KR101198911B1 - Construction technique of concrete box girder and this - Google Patents

Abstract

The present invention consists of an inverted triangular shape or a cross-sectional shape divided into a plurality of triangles in an inverted triangular shape or a column so as to omit abdominal and bulkhead structures disposed in the longitudinal direction inside the box girder, thereby reducing the construction cost. Another object is to provide a concrete box girder consisting of a plurality of triangles and a construction method thereof.
Concrete box girder according to the present invention for achieving the above object is a box girder consisting of the upper slab and the abdomen and the bottom plate slab, the cable is provided at both ends of the upper slab, the cross-sectional shape of the abdomen is inverted triangle or A closed cross section is formed as a plurality of triangles.
In addition, the concrete box girder construction method according to the present invention for achieving the above object in the box girder construction method consisting of the upper slab and the abdomen and the bottom plate slab, the cable is provided at both ends of the upper slab, It is characterized in that the cross-sectional shape is formed into a closed cross section of an inverted triangle.
The concrete box girder consisting of a plurality of triangles omits the inner middle abdomen and the bulkhead, forms a closed section with the inclined upper abdomen and the bottom slab, and divides the interior into a plurality of triangles with vertical and inclined columns in the transverse direction. It is characterized by forming a concrete box girder with truss behavior.

Description

Construction box of concrete box girder and this}

The present invention relates to a concrete box girder and a construction method thereof, and in particular, to remove the middle abdomen of the box girder, and to arrange only the pillars at regular intervals inside the box girder to make a concrete box girder with an inverted triangle in cross section and a plurality of triangles It relates to a configured concrete box girder and its construction method.

In general, the box girder G of a bridge supported by a two-sided cable, such as a cable-stayed bridge or an extra-dose bridge, has an abdomen 20 disposed inside the load of the upper slab 10 as shown in FIGS. 1 to 6. The load of the abdomen 20 has a structure in which the load is moved to the cable 50 disposed on both sides of the box girder G through the partition 40 disposed at the cable 50 fixing position.

When the box girder (G) of the bridge is a concrete structure, as shown in Figure 1 formulation 2 room concrete box girder (G), as shown in Figure 3 formulation 3 room concrete box girder (G) The abdomen 20 disposed inwardly must be installed over the entire span by the wall type, and the partition wall 40, which is a transverse beam, is formed at each fixing position of the cable 50 in order to transfer the upper slab 10 load to the cable 50. Since the weight of the concrete box girder (G) has to be large, and thus the construction cost of the box girder (G) is also high, the weight of the cable (50) and the pier and foundation also increase, which is a factor that increases the overall construction cost. .

In addition, the box girder G of the bridge is a cable-stayed bridge that supports both ends of the box girder G in the transverse direction of the box girder G of the bridge as shown in FIGS. 3 and 4. Since the deflection occurs due to the warp in the transverse direction due to its own weight, as shown in Figs. 5 and 6, the middle abdomen and the partition 40 are constituted so that the load of the upper plate is supported by the intermediate abdomen and the intermediate abdominal load. Since it has a load path to be moved to the cable through the bulkhead, the conventional concrete box girder (G) of the cable-stayed bridge using such a cable (50) is large, the construction cost of the box girder (G) itself, but the Due to the increase in the weight and piers and the base of the cable 50, the overall construction cost is a factor that increases a lot.

Accordingly, the present invention has been made to solve the problems described above, to reduce the construction cost by configuring the cross-sectional shape in an inverted triangle shape so as to omit the abdominal and partition structure arranged in the inner longitudinal direction of the box girder. The purpose of the present invention is to provide a concrete box girder composed of an inverted triangle or a plurality of triangles and a construction method thereof.

Concrete box girder according to the present invention for achieving the above object is to make the truss structure behavior in the transverse direction, the cable is installed at both ends of the upper slab, eliminating the heavy intermediate abdomen and bulkheads, only the pillars of regular intervals Characterized in that it is formed of a closed cross-section consisting of a plurality of triangles.

