KR101219995B1 - A temporary brace and a composite steel girder, a shift section steel girder used an building structure and thereof construction method - Google Patents

Abstract

The present invention, in order to solve the problems of the prior art, by installing a temporary brace and a composite girder in the short side direction of the girder to make the rigid girder behaves three consecutive spans, greatly reducing the bending moment,
In addition, the steel girders are changed in the longitudinal direction of the steel girders in consideration of the fact that the center of the steel girders has a large bending moment and both ends have a small bending moment. By treating it in section
It reduces the bending stress acting on the short lateral girder girders, and the long lateral steel girder is a temporary brace and composite girder, a sectional steel girder, and a building structure construction method using them. The purpose is to provide.
In order to achieve the above object, the present invention provides a short side steel girder (2) in a short side steel girder (2) coupled between a pair of steel poles (1) and the steel pole (1) installed at predetermined intervals. The short side steel girders positioned at a predetermined distance in the direction of the center of the girder at both ends of the support plate 15 and the short side steel girders 2 coupled to the flange of the steel column 1 located at a predetermined height from an upper surface of the Temporary braces 10 are installed between the support plates 15 coupled to the upper flanges of 2),
The gusset plate 5 joined to the steel pillar 1 by welding is bolted to the web of the steel girder 2, and each of the steel girder 2 has a U-shaped iron sheet formwork 13 at predetermined sections of both ends. ) Is installed, the cast iron formwork 13 is filled with the cast-in-place concrete (4) and a plurality of reinforcing bars (7) are installed on the upper portion to reinforce both ends of the steel girder. .
In addition, the present invention is a long side steel girders (16) coupled between the pair of steel pillars (1) and the steel pillars (1) provided at predetermined intervals, the center at both ends of the long side steel girders (16) The steel girders 11 with small dances are installed at predetermined distances in the direction, and the steel girders 12 with large dances are installed at the central portion of the long side steel girders 16.
Both ends of the large steel girders 12 of the dance are formed so that a portion of the upper flange and the web is cut so that the dancing can be combined with the ends of the small steel girders 11, the large steel girders 12 of the dance Both ends of the cut and one end of the dance steel girders 11 are characterized in that they are joined by welding, respectively.
In addition, the present invention comprises the steps of installing a pair of steel poles (1) at a predetermined interval; Installing the temporary brace and the composite girder in the short side direction on the steel pillar (1), and installing the side cross-section steel girder in the long side direction; forming a rectangular opening around the steel pillar and pouring slab ;
Reinforcing steel bars in the rectangular openings around the steel columns and placing concrete to reinforce the steel columns with reinforced concrete; Characterized in that consisting of; cutting the hypothesis brace 10 to dismantle.

Description

{A temporary brace and a composite steel girder, a shift section steel girder used an building structure and details construction method}

The present invention reduces the bending stress acting on the steel girders due to the upper load during construction of the building structure, the temporary brace and the composite girder, the cross-section steel girders used in the building structure that can support efficiently, the construction structure construction method using them It is about.

In general, when constructing an underground structure when constructing a building structure, there is a reverse drilling method for constructing a structure by excavating the ground one by one from the ground to the lower ground level, and when constructing an underground structure in which steel and reinforced concrete are synthesized by the reverse drilling method. The composite girder, which is combined with the rigid composite column, uses a PC (precast concrete) composite girder in which precast concrete is synthesized in the steel girder.

1 is a plan view of an underground structure using a PC composite girder, FIG. 2 is a bending moment diagram of the short side PC composite girder of FIG. 1, FIG. 3 is a sectional view taken along line AA ′ of FIG. 1, and FIG. 4 is of FIG. 3. CC 'is sectional drawing, FIG. 5 is BB' sectional drawing of FIG. 1, FIG. 6 is DD 'sectional drawing and EE' sectional drawing of FIG.

