KR101820375B1 - Bridge structure supported by steel box girder and central separator - Google Patents

Abstract

The present invention provides a bridge structure supported by a trapezoidal steel girder box and a median strip support, capable of properly absorbing and distributing a bending moment applied to a bridge. According to the present invention, the bridge structure comprises: the inverse trapezoidal structured steel girder box (10) having bilateral symmetry; the median strip support (20) formed in a continuous truss structure, having a lower part fixated and coupled to a central part of a lower surface (12) of the steel girder box (10), and having an upper part vertically protruding from an upper surface (12) of the steel girder box (10) at a predetermined height; a plurality of first and second reinforcement partitions (32, 36), which are a pair having bidirectional symmetry, orthogonally installed along the inside of the steel girder box (10); a plurality of first side surface supports (42) disposed on each first reinforcement partition (32) in parallel, wherein one side part is fixated and coupled to a first side surface (12) of the steel girder box (10) and the other side part protrudes at a predetermined length while being orthogonal to the first side surface (12) of the steel girder box (10) and a plurality of second side supports (46) disposed on each second reinforcement partition (36) in parallel, wherein one side part is fixated and coupled to a second side surface (14) of the steel girder box (10) and the other side part protrudes at a predetermined length while being orthogonal to the second side surface (14) of the steel girder box (10).

Description

Bridge structure supported by steel box girder box and central separation support [

The present invention relates to a bridge structure supported by a steel girder and more particularly to a bridge structure having a truss structure with a trapezoidal steel girder box, To a bridge structure supported by a support.

In the case of bridges, the girder is constructed by using various types of steel structures as a means of alternately transferring the loads acting on the bridges themselves as well as supporting the loads of the bridges and the loads of the pedestrians. In particular, It is widely used as a girder structure of a bridge because it is not only easy but also has good bending stiffness against a working load.

The box-shaped steel girder is characterized in that a steel plate having a predetermined vertical height is disposed on each of the left and right sides, and each of the upper and lower portions is connected with a flat plate to form a rectangular cross-sectional structure. However, since such a box-like steel girder has a rectangular cross-section, it has a disadvantage that it can not adequately cope with a change in bending moment acting in the longitudinal direction of the bridge.

To this end, Korean Patent Registration No. 1418758 has been proposed, which makes it possible to appropriately cope with a change in bending moment acting in the longitudinal direction of a bridge by forming a box-shaped girder with the cross section of the girders as a semicircle. However, It is difficult to expect the originally intended effect because it is composed of asymmetric box girder.

Korean Patent No. 1418758 Korean Patent No. 1664283

It is an object of the present invention to provide a bridge structure capable of properly absorbing and dispersing a bending moment acting on a bridge.

The inner angle θ of each of the first side surface 12 and the second side surface 14 forms an obtuse angle with respect to the lower surface 12, A steel girder box 10 having an inverted trapezoidal structure in which the width is formed to be larger than the width of the lower surface 12 and the opening 17 having a constant width in the longitudinal direction is formed at the central portion of the upper surface 12; The girder box according to claim 1 or 2, characterized in that it comprises a continuous truss structure and is arranged along the opening (17) of the steel girder box (10) in the longitudinal direction of the steel girder box (10) Are symmetrically sectioned in cross section of a section of the steel girder box 10 so that each upper section is perpendicular to the upper surface 12 of the steel girder box 10, A central separation support (20) protruding upward with a predetermined height; A pair of right and left symmetrical pairs of right and left symmetrical members arranged orthogonally along the inside of the steel girder box 10, First and second reinforcing diaphragms (32, 36) fixedly coupled to the respective spaces; Each of which is fixed to the first side face 12 of the steel girder box 10 and each of the other side portions is fixed to the first reinforcing partition plate 32 of the steel girder box 10 A first side support 42 protruding a predetermined length orthogonal to one side 12 and a plurality of second reinforcing partition plates 36 disposed parallel to the second reinforcement partition 36, A second side support (46) fixedly coupled to the second side (14) and each of the other side portions protruding a predetermined length orthogonal to the second side (14) of the steel girder box (10); A first supporting steel pipe (12) installed along one side of the upper surface (16) of the steel girder box (10) and the upper surface of the first side support (42) separated from each other by a central separation support 52 installed along the upper surface 16 of the steel girder box 10 and the upper surface of the second side support 46 separated from each other by a central separation support 20, A supporting steel pipe 56; A first balancer 62 having a predetermined vertical height and installed at the other end of each first side support 42, a second balancer 66 having a predetermined vertical height and installed at the other end of each second side support 46, ), Which is a technical feature of the present invention.

