KR101182682B1 - Dual web plater type steel-concrete composite girder, girder bridge and method for manufacturing and constructing the same - Google Patents

Abstract

PURPOSE: A double web panel type concrete filled composite girder, a girder bridge using the same, and manufacturing and construction methods thereof are provided to enable the construction of a bridge having a small cross section and excellent structural stability. CONSTITUTION: A double web panel type concrete filled composite girder comprises a lower flange(2), web panels(3), concrete filled portions(4), upper flanges(5), and tension stiffeners(6). The web panels composed of a steel material are vertically coupled to the top of the lower flange. The concrete filled portions are formed by filling the gaps between the web panels with concrete. The upper flanges composed of a steel material cover the web panels and the concrete filled portions. The tension stiffeners composed of a steel material are formed on the top of the lower flange in a T-shape.

Description

Dual web plater type steel-concrete composite girder, girder bridge and method for manufacturing and constructing the same}

The present invention relates to a double abdominal plate-shaped concrete-filled composite girder and a girder bridge using the same, and a method of fabricating and installing the same. The present invention relates to a double abdominal plate-shaped concrete-filled composite girder, a girder bridge using the same, and a method of manufacturing and installing the same.

Research and development for the fabrication and construction of bridges with excellent flexural and torsional rigidity are ongoing.

With this technology, Korean Patent Publication No. 10-1013021 (published on Feb. 4, 2011) integrates the upper and lower flanges of a pair of steel plate girders of I-shaped section consisting of an upper flange, an abdomen, and a lower flange to each other to form a box cross section. As the girder to be formed, it has a feature that can be structurally efficient and economical construction by having a large rigidity for the working load through the cross-sectional shape of the box.

However, such a conventional box girder has some girder flanges integral with each other, and some are separated, so that it is difficult to manufacture and install, and there is no effective countermeasure against the compressive stress acting on the bridge. It is difficult to mass-produce because the work is done in the field, especially, the use rate of steel is still high, there is a problem that the economical efficiency is considerably reduced considering the steel price aspect.

In order to solve the problems as described above, the present invention uses a steel and concrete composite structure of the I-shaped cross-section having a high cross-sectional structural rigidity, and taking a box-shaped structure, while having a small cross-sectional size, low The purpose of the present invention is to provide a double-abdominal plate-shaped concrete-filled composite girder, a girder bridge using the same, and a method of fabricating and installing the same, which are applicable to bridges and medium-long span bridges.

In addition, the present invention can reduce the use ratio of relatively high cost steel, is easy to manufacture, in particular double abdominal plate-shaped concrete-filled composite girder and the girder bridge using the same to facilitate the construction in the field after the factory production, and the fabrication thereof And it aims to provide a hypothesis method.

In addition, the present invention compensates the deflection due to the weight of the steel and concrete composite girders in the box girder bridge type through the proper placement and tension of the steel wire, and supplement the girder by supplementing the girder by burdening part of the tensile stress generated The purpose of the present invention is to provide a composite girder, a girder bridge using the same, and a method of manufacturing and installing the same.

In addition, an object of the present invention is to provide a double abdominal plate-shaped concrete-filled composite girder and a girder bridge using the same, and a method of manufacturing and installing the same.

As a means for solving the problems as described above, the double-abdominal plate-shaped concrete-filled composite girder of the present invention,

Bottom flange of single steel,

Is coupled to the lower flange in the vertical direction, the abdominal plate of the steel provided in pairs on each of the left and right,

Concrete filling part formed by filling the concrete between the abdominal plate provided on each of the left and right and

 It is provided in each of the left and right side is characterized in that it is configured in the form of a box that the top is opened, including the upper flange of the steel covering the abdominal plate and the concrete filling.

In addition, the upper surface of the lower flange is characterized in that it further comprises a tensile reinforcement of the steel is formed and coupled in the form of a T-shape.

In addition, it is characterized in that it further comprises a steel wire provided inside the concrete filling portion.

In addition, one end is coupled to the abdominal plate, characterized in that the plurality of shear connection member is further provided with a 'b' shape provided in the concrete filling portion.

In addition, the present invention relates to a girder bridge using a double abdominal plate-shaped concrete-filled composite girder,

In the girder of the branch part,

Horizontal plate coupled to both ends perpendicular to the inner abdominal plate of the left and right abdominal plate and

The lower concrete filling unit is filled with concrete between the horizontal plate and the lower flange is characterized in that it is further provided.

Further, according to the present invention,

In the middle joint of the girder,

Barrier wall spaced inwardly from the end of the intermediate joint girders respectively formed in parallel to the cross section of the girder, the space between the abdominal plate,

A synthetic resin layer formed on the bottom and side surfaces of the space part between the barrier wall and the barrier wall;

It is characterized in that the concrete connection is further provided by filling the inside of the synthetic resin layer.