When building the underground structure by the reverse punching method when building the building structure, as shown in Figure 1, 3, 4, the gusset plate 5, which is coupled by welding to the steel column (1) in the short side direction of the girder as an example gusset plate) is coupled to the short side steel girder (2), the central portion of the short side steel girder (2) is a steel girder,

Both ends are precast concrete manufactured in the factory by reinforcing steel (7) and cast-in-place concrete (4) synthesized in the steel girder (2), and the gusset plate (5) of the steel column (1) is the short side direction The bolt is joined to the web of the steel girder 2.

1, 5, and 6, the gusset plate 5 coupled by welding to the steel column 1 in the long side direction of the girder is combined with the PC composite girder 3, both ends of the PC composite girder 3 The stud bolt (8) is coupled to the web of the steel girder and synthesized with reinforced concrete,

The central part is a precast concrete produced in a factory by combining the PC steel wire 9 and the reinforced concrete, and the gusset plate 5 of the steel pillar 1 is formed of a web of steel girder, which is an end of the PC composite girder 3. Bolted joints.

In constructing the underground structure by reverse drilling method, when the short side synthetic girder is bonded to the gusset plate 5 of the steel column 1 in the short side direction of the girder, the short side synthetic girder is the bending moment diagram of FIG. As it behaves as a single span continuous span, the bending moment is greatly generated, increasing the cross section and weight.

In addition, the PC composite girder used in the long and short direction of the girder is manufactured at the factory and transported to the site for installation, thus increasing the production cost and transportation cost, and it is difficult to install due to the heavy weight of precast concrete, resulting in a decrease in workability. do.

The present invention, in order to solve the problems of the prior art, by installing a temporary brace and a composite girder in the short side direction of the girder to make the rigid girder behaves three consecutive spans, greatly reducing the bending moment,

In addition, the steel girders are changed in the longitudinal direction of the steel girders in consideration of the fact that the center of the steel girders has a large bending moment and both ends have a small bending moment. By treating it in section

It reduces the bending stress acting on the short lateral girder girders, and the long lateral steel girder is a temporary brace and composite girder, a sectional steel girder, and a building structure construction method using them. The purpose is to provide.

The present invention provided to achieve the above object is a short-sided steel girder (2) coupled between a pair of steel poles (1) and the steel poles (1) installed at predetermined intervals, the short-sided steel The short side positioned at a predetermined distance in the direction of the center of the girder at both ends of the support plate 15 coupled to the flange of the steel column 1 located at a predetermined height from the upper surface of the girder 2 and the short side steel girder 2 Temporary braces 10 are respectively installed between the support plates 15 coupled to the upper flanges of the directional steel girders 2,

The gusset plate 5 joined to the steel pillar 1 by welding is bolted to the web of the steel girder 2, and each of the steel girder 2 has a U-shaped iron sheet formwork 13 at predetermined sections of both ends. ) Is installed, the cast iron formwork 13 is filled with the cast-in-place concrete (4) and a plurality of reinforcing bars (7) are installed on the upper portion to reinforce both ends of the steel girder. .

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In addition, the present invention is a long side steel girders (16) coupled between the pair of steel pillars (1) and the steel pillars (1) provided at predetermined intervals, the center at both ends of the long side steel girders (16) The steel girders 11 with small dances are installed at predetermined distances in the direction, and the steel girders 12 with large dances are installed at the central portion of the long side steel girders 16.

Both ends of the large steel girders 12 of the dance are formed so that a portion of the upper flange and the web is cut so that the dancing can be combined with the ends of the small steel girders 11, the large steel girders 12 of the dance Both ends of the cut and one end of the dance steel girders 11 are characterized in that they are joined by welding, respectively.

In addition, the present invention comprises the steps of installing a pair of steel poles (1) at a predetermined interval; Installing the temporary brace and the composite girder in the short side direction and installing the side sectional steel girder in the long side direction; Forming a rectangular opening around the steel column and placing slab;

Reinforcing steel bars in the rectangular openings around the steel columns and placing concrete to reinforce the steel columns with reinforced concrete; Characterized in that consisting of; cutting the hypothesis brace 10 to dismantle.

