KR102123296B1 - Girder bridge supported metal pipe - Google Patents

Abstract

The present invention, the first and second lower steel pipes (12, 18) having a predetermined length and facing each other, and having a predetermined length and facing each other in a state opposite to each other, the first and second lower steel pipes (12, 16) are positioned at a predetermined distance apart from each other First and second upper steel pipes 14 and 18; The first lower steel pipe 12 is spaced at a predetermined interval outside the first semicircular steel pipe 22 and the second lower steel pipe 16 is spaced at a predetermined interval outside the second semicircular steel pipe 26 disposed in the longitudinal direction. ); First and second connecting strips 32, 34 and both ends of the first and second lower steel pipes 12 and 16 are longitudinally coupled along the outer surface of each of the first and second lower steel pipes 12 and 16, respectively, and the inner surfaces of the first and second semicircular steel pipes 22 and 26, respectively. 3 and 4 connecting strips 36 and 38; Each left end portion is coupled along a right outer surface portion of the first lower steel pipe 12 and each right end portion is a plurality of first connecting plates 42 coupled along a left outer surface portion of the second lower steel pipe 16 ), each lower portion is coupled along the upper outer surface portion of each of the first and second lower steel pipes 12 and 16, and each upper portion is along the lower outer surface portions of the first and second upper steel pipes 14 and 18, respectively. It provides a girder bridge supported by a steel pipe comprising; second, third connecting plates (44, 46) to be coupled.

Description

Girder bridge supported metal pipes

The present invention relates to a girder bridge, and more specifically, it does not use a large-diameter steel pipe or a double-structured steel pipe, and has a very stable structure, and can be constructed over a certain length, and even when strong side winds are applied, structural stability is not impaired. It's about girder bridge.

In a bridge, the girder functions as a means of supporting the loads of bridges and pedestrians and absorbing the loads acting at the same time and transferring them alternately. In most cases, the girders mainly use a pair of steel pipes arranged horizontally in the longitudinal direction of the bridge, and in some cases, a structure in which concrete is reinforced is introduced.

In the famous spots such as Geunja and lakes, the number of bridges with girders over a certain length is rapidly increasing in order to allow visitors to conveniently view the surrounding scenery, but it is necessary to use girders with large diameters to construct bridges over a certain length. . However, if a large-diameter girder is used, the construction work is not only difficult, but also acts as a factor to increase the construction cost.

To this end, among the proposed technologies as a method of constructing a long-span bridge while guaranteeing the structural stability of the bridge, there is Korean Patent Registration No. 1366903. This technique is characterized by providing a plurality of truss members at a certain angle inside the steel pipe to increase the rigidity of the steel pipe.

However, in order to install the truss member inside the steel pipe, the steel pipe itself needs to be made of a certain diameter or more, as well as the need to provide a truss member of a complex structure inside the steel pipe, a problem that the construction period and construction cost is significantly increased Holding

Republic of Korea Registered Patent No.1366903

The present invention has been proposed to solve the problems of the prior art, and an object of the present invention is to provide a girder bridge that has a stable structure and can be constructed over a certain length even if a large diameter steel pipe is not used.