In addition, the present invention relates to a method for manufacturing a double abdominal plate-shaped concrete-filled composite girder,

An abdominal plate joining step of joining a pair of abdominal plates, respectively, perpendicular to the left and right sides of the upper surface of the lower flange;

The upper flange is coupled to the upper end of the abdominal plate, the upper flange is formed on the left and right sides respectively coupled to the upper end of the pair of abdominal plate to form a pair of upper flanges closed on both sides,

A filling hole forming step of forming a concrete filling hole for placing concrete on an upper flange; and

It is characterized in that it comprises a concrete pouring and curing step of placing and curing concrete through the filling hole.

In addition, the present invention relates to the manufacturing and construction method of the girder bridge using a double abdominal plate-shaped concrete-filled composite girder,

An abdominal plate joining step of joining a pair of abdominal plates vertically to the left and right sides of the upper surface of the lower flange,

The upper flange is coupled to the upper end of the abdominal plate, the upper flange is formed on the left and right sides respectively coupled to the upper end of the pair of abdominal plate to form a pair of upper flanges closed on both sides,

Installation step for installing the double abdominal slab concrete filling composite girder,

Installation and primary tensioning step to install the steel wire and first tension to compensate for the deflection of the girder,

Concrete pouring and curing step of placing and curing concrete and

Characterized in that it comprises a secondary tensile step of tensioning the steel wire secondary.

In addition, the present invention, the abdominal plate coupling step of coupling a pair of abdominal plate vertically to the left and right sides of the upper surface of the lower flange,

A barrier wall forming step of forming a barrier wall in parallel with a cross section in a space between the abdominal plates spaced inwardly from an end portion;

The upper flange is coupled to the upper end of the abdominal plate, the upper flange is formed on the left and right sides respectively coupled to the upper end of the pair of abdominal plate to form a pair of upper flanges closed on both sides,

Installation step of installing the double abdominal plate-shaped concrete filled composite girders,

Synthetic resin layer forming step of forming a synthetic resin layer in the space between the barrier wall and the barrier wall of the girder joint;

It is characterized in that it comprises a concrete pouring and curing step of placing and curing concrete.

In addition, the gap between the abdominal plates at the point portion and the width of the concrete filling portion is characterized by being formed larger than the gap between the abdominal plates at the general portion and the width of the concrete filling portion.

Through the problem solving means as described above, the present inventors double abdominal plate-shaped concrete-filled composite girder and the girder bridge using the same, and the production and construction method thereof,

By using I-shaped steel and concrete composite structure with high sectional structural rigidity, and taking a box-shaped structure, it is possible to manufacture bridges with small cross-section, low-thickness, medium to long span, and structural stability.

It is possible to reduce the use rate of steel, which is relatively expensive, and to be easy to manufacture.

Through proper placement and tensioning of the steel wire, the box girder bridge type compensates for the deflection caused by the weight of steel and concrete composite girder, and compensates the girder by bearing a part of the tensile stress generated.

There is an advantage to facilitate disassembly after use.

1 and 2 are a cross-sectional view and a perspective view showing a double abdominal plate-shaped concrete filling composite girder according to the present invention.
Figure 3 is a cross-sectional view showing a shear connector of the double abdominal plate-shaped concrete-filled composite girder according to the present invention.
Figure 4 is a cross-sectional view showing the diaphragm and inspection passage of the double abdominal plate-shaped concrete-filled composite girder according to the present invention.
5 to 9 is a cross-sectional view showing a girder bridge using a double abdominal plate-shaped concrete-filled composite girder according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT A preferred embodiment of a double abdominal plate-shaped concrete filled composite girder according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a cross-sectional view and a perspective view showing a double abdominal plate-shaped concrete filled composite girder according to the present invention.

As shown in FIG. 1, the double abdominal plate-shaped concrete-filled composite girder 1 according to the present invention is coupled to one lower flange 2 and the upper surface of the lower flange 2 in a vertical direction, respectively, on the left and right sides thereof. A concrete filling unit 4 formed by filling concrete between the abdominal plate 3 provided in pairs, and the abdominal plate 3 of each of the left and right sides, and the abdominal plate 3 and the concrete filling unit 4 provided on each of the left and right sides It is configured to include an upper flange (5) is coupled to cover the), because of the present invention is configured in the form of an open box girder, the top is open, excellent welding work, economical efficiency, in particular, both sides of the box structure in the form of I By taking the cross-sectional structure there is a feature that can significantly increase the bending rigidity.

Here, the lower flange 2, the abdominal plate 3 and the upper flange 5 are made of steel plates.

In addition, as shown in FIG. 1, in the present invention, the upper surface of the lower flange 2 is formed in a 'T' shape as a means for compensating the strength against excessive tensile stress generated by the bending of the girder. It further comprises a tensile reinforcing material (6) of the steel to be bonded.