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In the short side direction steel girder used in the building structure of the present invention as described above, in the process of constructing the building structure, by installing a temporary brace in the short side direction of the steel girder, the steel girder behaves as a three span continuous span,

When the permanent load is applied, both ends of the steel girder are joined to be integrated into the steel composite pillar by installing steel sheet formwork and reinforcing the inside with reinforced concrete so that the cross-section stiffness of both ends of the short side steel girder is increased. It saves 30 to 40% of the amount of steel used in the short-side steel girders of the technology, which reduces the cross-section of the short-side steel girders and reduces the weight.

In addition, in the long side direction of the steel girder by treating the steel girder as a side cross-section with a difference in the size of both ends and the center portion of the steel girder according to the bending stress, 10 ~ 15 of the amount of steel used in the long side steel girder of the prior art It saves%, and the long side steel girders are effective in weight reduction.

In addition, the weight of the columns and foundations is reduced due to the light weight of the long and short side steel girders, thereby reducing the weight of the building structure system and economical. Both ends of the cast-in-place concrete is easy to carry and install the effect is easy.

1 is a plan view of an underground structure using a conventional PC composite girder
FIG. 2 is a bending moment diagram of the short side PC composite girder of FIG.
3 is a cross-sectional view taken along line AA ′ of FIG. 1.
4 is a cross-sectional view taken along line CC ′ of FIG. 3.
5 is a cross-sectional view taken along line BB ′ of FIG. 1.
6 is a cross-sectional view taken along line DD ′ and EE ′ of FIG. 5.
7 is a plan view of an underground structure that is an embodiment of the present invention
8 is a bending moment diagram of the short side PC composite girders of FIG.
9 is a perspective view of an underground structure which is an embodiment of the present invention
FIG. 10 is a cross-sectional view taken along line FF ′ of FIG. 7.
FIG. 11 is a sectional view taken along line II ′ and JJ ′ of FIG. 10.
12 is a cross-sectional view taken along the line G-G 'of FIG.
13 is a cross-sectional view taken along line KK 'and LL' of FIG.
Figure 14 (a), (b) is a bonded cross-sectional view of the cross-sectional steel girders of Figure 12
15 is a perspective view of an underground structure which is another embodiment of the present invention
16 is a perspective view of a state in which the slab construction in the underground structure of FIG.

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

7 is a plan view of an underground structure according to an embodiment of the present invention, and FIG. 8 is a bending moment of the short side PC composite girder of FIG. 7, which is coupled to a pair of steel columns 1 installed at predetermined intervals when constructing an underground structure. In the long and short side steel girders, in the short side direction of the girder, a temporary brace 13 is provided between the flanges of the pair of steel pillars 1 and the upper flanges of both ends of the steel girders 2, respectively.

The steel girder (2) is reduced to light weight by reducing the depth (depth) to behave as a three-span continuous span as shown in the bending moment diagram of Figure 8, 30 ~ of the amount of steel used in the short-side steel girders of the prior art 40% savings are available for ground structures.

In addition, in the long side direction of the girder, according to the bending stress of the steel girder, by using the steel girders 12 with a large dance and the steel girders 11 with small dances at both ends, the steel girders are formed in the cross section, Ten to fifteen percent of the steel used in the long side girder of the technology is saved, which makes the long side girder lighter and can be used for ground structures.

FIG. 10 is a cross-sectional view taken along line FF ′ of FIG. 7, and FIG. 11 is a cross-sectional view taken along line II ′ of FIG. 10 and JJ ′, and a short side coupled between the pair of steel columns 1 and the steel columns 1 provided at predetermined intervals. In the directional steel girders 2,

A predetermined distance in the direction of the center of the girder from both ends of the support plate 15 and the short side steel girder 2 coupled to the flange of the steel column (1) located at a predetermined height from the upper surface of the short side steel girder (2) Temporary braces 10 are installed between the support plates 15 coupled to the upper flanges of the short side steel girder 2 located at each to reinforce both ends of the short side steel girder 2.

The gasset plate 5 welded to the flange side of the steel column 1 located under the slab is bolted to the web of the steel girder 2 and each has a U-shape in a predetermined section of the end of the steel girder 2. Iron plate formwork 13 is installed,

The U-shaped sheet metal formwork 13 is filled with in-place casting concrete 4 and a plurality of reinforcing bars 7 are installed thereon to reinforce both ends of the short side steel girders 2, and the short side direction. The upper surface of the steel girder 2 is provided with a stud bolt 8 to integrate the steel girder 2 and the slab, which can be used for ground structures.

