabricated structure is urgently required.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a modular box capable of achieving a stable gravity direction support structure even in the case of a high-rise structure having a large vertical load or an offshore structure having a large wind load, The purpose of the presentation is to do so.

In order to solve the above problems, the present invention is formed in a box structure including a plurality of pillars 110 and a main beam 120, and the pillars 110 include an inner plate 111 and two side plates 112 And a pair of the main beams 120 are coupled to the both side plates 112. The module box 100 includes a plurality of main beams 120,

It is preferable that a stud 113 protrudes outward from the inner plate 111 of the column 110.

It is preferable that the main beam 120 of the module box 100 has a "C" -shaped cross-sectional structure including the outside sheathing 121, the upper sheathing 122 and the lower sheathing 123 with the opening facing inward.

It is preferable that a lower main beam 120b is provided between the columns 110 and a plurality of horizontal beams 130 are spaced apart from each other between the lower main beams 120b provided on both sides.

The present invention is a prefabricated structure formed by assembling a plurality of module boxes (100), wherein a coupling column (200) formed by joining columns (110) of both sides of the module box (100) , The mutual apertures meet to form a "ㅁ" shaped cross-sectional structure, and the reinforced concrete is filled therein.

It is preferable that the coupling pillars 200 are coupled by a coupling member 201 which is commonly inserted into the coupling holes of the inner plate 111 of the pillars 110 of the module box 100 on both sides.

The present invention is a prefabricated structure using the module box 100 and the finishing column 110a. The finishing column 110a has a "C" -shaped cross-sectional structure including an inner plate 111 and two side plates 112, And the coupling pillars 200 formed by coupling the pillars 110 of the module box 100 and the finishing pillars 110a are formed such that mutual openings meet to form a " And the reinforced concrete is filled in the reinforced concrete structure.

The coupling pillar 200 is coupled to the inner plate 111 of the column 110 of the module box 100 and the inner plate 111 of the finishing pillar 110a by a coupling member 201 It is preferable to combine them.

The present invention is a prefabricated structure formed by a plurality of assemblies of the module box 100. The assembled main beam 300 formed by joining the main beams 120 of both sides of the module box 100, ), The mutual outer plates (121) meet to form an "I" shaped cross-section structure, and the outer plates (121) are bolted.

Layer module box 100A including a plurality of pillars 110, an upper main beam 120a and a lower main beam 120b and the module box 100, It is preferable that the lower plate 123 of the lower main beam 120b of the module box 100A and the upper plate 122 of the upper main beam 120a of the module box 100 are bolted to each other.

The deck plate 140 is installed on the plurality of transverse beams 130 and the deck plate 140 is disposed between the deck plate 140 and the lower main beam 120b. And a bottom plate 141 is formed by pouring concrete into the bottom plate 141.

According to the present invention, there is provided a method of constructing the prefabricated structure, comprising: forming a base plate (10) having exposed reinforcing bars (11) Providing the module box 100 on the base plate 10 so that the exposed reinforcing bar 11 is positioned below the column 110; Forming a reinforcing bar assembly (21) by joining the exposed reinforcing bars (11) with reinforcing bars; The module box 100 is installed adjacent to the module box 100 so that the reinforcing bar assembly 21 is located in an inner region of the coupling column 200, Forming a column (200); And pouring concrete into an inner region of the coupling column 200. The method of constructing the prefabricated structure according to the present invention includes the steps of:

A groove 12 is formed on the upper surface of the base plate 10 and the exposed reinforcing bar 11 is formed in an inner region of the groove 12 and the lower end of the column 110 of the module box 100 It is preferable to install it in the groove 12.