In addition, as shown in FIG. 2, in the present invention, a steel wire 7 is further provided inside the concrete filling part 4, such as sagging of the girder generated during the installation process of the girder by tensioning the steel wire 7. Deformation is prevented, and the additional tensioning process after the concrete is placed to compensate for the deflection due to its own weight and to impart additional stress to compensate for the deflection under load.

In addition, as shown in FIG. 3, in the present invention, one end is coupled to the abdominal plate 3, and a plurality of shear connecting members 8 having a '-' shape provided in the concrete filling part 4 are provided. The shear connector 8 is further provided between the abdominal plate 3 and the concrete filling part 4 while resisting the horizontal shear force generated between the abdominal plate 3 and the concrete filling part 4 when bending due to load occurs. It is for the abdominal plate 3 and the concrete filling part 4 to behave as a single body by preventing separation.

The shear connector 8 is preferably formed at regular intervals along the longitudinal direction of the girder.

And, as shown in Figure 4, the diaphragm 9 is formed perpendicular to the longitudinal direction of the girder at regular intervals along the longitudinal direction in the girder to reinforce rigidity, and also work on the diaphragm 9 And a check passage 10 for management.

Hereinafter, with reference to the accompanying drawings, a preferred embodiment of the girder bridge using a double abdominal plate-shaped concrete-filled composite girder (1) configured as described above will be described in detail.

As shown in FIG. 5, the girder bridge of the present invention uses the above-described double abdominal plate-shaped concrete-filled composite girder 1, but in the girder of the point portion 12 supported by the intermediate piers 11, the left and right abdominal plates 3 are provided. ) Is further provided with a horizontal plate 13 coupled to both ends perpendicular to the inner abdominal plate 3 and a lower concrete filling part 14 filled with concrete between the horizontal plate 13 and the lower flange 2. .

As such, the horizontal plate 13 and the lower concrete filling part 14 are further provided under the cross section of the girder. Equipped with more effectively cope with the generated compressive stress.

In addition, as shown in Figure 6, in the intermediate joint portion 15 of the girder used in the girder bridge according to the present invention, the girder cross section and the space portion between the abdominal plate (3) spaced inward from the girder end to be respectively Concrete is formed inside the barrier wall 16 formed in parallel, the synthetic resin layer 17 and the synthetic resin layer 17 formed on the bottom and side surfaces of the space between the barrier wall 16 and the barrier wall 16. It is further provided with a concrete connection portion 18 is filled.

In this way, in the intermediate joint portion 15 of the girder, a concrete connecting portion 18 is formed by the synthetic resin layer 17 that is isolated and enclosed by the blocking wall 16 so as to be easily separated. It resists and serves as a structure of the girder, and when dismantled, it is easily separated and functions to facilitate dismantling.

The synthetic resin layer 17 used herein may be any material that can easily separate the steel plate and concrete of the girder, such as vinyl, and the barrier wall 16 is a steel plate parallel to the cross section of the space of the girder. It is fixedly installed.

Hereinafter, the manufacturing method of the double abdominal plate-shaped concrete-filled composite girder 1 according to the present invention configured as described above will be described in detail.

Method for producing a double abdominal plate-shaped concrete-filled composite girder 1 according to the present invention, the abdominal plate joining step of coupling the pair of abdominal plates (3) perpendicular to the left and right sides of the upper surface of the lower flange (2), of the abdominal plate (3) The upper flange 5 is coupled to the upper flange, the upper flange 5 is formed on the left and right sides respectively coupled to the upper end of the pair of abdominal plate 3 by the upper flange coupling step of forming a pair of spaces sealed on both sides It includes a filling hole forming step of forming a concrete filling hole 19 for concrete placing on the upper flange (5) and a concrete placing and curing step of placing and curing concrete through the filling hole (19).

Through such a simple and easy manufacturing method, the double abdominal plate-shaped concrete-filled composite girder (1) according to the present invention can significantly shorten the construction period by making a girder with excellent rigidity in the factory and quickly placing it on the site. There is, but it is possible to easily manufacture and hypothesis in the field as needed.

Hereinafter, the manufacturing and construction method of the girder bridge using the double abdominal plate-shaped concrete-filled composite girder 1 according to the present invention configured as described above will be described in detail.