FIG. 12 is a cross-sectional view taken along line G-G 'of FIG. 7, and FIG. 13 is a cross-sectional view taken along line KK' and LL 'of FIG. 12, and is coupled between a pair of steel columns 1 and the steel columns 1 provided at predetermined intervals. In the long side steel girders 16, the steel girders 11 having small dances are respectively disposed at predetermined distances (1/4 to 1/5 of an interval) from both ends of the long side steel girders 16 toward the center. Is installed, in the central portion of the long side steel girders 16 is installed a large steel girders 12,

Both ends of the large steel girders 12 of the dance are formed so that a portion of the upper flange and the web is cut so that the dancing can be combined with the ends of the small steel girders 11, the large steel girders 12 of the dance Both ends of the cut and one end of the dance steel girders 11 are respectively joined by welding, which can be used for ground structures.

In addition, one end of the small steel girders 11 is hinge-bonded with the gusset plate 5 provided in the web of the central portion of the short side steel girders 2.

9 is a perspective view of an underground structure according to an embodiment of the present invention. In installing long and short side steel girders between steel pillars installed at predetermined intervals, the steel girders 2 in the short side direction have predetermined sections at both ends. Install the U-shaped iron sheet formwork (13) on the inside and fill the cast-in-place concrete therein, and install a plurality of reinforcing bars (7) at the upper part thereof,

Temporary brace 10 is installed between the support plate 15 coupled to the steel pillar 1 flange and the support plate 15 coupled to the upper flange of the short side steel girder 2 to form a short side steel girder. Reinforce both ends of (2).

In addition, in the long side direction, the steel girders are treated as edges by varying the size of both ends and the center portion of the steel girders according to the bending stress, so that both ends of the steel girders have a long side steel girders 11 having a small dance, and a dance at the center portion. This long side steel girder 12 is provided to efficiently form the cross section of the long side steel girder.

14 (a) and 14 (b) are detailed cross-sectional views of the sectional steel girders of FIG. 12, and both ends of the steel girders 12 having large dances in FIG. 14 (a) are steel girders 11 having small dances. The upper flange and a portion of the web are formed to be cut so that they can be combined with the ends of the dance, and the end of the small steel girder 11 is welded with both cut ends of the large steel girder 12.

In addition, in Fig. 14 (b), a groove of a predetermined length is formed at the bottom of the web of the cut end of the large steel girders 12, the horizontal stiffener 14 is welded to the groove, the horizontal stiffener The end of 14 and the lower flange end of the small steel girder 11 are welded together, the end web of the small steel girder 11 and the cut end of the large steel girder 12. The web is welded so that the horizontal stiffener 14 supports a tensile or compressive force acting on the lower flange of the small steel girder 11.

15 is a perspective view of an underground structure, which is another embodiment of the present invention, and FIG. 16 is a perspective view of a slab installed in the underground structure of FIG. 15, and a pair of steel pillars 1 and the steel pillars installed at predetermined intervals ( 1) In the short side steel girder (2) coupled between,

A predetermined distance in the direction of the center of the girder from both ends of the support plate 15 and the short side steel girders (2) coupled to the flange of the steel column (1) located at a predetermined height from the lower surface of the short side steel girders (2) Temporary braces 10 are installed between the support plates 15 coupled to the lower flanges of the short side steel girder 2 located at each to reinforce both ends of the short side steel girder 2, which is a ground structure. Can also be used.

The method for constructing a building structure using the temporary brace and the composite girder for the short side steel girders and the cross sectional steel girder for the long side steel girders may include installing a pair of steel columns at predetermined intervals; Installing the side sectional steel girders in the longitudinal direction to the steel poles, and installing the temporary braces and the composite girder in the short sides;

Placing a slab by forming a rectangular opening around the steel pillar; Reinforcing the steel bars in the rectangular openings around the steel columns and placing concrete to reinforce the steel columns with reinforced concrete (not shown); Cutting the hypothesis brace to dismantle; characterized in that the construction as.