In order to achieve this object, the present invention has a first lower steel pipe 12 having a certain length, a second lower steel pipe 16 having a certain length, and a second lower steel pipe 16 facing a predetermined distance away from the first lower steel pipe 12. A first upper steel pipe 14 having a predetermined length and positioned at a certain distance to the upper side of the first lower steel pipe 12, and having a predetermined length and facing a distance from the first upper steel pipe 14, a certain distance upward to the second lower steel pipe 16 A second upper steel pipe 18 located away; The first lower steel pipe 12 is spaced at a predetermined interval outside the first semicircular steel pipe 22 and the second lower steel pipe 16 is spaced at a predetermined interval outside the second semicircular steel pipe 26 disposed in the longitudinal direction. ); It has a certain length and is located between the lower side of the central portion of the first lower steel pipe 12 and the upper side of the central portion of the first semicircular steel pipe 22, but the upper portion is longitudinal along the central portion of the lower outer surface of the first lower steel pipe 12. The first connection strip 32, which is coupled in the longitudinal direction along the central portion of the lower inner surface of the first semicircular steel pipe 22, has a certain length and has a left portion and a first portion of the first lower steel pipe 12. Located between the left side of the semi-circular steel pipe 22, the left end is longitudinally coupled along the left inner surface of the first semi-circular steel pipe 22 and the right end is longitudinally along the left outer surface of the first lower steel pipe 12. The second connecting strip (34) to be combined has a certain length and is located between the lower part of the center of the second lower steel pipe (16) and the upper part of the central part of the second semi-circular steel pipe (26), but the upper part is the second lower steel pipe (16). ) The third connecting strip 36, which is coupled in the longitudinal direction along the central part of the lower outer surface and the lower part is coupled in the longitudinal direction along the central part of the lower semi-circular steel pipe 26, the second lower part. Located between the right part of the steel pipe 16 and the right part of the second semi-circular steel pipe 26, the right end is combined longitudinally along the right inner surface of the second semi-circular steel pipe 26, and the left end is the second lower steel pipe. (16) a fourth connection strip 38 coupled in the longitudinal direction along the right outer surface; It consists of a plurality of positions located between the first and second lower steel pipes 12 and 16 at a certain distance from each other, but each left end portion is coupled along the right outer surface portion of the first lower steel pipe 12 and each right end portion Is a first connecting plate 42 coupled along the left outer surface portion of the second lower steel pipe 16, a plurality of pieces located between the first lower steel pipe 12 and the first upper steel pipe 14 at a distance from each other However, each lower portion is coupled along the upper outer surface portion of the first lower steel pipe 12, and each upper portion is coupled to the second connecting plate 44 along the lower outer surface portion of the first upper steel pipe 14, It is made of a plurality of pieces located between the second lower steel pipe 16 and the second upper steel pipe 18 at a certain distance from each other, but each lower portion is coupled along the upper outer surface portion of the second lower steel pipe 16 and each The upper portion is a third connecting plate 46 coupled along the lower outer surface portion of the second upper steel pipe 18; A steel wire 52 formed of a plurality of each having a certain length and coupled along an upper portion of the first connecting plate 42; There is a technical feature comprising a; deck 60 is installed to seal the upper surface of the steel wire (52).

The right end portion of the second connection strip 34 is inclined by a certain angle θ downward and coupled along the right inner surface of the first semicircular steel pipe 22, and the left end portion of the fourth connection strip 38 is downward. It can be combined along the right inner surface of the second semicircular steel pipe 26 by being inclined by a certain angle θ.

The present invention combines the lower steel pipes and the semi-circular steel pipes located on each of the left and right sides with a connection strip, and then combines them with a connecting plate to integrate them to form a truss-like structure, so that a large-diameter steel pipe or a double-structured steel pipe is not used. Even if it is not possible, it is possible to construct a bridge having a girder having a certain length or more, and of course, it is possible to prevent the structural stability of the bridge from being damaged by strong side winds according to the coupling structure of the connection strip.

1 is a schematic perspective configuration diagram of a steel pipe structure in a girder bridge as an example according to the present invention.
Figure 2 is a schematic cross-sectional configuration of the steel pipe structure disclosed in Figure 1;
Figure 3a is a schematic perspective configuration of a steel wire and cable installed in the steel pipe structure disclosed in Figure 1;
Figure 3b is a schematic perspective view showing a case where a deck is installed in the steel wire in Figure 3a.
Figure 4a is a schematic perspective view of a steel pipe structure in a girder bridge as another example according to the present invention.
4B is a schematic cross-sectional view of the steel pipe structure disclosed in FIG. 4A.
Figure 5a is a schematic perspective structural view of a steel pipe structure in a girder bridge as another example according to the present invention.
5B is a schematic cross-sectional configuration diagram of the steel pipe structure disclosed in FIG. 5A.