According to the present invention, there is provided a method of constructing the prefabricated structure, comprising: forming a base plate (10) having exposed reinforcing bars (11) Providing the module box 100 on the base plate 10 so that the exposed reinforcing bar 11 is positioned below the column 110; Forming a reinforcing bar assembly (21) by bonding the exposed reinforcing bars (11) and the reinforcing bars (20); The finishing column 110a is provided adjacent to the column 110 of the module box 100 so that the reinforcing bar assembly 21 is positioned in the inner region of the coupling column 200, (200); And pouring concrete into an inner region of the coupling column 200. The method of constructing the prefabricated structure according to the present invention includes the steps of:

According to the present invention, there is provided a method of constructing the prefabricated structure, comprising: forming a base plate (10) having exposed reinforcing bars (11) Providing the module box 100 on the base plate 10 so that the exposed reinforcing bar 11 is positioned below the column 110; Forming a reinforcing bar assembly (21) by joining the exposed reinforcing bars (11) with reinforcing bars; The module box 100 is installed adjacent to the module box 100 so that the reinforcing bar assembly 21 is located in an inner region of the coupling column 200, Forming a column (200); Layer module box 100A is installed on the upper part of the module box 100 so that the upper end of the reinforcing bar assembly 21 is positioned below the column 110 of the two-layer module box 100A ; Forming a two-layer reinforcing bar assembly (22) by bonding reinforcing bars to the top of the reinforcing bar assembly (21); A finishing column 110a is provided adjacent to the column 110 of the module box 100 so that the two-layer reinforcing bar assembly 22 is positioned in an inner region of the coupling column 200, Forming a column (200); And pouring concrete into an inner region of the coupling column 200. The method of constructing the prefabricated structure according to the present invention includes the steps of:

The present invention proposes a module box and a prefabricated structure using the module box, which can achieve a stable gravity direction supporting structure even in the case of a high-rise structure having a large vertical load or an offshore structure having a large wind load.

1 shows an embodiment of the present invention,
1 is a perspective view of a first embodiment of a module box;
2 is a perspective view of a second embodiment of a module box;
3 is an exploded perspective view of a column and a main beam.
4 is a perspective view of a first embodiment of a prefabricated structure.
5 is a perspective view of a coupling column;
Figures 6, 8 and 9 are process drawings of a second embodiment of a prefabricated structure.
7 is a cross-sectional view of the coupling main beam.
10, 11 and 12 are process drawings of a third embodiment of the prefabricated structure.
13 is a perspective view of a reinforcing bar coupling structure.
14 is a sectional view of the base plate groove portion.
15 is a cross-sectional view of a coupling column,

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

1, the module box 100 according to the present invention is basically formed into a box structure including a plurality of columns 110 and a main beam 120 (FIGS. 1 and 2).

The pillars 110 are formed to have a "C" -shaped cross-sectional structure including an inner plate 111 and two side plates 112. The pillars 110 are installed so that the openings face outward, and the pair of main beams 120 (Fig. 3).

The prefabricated structure formed by assembling a plurality of module boxes 100 forms a coupling pillar 200. The coupling pillar 200 is connected to one side of the pillar 110 of the module box 100, And the mutual openings meet to form a "K" -shaped cross-sectional structure, and the reinforced concrete C is filled therein (FIGS. 4, 5, and 15).

That is, the column 110 of the module box 100 is formed to have a "C" -shaped cross-sectional structure, its opening facing outward, and the column 110 of the module box 100 having the same structure is installed on the side So that the coupling pillars 200 having the "ㅁ" -shaped sectional structure are formed by the combination of the pillars 110, and the inside thereof is filled with the reinforced concrete.

This is because the joining columns of the prefabricated structures take the steel reinforced concrete structure (SRC), so that a stable support structure can be obtained even in the case of a high-rise structure having a large vertical load or an offshore structure having a large wind load, .

When the stud 113 is protruded outwardly from the inner plate 111 of the column 110, it can be stably attached to the reinforcing concrete filled therein.

Are joined by a fastening member 201 such as a bolt which is inserted in common to the fastening holes of the inner plate 111 of the column 110 of both module boxes 100 to form the fastening pillar 200, There is added an advantage that the coupling column 200 can be stably formed against the pressure of the pre-hardened concrete (FIG. 5).