Method of fabrication and construction of a girder bridge using a double abdominal plate-shaped concrete-filled composite girder (1) according to the present invention, the abdominal plate coupling step of coupling a pair of abdominal plates (3) vertically to the left and right sides of the upper surface of the lower flange (2), The upper flange 5 is coupled to the upper end of the abdominal plate 3, but the upper flange 5 is formed at the left and right sides, respectively, and is coupled to the upper end of the pair of abdominal plates 3 to form a pair of spaces sealed at both left and right sides. The upper flange coupling step to install, the installation step of installing the double double plate-shaped concrete filling composite girder (1), the installation and primary tensioning step to compensate the deflection of the girder by installing the steel wire (7) and the first tension, the concrete A concrete pouring and curing step of placing and curing, and a second tensioning step of tensioning the steel wire 7 secondly.

In this way, the secondary tension of the steel wire (7) is given an additional stress for correcting the load deflection due to the casting.

In addition, the method of manufacturing and installing the girder bridge using the double abdominal plate-shaped concrete-filled composite girder (1) according to the present invention, the abdominal plate coupling for coupling a pair of abdominal plates (3) vertically to the left and right sides of the upper surface of the lower flange (2) Step, the barrier wall forming step of forming a barrier wall 16 in parallel to the cross-section in the space between the abdominal plate (3) spaced inward from the end, the upper flange (5) is coupled to the upper end of the abdominal plate (3), The upper flange 5 is formed on the left and right sides, respectively, and coupled to the upper end of the pair of abdominal plates 3 to form a pair of spaces sealed to the left and right sides, a double abdominal plate-shaped concrete filled composite girder ( 1) installation step, the synthetic resin layer forming step of forming the synthetic resin layer 17 in the space between the barrier wall 16 and the barrier wall 16 of the girder intermediate joint portion 15 and cast concrete and curing Concrete It comprises the installation and curing step.

In the girder bridge using the double abdominal plate-shaped concrete-filled composite girder as described above, as shown in FIG. 8, a plurality of double abdominal plate-shaped concrete-filled composite girder 1 is arranged in the width direction of the girder bridge and therebetween. It can be configured by connecting through the connection bracket (20).

As shown in FIG. 9, in the girder bridge according to the present invention, the gap between the abdominal plates 3 at the point 12 and the width of the concrete filling part 4 are defined between the abdominal plates 3 at the general part. By forming larger than the gap and the width of the concrete filling portion (4), it is possible to design in particular the point portion 12 in which a large stress occurs to be more secure.

1: double abdominal concrete filled composite girder 2: bottom flange
3: abdominal plate 4: concrete filling part
5: upper flange 6: tensile stiffener
7: steel wire 8: shear connector
9: diaphragm 10: inspection passage
11: middle pier 12: branch
13: transverse plate 14: lower concrete filling section
15: middle joint 16: barrier
17: synthetic resin layer 18: concrete connection
19: filling hole

Claims (10)

Bottom flange of single steel,
Is coupled to the lower flange in the vertical direction, the abdominal plate of the steel provided in pairs on each of the left and right,
Concrete filling part formed by filling the concrete between the abdominal plate provided on each of the left and right and
It is formed in the form of a box which is provided on the left and right sides, the upper part of which includes the upper flange of the steel covering the abdominal plate and the concrete filling part,
The upper surface of the lower flange is formed in a T-shape characterized in that it further comprises a tensile reinforcing material of the steel is coupled
Double Abdominal Concrete Filled Composite Girder
The method according to claim 1,
Characterized in that it further comprises a steel wire provided inside the concrete filling portion
Double Abdominal Concrete Filled Composite Girder
The method according to claim 1,
One end is coupled to the abdominal plate, characterized in that it is further provided with a plurality of shear connector in the form of a 'b' is provided inside the concrete filling portion.
Double Abdominal Concrete Filled Composite Girder
In the girder bridge using the double abdominal plate-shaped concrete-filled composite girder according to any one of claims 1 to 3,
In the girder of the branch part,
Horizontal plate coupled to both ends perpendicular to the inner abdominal plate of the left and right abdominal plate and
Between the horizontal plate and the lower flange is further provided with a lower concrete filling portion filled with concrete
Girder Bridge using Double Abdominal Concrete Filled Composite Girder
In the girder bridge using the double abdominal plate-shaped concrete-filled composite girder according to claim 1,
In the middle joint of the girder,
Barrier wall spaced inwardly from the end of the intermediate joint girders respectively formed in parallel to the cross section of the girder, the space between the abdominal plate,
A synthetic resin layer formed on the bottom and side surfaces of the space part between the barrier wall and the barrier wall;
Characterized in that the concrete connection is further provided by filling the inside of the synthetic resin layer
Girder Bridge using Double Abdominal Concrete Filled Composite Girder
In the girder bridge using the double abdominal plate-shaped concrete-filled composite girder according to any one of claims 1 to 3,
The spacing between the abdominal plates at the point and the width of the concrete filling part is formed larger than the spacing between the abdominal plates at the general part and the width of the concrete filling part.
Girder Bridge using Double Abdominal Concrete Filled Composite Girder
delete delete delete delete

Images