KR101791521B1 - Pedestrian bridge supported by numerous V-stands - Google Patents

Abstract

The present invention is characterized in that it has an arc shape having an upward convex curvature, one side portion is fixedly coupled to a front upper side portion of the first doorway (12), and the other side portion is fixedly coupled to a front upper side portion of the second doorway An upper arch plate 20; A first arch steel pipe 32 fixed in the longitudinal direction along one side of the arch upper plate 20; a second arch steel pipe 36 fixedly coupled in the longitudinal direction along the other side of the arch upper plate 20; And a plurality of unit support plates 42 provided on the lower side of the arch top plate 20 adjacent to each other. Each of the unit support plates 42 has a curved surface 43 and a curved surface 43 The first and second coupling plates 44 and 45 are formed in a triangular shape extending from the left and right at a predetermined angle in the outward direction with a V-shaped structure. The adjacent unit support plates 42 are connected to each other on both sides of the curved surface 43 And the vertex portions of the first and second coupling plates 44 and 45 of each unit support plate 42 are fixedly coupled to the first and second arch steel pipes 32 and 36 respectively. The lower ends of the first and second arch pipes 32 and 36 are fixed to the upper and lower sides of the first and second arch pipes 32 and 36. The first and second parapet bars 52 and 56, And a plurality of first and second railing cables (53, 57) installed along the inner surface of each of the first and second rail guides (56, 56).

Description

Pedestrian bridge supported by numerous V-stands supported by a plurality of V-

The present invention relates to an arch pedestrian bridge, and more particularly, to a structure in which an upper plate portion is supported by a plurality of V-shaped pedestal plates each having an inverted triangular cross-section, even when a large-diameter steel pipe girder is not used, It is about bridge.

In the walking bridge, the girder supports many loads of the bridge itself and the loads of the pedestrians, and simultaneously transmits the loads acting on it. As a result, many steel structures are used for construction. Especially, in case of box girder girder, And is also widely used as a girder for walking bridges because it has good flexural rigidity 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, such a box-shaped steel girder has a disadvantage in that it can not adequately cope with a change in bending moment acting in the longitudinal direction of the bridge in that the cross section is formed in a rectangular shape.

Among the proposed techniques for improving the disadvantages of the conventional box girder, there is Korean Patent No. 1418758. 5 and 6, the steel girder 10 supporting the upper plate 2 is formed in a box shape having a semicircular cross section, in which the vertical height of the steel girder 10 is set to a left side and a right side It is possible to appropriately cope with a change in bending moment acting in the longitudinal direction of the bridge.

However, when the girder supporting the upper plate is formed in a box shape, when a load acts on the bridge, compressive force is generated in the upper portion of the box-shaped steel girder and tensile force is generated in the lower portion thereof. This technique is not easy to expect from the originally intended effect in that the central part of the bridge where the bending moment acts the most is composed of the asymmetric box girder.

Korean Patent No. 1418758 Korean Patent No. 1664283

It is an object of the present invention to provide an archway bridge which is structurally very stable and can be installed in a long span even when a large diameter steel pipe girder is not used.

In order to achieve the above object, the present invention has a first entrance (12) provided with a first step (13) formed at a central angle with an inclination at a predetermined angle and provided on a top surface of the first alternation (1) A second entrance 16 provided at an upper surface portion of the second alternation 2 located at a predetermined distance from the first alternation 1 with a second step 17 formed by an inclination; The upper portion of which is fixed to the front upper portion of the first doorway 12 and the other portion of which is fixed to the upper upper portion of the second doorway 16, 20); A first arch steel pipe 32 fixed in the longitudinal direction along one side of the arch upper plate 20; a second arch steel pipe 36 fixedly coupled in the longitudinal direction along the other side of the arch upper plate 20; And a plurality of unit support plates 42 provided on the lower side of the arch top plate 20 adjacent to each other. Each of the unit support plates 42 has a curved surface 43 and a curved surface 43 The first and second coupling plates 44 and 45 are formed in a triangular shape extending from the left and right at a predetermined angle in the outward direction with a V-shaped structure. The adjacent unit support plates 42 are connected to each other on both sides of the curved surface 43 And the vertex portions of the first and second coupling plates 44 and 45 of each unit support plate 42 are fixedly coupled to the first and second arch steel pipes 32 and 36 respectively. The lower ends of the first and second arch pipes 32 and 36 are fixed to the upper and lower sides of the first and second arch pipes 32 and 36. The first and second parapet bars 52 and 56, And a plurality of first and second rail cables (53, 57) installed along respective inner surface portions of the first and second rail cables (56, 56).

The present invention is configured to support a bridge as a composite girder having a symmetrical structure in which the cross section is inversely triangular and the central portion is convex and the vertical height is decreased as the bridge portion is left and right and the steel cable is supported at the longitudinal section, It is possible to disperse the bending moment acting most effectively, and it is possible to construct a long span bridge having a stable structure without using a large diameter steel pipe.

Further, according to the present invention, a natural ventilation hole is formed between the first and second coupling plates, the upper portion of which is fixedly coupled to the arch steel pipe, so that the wind load acting on the side of the bridge can be remarkably reduced.

BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic side elevational view of an arch pedestrian according to the present invention; Fig.
2 is a schematic perspective view of an arch pedestrian according to the present invention;
3 is a schematic plan view of an arch walking bridge according to the present invention;
4 is a cross-sectional view of the line AA 'in FIG. 1;
Fig. 5 and Fig. 6, respectively, are schematic structural views of a box-shaped steel girder forming a conventional arch bridge.