The present invention relates to a box girder having an inverted trapezoidal cross section of a box-shaped steel girder, a central separating support having a continuous truss structure integrally joined to the box-shaped steel girder, and a plurality of reinforcement dividing plates, It is possible to remarkably increase the rigidity of the box-shaped steel girder and to cope with the bending moment concentrated at the central portion of the bridge, so that the structural stability of the bridge can be improved.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing a strap configuration of a bridge according to the present invention; Fig.
2 is a schematic view showing a planar configuration of a bridge according to the present invention;
3 is a schematic view showing a cross-sectional configuration of a bridge according to the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings. However, the present invention is not limited to the technical features of the present invention, A detailed description thereof will be omitted.

1 and 2 are schematic views showing a strabismus structure and a plan structure of a bridge according to the present invention, and FIG. 3 is a schematic view showing a cross-sectional structure of a bridge according to the present invention. The present invention is characterized in that it comprises a steel girder box 10, a central separation support 20, first and second reinforcing diaphragms 32 and 36, first and second side supports 42 and 46, , Two supporting steel pipes (42, 56), and first and second balancers (62, 66). Hereinafter, each of these configurations will be described in detail.

The steel girder box 10 may be formed by bending a plate-like steel material having a predetermined thickness or by welding a plurality of plate-like steels having a predetermined width. Basically, the cross- It forms a trapezoidal structure.

That is, the width of the upper surface 12 is formed to be larger than the width of the lower surface 12, and the internal angle? Of each of the first side surface 12 and the second side surface 14, To form an obtuse angle. The reason why the present invention proposes a cross section of the steel girder box 10 in an inverted trapezoidal structure is to stably support the load acting on the girder.

At this time, an opening 17 having a predetermined width and formed in the longitudinal direction is provided at a central portion of the upper surface 12 of the steel girder box 10. The opening 17 is a space for the installation of the central separation support 20 and the width of the opening 17 is dependent on the width of the central separation support 20 which is the total length of the steel girder box and the width of the steel girder box And the thickness of the steel to be formed.

The central separating support 20 is a first means for compartmentalizing the passage and complementing the rigidity of the steel girder box 10. The lower portion is inserted through the opening 17 of the steel girder box 10, And the upper portion thereof protrudes from the upper surface 12 of the steel girder box 10 with a predetermined height vertically upward. At this time, it is preferable that the central separation support 20 is formed of a continuous truss structure.

1 shows an example of a central separation support 20 as a continuous truss structure. That is, the central separation support 20 is divided into upper, lower, and sloping support rods 22 and 24, and the lower support rods 22 are disposed along the inner center portion of the steel girder box 20, The upper support rods 24 are disposed vertically above and spaced apart from the lower support rods 22 and the lower and upper support rods 22 and 24 are connected to each other by an inclined support rods 26. [

In this case, the lower support 22 forming the lower side of the central separation support 20 is engaged with the inner surface of the central portion of the steel girder box 20, and each of the openings 17 of the steel girder box 10 is connected to a continuous inclined support So that the central separation support 20 and the steel girder box 10 form an integrated structure.

In this way, the central separating support 20, which has a cross section of the inverted trapezoidal structure of the steel girder box 10 having a certain length and extends and has a continuous truss structure, is inserted into the inner space of the steel girder box 10, The rigidity of the steel girder box 10 can be greatly enhanced, so that it is possible to cope with the change of the bending moment acting in the longitudinal direction of the bridge very appropriately.

The first and second reinforcing diaphragms 32 and 36 are second means for compensating the rigidity of the steel girder box 10 and are composed of a pair of left and right symmetrical pairs, A first reinforcing partition plate 32 is disposed in one inner space of the inner space of the steel girder box 10 partitioned by the median separator 20 in the left and right direction and a second reinforcing partition plate 36 are disposed.

That is, when the inner space of the steel girder box 10 having an inverted trapezoidal cross section as shown in FIG. 3 is divided into right and left by the central separating support 20, the first reinforcing partition 32 is provided on one inner space And a second reinforcing partition plate 36 is provided on the other side inner space (right side). Although the first and second reinforcing diaphragms each have a strip shape having a constant width, the diaphragms may be formed in a plate shape having a half-inverted trapezoidal shape.