1: Steel column 2: Short-side steel girder
3: PC composite girder 4: Cast-in-place concrete
5: gusset plate 6: slab
7: rebar 8: stud bolt
9: PC steel wire 10: Hypothesis brace
11: Dancing Steel Girder Small 12: Dancing Steel Girder Small
13: U-shaped iron formwork 14: horizontal stiffener
15: support plate 16: long side steel girders
Lx: Short side span Ly: Long side span
M; Bending moment

Claims (7)

In the short side steel girders (2) coupled between the pair of steel poles (1) and the steel poles (1) provided at predetermined intervals,
A predetermined distance in the direction of the center of the girder from both ends of the support plate 15 and the short side steel girder 2 coupled to the flange of the steel column (1) located at a predetermined height from the upper surface of the short side steel girder (2) Temporary braces 10 are installed between the support plates 15 coupled to the upper flanges of the short-side steel girder 2 located at
The gusset plate 5 joined to the steel pillar 1 by welding is bolted to the web of the steel girder 2, and each of the steel girder 2 has a U-shaped iron sheet formwork 13 at predetermined sections of both ends. ) Will be installed,
The U-shaped sheet metal formwork 13 is filled with cast-in-place concrete (4) and a plurality of reinforcing bars (7) are installed on the upper portion to reinforce both ends of the short-side steel girders (2) Hypothesis braces used in building structures. In the short side steel girders (2) coupled between the pair of steel poles (1) and the steel poles (1) provided at predetermined intervals,
A predetermined distance in the direction of the center of the girder from both ends of the support plate 15 and the short side steel girders (2) coupled to the flange of the steel column (1) located at a predetermined height from the lower surface of the short side steel girders (2) Temporary braces 10 are respectively installed between the support plates 15 coupled to the lower flanges of the short-side steel girder 2 located at
The gusset plate 5 joined to the steel pillar 1 by welding is bolted to the web of the steel girder 2, and each of the steel girder 2 has a U-shaped iron sheet formwork 13 at predetermined sections of both ends. ) Will be installed,
The U-shaped sheet metal formwork 13 is filled with cast-in-place concrete (4) and a plurality of reinforcing bars (7) are installed on the upper portion to reinforce both ends of the short-side steel girders (2) Hypothesis braces used in building structures. delete In the long side steel girders 16 coupled between the pair of steel pillars 1 and the steel pillars 1 installed at predetermined intervals,
Steel girders 11 having small dances are installed at predetermined distances from both ends of the long side steel girders 16 in the center direction, and steel girders 12 having large dances are provided at a central portion of the long side steel girders 16. Is installed,
Both ends of the large steel girders 12 of the dance are formed so that a portion of the upper flange and the web are cut so that the dancing can be combined with the ends of the small steel girders 11,
Both ends of the cut steel girder (12) of the large dance girder and one end of the small steel girder (11) are each joined by welding, characterized in that the steel girder used in the building structure. 5. The groove according to claim 4, wherein a groove of a predetermined length is formed at the bottom of the web of the cut end of the large steel girder 12, and a horizontal stiffener 14 is welded to the groove, and the horizontal stiffener 14 is formed. The end of the lower flange end of the steel girders 11 and the dance is welded, the end web of the small steel girders 11 and the cut end web of the steel girders 12 of the dance is welded. Sectional steel girders used for building structures, characterized in that the joining. Installing a pair of steel pillars 1 at predetermined intervals;
Installing the temporary brace and the composite girder of claim 1 in a short side direction and installing the cross-sectional steel girder of claim 4 in a long side direction; Forming a rectangular opening around the steel pillar and placing slab;
Reinforcing steel bars in the rectangular openings around the steel columns and placing concrete to reinforce the steel columns with reinforced concrete;
The temporary brace 10 is cut and dismantled; building structure construction method, characterized in that consisting of. The construction structure construction method according to claim 6, wherein the temporary brace and the rigid girder of claim 1 are configured to be replaced by the temporary brace and the rigid girder of claim 2.

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