The main beam 120 of the module box 100 is a "C" shaped cross-sectional structure including the outside sheathing 121, the upper sheathing 122 and the lower sheathing 123 with the opening facing inward (FIG. 3) .

In this case, the coupling main beam 300 is formed by the coupling of the main beam 120 of the two side module boxes 100 adjacent to one side, An I-shaped cross-sectional structure can be formed and the outer shell 121 can be bolted together, so that a stable coupling structure together with the upper coupling pillars 200 can be achieved (FIG. 5).

Further, when the two-layer structure is formed by assembling the module box 100 and the two-layer module box 100A including the plurality of columns 110, the main main beam 120a and the main main beam 120b, Since the lower plate 123 of the lower main beam 120b of the two-layer module box 100A can be bolted to the upper plate 122 of the upper main beam 120a of the module box 100, And a plurality of module boxes forming the two layers can stably be combined (Figs. 6 and 7).

In the case where the lower main beam 120b is provided between the columns 110 and a plurality of the horizontal beams 130 are spaced apart from each other between the lower main beams 120b provided on both sides, The deck plate 140 may be installed on the transverse beam 130 of the lower main beam 120b and the bottom plate 141 may be formed by placing the concrete in the area between the lower main beam 120b and the deck plate 140, It is possible to easily and stably form the slab without installing the formwork (Figs. 8 and 9).

Even if another module box 100 is not provided on one side of the module box 100, the column structure needs to be particularly reinforced.

In this case, a separate finishing pillar 110a can be installed on the outside of the column 110 of the module box 100 (FIG. 6).

Like the column 110 of the module box 100, the finishing post 110a has a "C" shaped cross-sectional structure including the inner plate 111 and the both side plates 112, In the direction of the column 110 in Fig.

The coupling pillar 200 formed by the coupling of the pillar 110 and the finishing pillar 110a of the module box 100 has a mutual opening like the upper coupling pillar 200 to form a " , And a structure in which reinforced concrete is filled in the inside.

In this case, the coupling pillar 200 also includes a coupling member 201 that is commonly inserted into the coupling hole between the inner plate 111 of the column 110 of the module box 100 and the inner plate 111 of the finishing column 110a, It is preferable for the concrete to be stably placed.

Hereinafter, a construction method of the prefabricated structure according to the present invention will be described.

Thereby forming the base plate 10 on which the exposed reinforcing bars 11 are exposed upward (FIG. 10).

The module box 100 is installed on the base plate 10 so that the exposed reinforcing bar 11 is positioned below the column 110 (FIG. 11).

When the exposed reinforcing bar 11 is formed in the inner region of the groove portion 12, the lower end of the column 110 of the module box 100 is formed in the groove portion 12, So that a more stable structure can be achieved (Fig. 14).

The exposed reinforcing bar 11 and the reinforcing bar 20 are coupled by a coupler 23 or the like to form a reinforcing bar assembly 21 (Figs. 12 and 13).

Another module box 100 is provided adjacent to the module box 100 so that the reinforcing bar assembly 21 is located in the inner area of the coupling column 200 and the coupling pillars 200, And concrete is installed in an inner area of the coupling column 200 (FIGS. 4 and 5).

A two-layer module box 100A is installed on the upper part of the module box 100 prior to the concrete pouring into the coupling pillar 200. When the upper end of the reinforcing bar assembly 21 is divided into two layers And a reinforcing bar is coupled to an upper end of the reinforcing bar assembly 21 to form a two-layer reinforcing bar assembly 22 (FIG. 6).

Layer reinforcement assembly 22 is located in the inner area of the coupling column 200 when the module box 100 is installed on the second floor, And the coupling pillars 200 are formed by mutual coupling.

Thereafter, concrete is poured into the inner area of the coupling column 200 at one time over one or two layers to form a solid columnar structure.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It is to be understood that both the technical idea and the technical spirit of the invention are included in the scope of the present invention.