In addition, the concrete box girder composed of a plurality of triangles omits the inner middle abdomen and the partition wall, and constitutes a closed section by the inclined outer abdomen of the upper slab and the bottom slab, and divides the interior into a plurality of triangles by vertical and inclined columns. It characterized in that to form a concrete box girder for truss behavior.

And concrete box girder construction method according to the present invention for achieving the above object in the box girder construction method consisting of the upper slab and the abdomen and the bottom plate slab, the cable is installed on both ends of the upper slab, the cross-sectional shape And characterized in that formed in the closed cross-section of the inverted triangle, characterized in that divided into a triangular shape with a pillar inside the box cross section.

As described above, the concrete box girder and its construction method according to the present invention has the following effects.

First, the present invention has a stable triangular structure in the horizontal shape of the box girder, there is an advantage that the horizontal warp does not occur even without the installation of the intermediate abdomen and the partition wall.

Second, the present invention is to replace the inner abdomen and the partition wall of the box girder with a simple column and arranged at regular intervals (about 4M-5M interval) in the longitudinal direction, thereby reducing the weight of the concrete box girder as well as the cable dependent on the girder weight And there is an effect of reducing the overall construction cost, such as the substructure.

Third, the present invention adopts a cross-sectional shape in the lateral direction in a triangular shape, thereby reducing the resistance to wind load when installed on the offshore bridge.

1 is a perspective view showing a conventional two-chamber concrete box girder,
Figure 2 is a perspective view of a conventional three-chamber concrete box girder,
Figure 3 is a cross-sectional view showing a concrete box girder consisting of a conventional cable and two rooms.
4 is a cross-sectional view showing a concrete box girder consisting of a conventional cable and three rooms,
5 is a cross-sectional view showing a concrete box girder composed of a conventional cable and two compartment bulkheads.
6 is a cross-sectional view showing a concrete box girder composed of a conventional cable and three compartment bulkheads.
7 is a perspective view showing a concrete box girder according to the present invention,
8 is a cross-sectional view showing a concrete box girder installed with a cable and a pillar according to the present invention.
9 is a perspective view illustrating a concrete box girder configured with a plurality of triangular structures by arranging columns vertically and inclined without a cable, an intermediate inner wall, and a partition wall according to the present invention;
10 is a cross-sectional view showing a concrete box girder composed of a plurality of triangular structures by arranging the columns vertically and inclined without a cable, an intermediate inner wall and a partition wall according to the present invention.

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

7 is a perspective view showing a concrete box girder according to the present invention, Figure 8 is a front view showing a concrete box girder with a cable and a pillar according to the present invention.

As shown in these drawings, the concrete box girder G according to the present invention is a box girder G composed of an upper slab 10, an abdomen 20, and a bottom plate slab 30, wherein the upper slab ( The cable 50 is installed at both ends of the 10, and the cross-sectional shape of the abdomen 20 is formed as a closed cross-section of the inverted triangle (60).

A box girder (G) shape of a bridge supported by a two-sided cable such as a cable-stayed bridge and an extra-dose bridge is applied to the closed cross section of the inverted triangle 60, and the cable (the upper slab 10 at both ends of the inverted triangle 60) By fixing the 50, there is an effect of maintaining a stable cross-sectional shape without the partition 40 as in the prior art.

In addition, the upper slab 10 and the bottom plate slab 30 is made of concrete, the abdomen 20 is made of a corrugated steel sheet.

The box girder (G) shape of the bridge supported by two-sided cable such as a cable-stayed bridge or an extra-dose bridge is applied to the closed cross section of the inverted triangle (60), and the upper slab (10) and the bottom plate slab (30) which are bent are made of concrete. The abdomen 20 is formed in a composite structure composed of corrugated steel sheet.

In addition, the bottom plate slab 30 is vertically installed with a pillar 70 composed of concrete, steel, and synthetic concrete at regular intervals.

A box girder (G) shape of a bridge supported by a two-sided cable, such as a cable-stayed bridge or an extra-dose bridge, is applied to the closed cross section of the inverted triangle 60, and the pillars 70 are fixed at regular intervals instead of the conventional intermediate partition 40. The pillars 70 are constructed of steel, concrete, or synthetic concrete.