When the first and second reinforcing diaphragms forming symmetrical left and right symmetry are disposed at a certain distance along the inside of the steel girder box, the load acting on the steel girder box can be dispersed by the center separation support and the first and second reinforcement diaphragms The structural stability of bridges can be further enhanced.

The first and second side support members 42 and 46 are formed of a plurality of members that are installed in association with the first and second reinforcement member plates 32 and 36. That is, the first side support 42 is fixedly coupled to the first side 12 of the steel girder box 10 so that the first side support 42 can be disposed parallel to the first reinforcement partition 32, Is protruded by a predetermined length orthogonal to the first side face (12) of the steel girder box (10).

Each side portion is fixedly coupled to the second side face 14 of the steel girder box 10 so that the second side support stand 46 can be disposed parallel to the second reinforcing partition plate 36, Is protruded by a predetermined length orthogonal to the second side face (14) of the steel girder box (10). Each of the first and second side supports 42 and 46 may comprise first and second side plates 422 and 462 and first and second webs 426 and 466.

The first and second side support members 42 and 46 form a passage along the bridge with the steel girder box 10. The first and second side support members 42 and 46 are integrated with the steel girder box and the center separation support member, The first and second reinforcing diaphragms are arranged in parallel to each other, it is possible to secure a passage having a predetermined width or more, and to transfer and distribute the load transmitted through the passage efficiently.

Each of the first and second supported steel pipes 52 and 56 is a means for supporting the step deck 1. The first supported steel pipe 52 is connected to one side of the upper surface 16 of the steel girder box 10, The second supporting steel pipe 56 is formed of a plurality of pieces arranged along the upper surface 16 of the steel girder box 10 and the upper surface of the second side support 46. The first and second supporting steel pipes may be made of steel wires.

Each of the first and second guardrails 42 and 46 is installed at a predetermined vertical height at the other end of each of the first and second side supports 42 and 46. The first and second railroad rails may have various shapes, and a plurality of railing wires not shown on the inner surfaces of the first and second railroad rails are installed.

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 appended claims. It will be apparent that the present invention can be practiced with added features.

10: Steel girder box 20: Central separation support
32, 36: first and second reinforcing diaphragms 42, 46: first and second side supports
52, 56: first and second supporting steel pipes 62, 66: first and second railing

Claims (1)

The internal angle? Of each of the first side surface 12 and the second side surface 14 forms an obtuse angle with respect to the lower surface 12 and the width of the upper surface 12 is larger than the width of the lower surface 12 A steel girder box 10 having an inverted trapezoidal structure in which an opening 17 having a predetermined width in the longitudinal direction is formed at a central portion of the upper surface 12;
The girder box according to claim 1 or 2, characterized in that it comprises a continuous truss structure and is arranged along the opening (17) of the steel girder box (10) in the longitudinal direction of the steel girder box (10) Are symmetrically sectioned in cross section of a section of the steel girder box 10 so that each upper section is perpendicular to the upper surface 12 of the steel girder box 10, A central separation support (20) protruding upward with a predetermined height;
A pair of right and left symmetrical pairs of right and left symmetrical members arranged orthogonally along the inside of the steel girder box 10, First and second reinforcing diaphragms (32, 36) fixedly coupled to the respective spaces;
Each of which is fixed to the first side face 12 of the steel girder box 10 and each of the other side portions is fixed to the first reinforcing partition plate 32 of the steel girder box 10 A first side support 42 protruding a predetermined length orthogonal to one side 12 and a plurality of second reinforcing partition plates 36 disposed parallel to the second reinforcement partition 36, A second side support (46) fixedly coupled to the second side (14) and each of the other side portions protruding a predetermined length orthogonal to the second side (14) of the steel girder box (10);
A first supporting steel pipe (12) installed along one side of the upper surface (16) of the steel girder box (10) and the upper surface of the first side support (42) separated from each other by a central separation support 52 installed along the upper surface 16 of the steel girder box 10 and the upper surface of the second side support 46 separated from each other by a central separation support 20, A supporting steel pipe 56;
A first balancer 62 having a predetermined vertical height and installed at the other end of each first side support 42, a second balancer 66 having a predetermined vertical height and installed at the other end of each second side support 46, );
A bridge structure supported by a trapezoidal steel girder box and a median separation support.

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