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.

Each of Figs. 1 to 3 shows a schematic side view, a perspective view, and a plan view of an arch walkway according to the present invention. The present invention is characterized in that it comprises first and second entrances 12 and 16, an arch top 20, first and second arch pipes 32 and 36, a receiving member 40, We propose an archway bridge that includes rods (52, 56). Hereinafter, each of these configurations will be described in detail.

Each of the first and second entrance and exit ports 12 and 16 is a portion through which the pedestrian enters and exits and the first entrance and exit port 12 is provided with a first stepped portion 13, And the second doorway 16 is also provided with a second stepped portion 17 inclined at a predetermined angle to the upper surface of the second alternate portion 2 located at a certain distance from the first alternating portion 1, Lt; / RTI >

The arch top plate 20 has a plate-like structure having a predetermined width and extending by a predetermined length, and has an arc shape having an upward convex curvature as shown in the figure. At this time, one side portion of the arch top plate 20 is fixedly coupled to a front upper portion of the first entrance 12 and the other side portion of the arch top plate 20 is fixedly coupled to a front upper portion of the second entrance 16. The arch top plate can be made of steel.

The first and second arch steel pipes 32 and 36 are parts for transmitting the external force transmitted through the walking bridge to the first and second alternation 1 and 2, And the second arch steel pipe 36 is fixedly coupled in the longitudinal direction along the other side portion of the arch top plate 20. [

The support member 40 is a means for supporting the arch top plate 10 and is composed of a plurality of unit support plates 42 as shown in the figure and disposed adjacent to each other at a lower portion of the arch top plate 20. [ The unit support plate 42 is formed with a bent surface 43 and first and second coupling plates 44 and 45.

The first and second coupling plates 44 and 45 are formed in a triangular shape extending from the left and right sides of the curved surface 43 to a predetermined angle in the outward direction. That is, the unit support plate is basically formed in a rhombic shape, and the first and second coupling plates form a V-shaped structure with respect to the curved surface of the central portion.

At this time, the adjacent unit support plates 42 are integrated by connecting both sides of the bent surface 43, and the vertex portions of the first and second coupling plates 44 and 45 of the unit support plate 42 are integrally formed by the first And two arch steel pipes 32 and 36, respectively. Thus, the bent surface 43 of the unit receiving plate 42 constituting the receiving member 40 is continuously connected, and the receiving member and the first and second arch pipes are integrated.

In this case, since the girder supporting the walking bridge is integrated with the arch steel pipe and the supporting member to form the inverted triangular sectional structure, even if the bending moment is concentrated at the central portion of the bridge due to the action of the load, It is possible to construct a long-distance bridge having a stable structure.

The unit support plate according to the present invention is configured such that the triangular first and second coupling plates form a V-shaped structure, and the vertex portions of the first and second coupling plates are coupled to the arch steel pipe, The air vents 46 are formed between the plates naturally as shown in the drawing, whereby the wind load acting on the side surfaces of the bridges can be remarkably reduced.

The first balancing rods 52 are spaced apart from each other by a predetermined distance, and the lower end portions of the first balancing rods 52 are fixedly coupled to the upper surface of the first arch steel pipe 32. The second parabolic rods 56 are also spaced apart from each other by a predetermined distance, and the lower end portions thereof are fixedly coupled to the upper surface of the second arch steel pipe 36. Each of the first and second guardrail cables 53 and 57 is formed of a plurality of pieces arranged along the inner surface portions of the first and second guardrail bars 52 and 56. Reference numerals 62 and 66 each denote a support wire and a stepped deck.

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.

12: first doorway 16: second doorway
20: Arch top plate 32: 1st arch steel pipe
36: 2nd arch steel pipe 40: Support member
42: unit receiving plate 43: bending face
44: first coupling plate 45: second coupling plate
52: first guardrail rod 56: second guardrail rod

Claims (1)

A first stepped portion 13 formed at a predetermined angle inclined at a central portion of the first alternating portion 1 and having a first entrance 12 provided at an upper surface portion of the first alternating portion 1 and a second stepped portion 17 formed at an inclined angle at a central portion thereof, A second entrance 16 provided at an upper surface portion of the second alternation 2 located at a certain distance from the first alternation 1;
The upper portion of which is fixed to the front upper portion of the first doorway 12 and the other portion of which is fixed to the upper upper portion of the second doorway 16, 20);
A first arch steel pipe 32 fixed in the longitudinal direction along one side of the arch upper plate 20; a second arch steel pipe 36 fixedly coupled in the longitudinal direction along the other side of the arch upper plate 20;
And a plurality of unit support plates 42 provided on the lower side of the arch top plate 20 adjacent to each other. Each of the unit support plates 42 has a curved surface 43 and a curved surface 43 The first and second coupling plates 44 and 45 are formed in a triangular shape extending from the left and right at a predetermined angle in the outward direction with a V-shaped structure. The adjacent unit support plates 42 are connected to each other on both sides of the curved surface 43 And the vertex portions of the first and second coupling plates 44 and 45 of each unit support plate 42 are fixedly coupled to the first and second arch steel pipes 32 and 36 respectively.
The lower ends of the first and second arch pipes 32 and 36 are fixed to the upper and lower sides of the first and second arch pipes 32 and 36. The first and second parapet bars 52 and 56, A plurality of first and second railing cables 53 and 57 installed along inner surfaces of the first and second rails 56 and 56,
Arch pedestal supported by a plurality of V-shaped pedestal plates included.

Images