9 is a perspective view showing a concrete box girder composed of a plurality of triangular structures by arranging the columns vertically and inclined without a cable, an intermediate inner wall and a partition wall according to the present invention, and FIG. 10 is a cable and an intermediate inner wall according to the present invention. A cross-sectional view showing a concrete box girder composed of a plurality of triangular structures by arranging columns vertically and inclined without a partition.

As shown in these figures, the concrete box girder according to the present invention has an intermediate abdomen and a partition wall in the interior of the concrete box girder (G) consisting of the upper slab 10, the inclined outer portion 20 and the bottom slab (30). Without the pillars 70 are arranged vertically and inclined, divided into a plurality of triangles.

In addition, the inclined outer portion 20 is composed of a corrugated steel sheet.

That is, in the wide bridge that is difficult to form an inverted triangle, the middle abdomen is not disposed even in the low slab slab 30 section in which the triangle is not formed, and as shown in FIGS. 9 and 10, in the low slab slab 30 section. By arranging the pillars 70 vertically and inclined only in the lateral direction and forming a plurality of triangles, the intermediate abdomen and the partition wall can be eliminated.

Hereinafter, the construction of the concrete box girder according to the present invention having the configuration as described above.

As shown in Figure 7 and 8, the concrete box girder (G) construction method according to the present invention construct a box girder (G) consisting of the upper slab 10, the abdomen 20 and the bottom plate slab (30). In the method, the cable 50 is provided at both ends of the upper slab 10, and the cross-sectional shape of the abdomen 20 is formed as a closed cross section of the inverted triangle (60).

At this time, the upper slab 10 and the bottom plate slab 30 is constructed of concrete, the abdomen 20 is constructed of a corrugated steel sheet, the column slab 30 is installed vertically at regular intervals on the bottom plate slab 30 To construct, the pillar 70 is constructed of concrete, steel, steel composite concrete.

Concrete box girder and the construction method according to the present invention made of the configuration and construction as described above, as shown in Figures 7 and 8, the overall cross-sectional shape is composed of an inverted triangle 60 shape, the abdomen 20 Since the axial force is mainly applied, the vertical bending of the box girders G does not occur in the transverse direction, and the pillars 70 arranged at regular intervals in the inner side have a stable appearance of the box girders G of the inverted triangle 60. Due to this, no side sway occurs in the lateral direction, and since the pillar 70 receives almost axial force, the construction workability can be greatly improved by prefabricating and constructing a non-synthetic steel and concrete composite structure in advance.

In addition, the non-synthetic steel and concrete composite structure has almost no warpage, and in the structure of the pillar 70 having a large axial force, the shear connection material is not required when the steel and the concrete neutral shaft are matched under the condition that the concrete is always in a non-cracked state. There is.

10: upper slab 20: abdomen
30: slab slab 40: bulkhead
50: cable 60: inverted triangle
70: pillar G: box girder

Claims (10)

In the box girder (G) composed of the upper slab 10, the abdomen 20 and the bottom plate slab,
Cables 50 are installed at both ends of the upper slab 10, and the cross-sectional shape of the abdomen 20 is formed as a closed cross-section of the inverted triangle 60, and the bottom plate slab 30 has pillars at predetermined intervals. Concrete box girder, characterized in that 70) is installed vertically. delete delete The method of claim 1,
The pillar 70 is a concrete box girder, characterized in that consisting of concrete, steel, steel composite concrete. delete delete In the box girder (G) construction method consisting of the upper slab 10, the abdomen 20 and the bottom plate slab 30,
Cable 50 is installed at both ends of the upper slab 10, and the cross-sectional shape of the abdomen 20 is formed as a closed cross section of the inverted triangle 60,
Concrete box girder construction method characterized in that the installation on the bottom plate slab (30) vertically installed at regular intervals. delete delete 8. The method of claim 7,
The pillar 70 is a concrete box girder construction method characterized in that the construction of concrete, steel, steel composite concrete.

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