10: base plate 11: exposed reinforcing bar
12: groove 20: reinforcing bar
21: Reinforcing assembly 22: Two-layer reinforcing assembly
100: Module box 100A: Two-layer module box
110: Column 110a: Finishing column
111: inner plate 112: both side plates
113: Stud 120: Main beam
120a: upper main beam 120b: lower main beam
121: Shell plate 122: Top plate
123: lower plate 130: transverse beam
140: deck plate 141: bottom plate
200: coupling column 201: fastening member
300: coupling main beam

Claims (15)

A plurality of pillars 110, and a main beam 120,
The column 110 has a "C" -shaped cross-sectional structure including an inner plate 111 and a both-side plate 112, and the openings are installed so as to face outward, and the pair of main beams (Not shown)
A stud 113 protrudes outward from the inner plate 111 of the column 110,
The main beam 120 of the module box 100 is a "C" shaped cross-sectional structure including an outer shell 121, an upper shell 122 and a lower shell 123,
A lower main beam 120b is provided between the columns 110,
Between the lower main beams 120b provided on both sides, a plurality of horizontal cross beams 130 are formed by assembling a plurality of module boxes 100 spaced from each other,
The coupling pillars 200 formed by the joining of the pillars 110 of the module box 100 on both sides adjacent to each other on one side form mutual openings to form a "ㅁ" shaped cross-sectional structure, Charged,
Further comprising a finishing pillar 110a having a "C" -shaped cross-sectional structure including an inner plate 111 and both side plates 112 and provided with openings facing outward,
The coupling pillars 200 formed by the coupling of the pillars 110 of the module box 100 and the finishing pillars 110a have mutual openings to form a " Charged,
The coupling pillar 200 is coupled to the inner plate 111 of the column 110 of the module box 100 and the inner plate 111 of the finishing pillar 110a by a coupling member 201 ≪ / RTI &
A two-layer module box 100A including a plurality of columns 110, an upper main beam 120a and a lower main beam 120b and the module box 100,
The lower plate 123 of the lower main beam 120b of the two-layer module box 100A and the upper plate 122 of the upper main beam 120a of the module box 100 are bolted to each other, ,
Forming a base plate (10) having a groove portion (12) formed on an upper surface thereof and formed with an exposed reinforcing bar (11) in an inner region of the groove portion (12);
The module box 100 is installed on the base plate 10 so that the exposed reinforcing bar 11 is positioned below the column 110 and the reinforcing bars 11 are formed on the bottom surface of the column 110 of the module box 100, Inserting the lower end into the groove portion (12);
Forming a reinforcing bar assembly (21) by joining the exposed reinforcing bars (11) with reinforcing bars;
The module box 100 is installed adjacent to the module box 100 so that the reinforcing bar assembly 21 is located in an inner region of the coupling column 200, Forming a column (200);
Layer module box 100A is installed on the upper part of the module box 100 so that the upper end of the reinforcing bar assembly 21 is positioned below the column 110 of the two-layer module box 100A ;
Forming a two-layer reinforcing bar assembly (22) by bonding reinforcing bars to the top of the reinforcing bar assembly (21);
A finishing column 110a is provided adjacent to the column 110 of the module box 100 so that the two-layer reinforcing bar assembly 22 is positioned in an inner region of the coupling column 200, The fastening member 201 is inserted into the coupling hole of the inner plate 111 of the column 110 of the module box 100 and the inner plate 111 of the finishing column 110a Combining;
And pouring concrete into an inner region of the coupling column (200)
The coupling pillar 200 is coupled by a coupling member 201 which is commonly inserted into a coupling hole of the inner plate 111 of the column 110 of the module box 100 on both sides,
The coupling main beam 300 formed by the coupling of the main beam 120 of the module box 100 on both sides adjacent to one side meets the outer shell 121 to form an "I" The outer shell 121 is bolted,
A deck plate 140 is installed on the plurality of transverse beams 130 and a bottom plate 141 is formed by placing concrete in a region between the lower main beam 120b and the deck plate 140 The method comprising the steps of: delete delete delete delete delete delete delete delete delete delete delete delete delete delete

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