The preferred embodiments according to the present invention will be described in detail with reference to the accompanying drawings. In the detailed description of the embodiments of the present invention, there is no direct relationship with the technical features of the present invention, or it is common in the technical field to which the present invention pertains. Details that are apparent to those who have knowledge of will be omitted.

1 is a schematic perspective view of a steel pipe structure in a girder bridge as an example according to the present invention, and the present invention is characterized by forming a steel pipe structure including a steel pipe, a connection strip, and a connecting plate as shown in the drawing. Each of these components will be described in detail.

The steel pipe is a part that forms a skeleton in the steel pipe structure, and consists of a lower steel pipe, an upper steel pipe, and a semicircular steel pipe. The lower steel pipe is a main part that supports the steel pipe structure, and consists of first and second lower steel pipes 12 and 16. Each of the first and second lower steel pipes 12 and 16 has a predetermined length and faces each other.

The upper steel pipe is a part that forms a hand rail while supporting the steel pipe structure, and consists of first and second upper steel pipes 14 and 18 having a predetermined length. The first upper steel pipe 14 is located at a predetermined distance above the first lower steel pipe 12, and the second upper steel pipe 18 faces the first upper steel pipe 14 and the second lower steel pipe 16 It is located at a certain distance upward.

At this time, each of the first and second lower steel pipes 12 and 16 is preferably made of a pipe having a smaller diameter than each of the first and second upper steel pipes 14 and 18. Whether or not the diameter of each steel pipe is to a certain extent may vary depending on the length and width of the sidewalk bridge.

The semi-circular steel pipe is a metal plate having a certain width and length and is bent to achieve a certain curvature, and is made of first and second semi-circular steel pipes 22 and 26. The first semi-circular steel pipe 22 is spaced at a predetermined interval outside the first lower steel pipe 12 and disposed in the longitudinal direction, and the second semi-circular steel pipe 26 is spaced apart at the outside of the second lower steel pipe 16 at a constant distance in the longitudinal direction. Is placed as

In the present invention, the semi-circular steel pipe does not mean a steel pipe that forms exactly 1/2 circle, but rather a steel pipe that forms a complete circle, and includes a configuration in which one side part forms an open state in the longitudinal direction.

The connecting strip is a means for integrating each of the lower steel pipe and the semi-circular steel pipe, and consists of first, second, third, and four connecting strips (32, 34, 36, 38). Each connecting strip can be made of a metal plate having a certain width and length.

The first connecting strip 32 has a predetermined length and is located between the lower portion of the central portion of the first lower steel pipe 12 and the upper portion of the central portion of the first semicircular steel pipe 22, the upper portion of which is the first lower steel pipe 12 ) It is combined in the longitudinal direction along the central portion of the lower outer surface, and its lower portion is combined in the longitudinal direction along the central portion of the lower inner surface of the first semicircular steel pipe 22.

The second connecting strip 34 has a predetermined length and is located between the left portion of the first lower steel pipe 12 and the left portion of the first semicircular steel pipe 22, and its left end portion is the first semicircular steel pipe 22 It is coupled in the longitudinal direction along the left inner surface, and its right end is coupled in the longitudinal direction along the left outer surface of the first lower steel pipe 12.

The third connecting strip 36 has a certain length and is located between the lower portion of the central portion of the second lower steel pipe 16 and the upper portion of the second semi-circular steel pipe 26, and its upper portion is the second lower steel pipe 16 ) It is combined in the longitudinal direction along the central portion of the lower outer surface, and its lower portion is combined in the longitudinal direction along the central portion of the lower inner surface of the second semicircular steel pipe 26.

The fourth connecting strip 38 has a predetermined length and is located between the right part of the second lower steel pipe 16 and the right part of the second semicircular steel pipe 26, and its right end is the second semicircular steel pipe 26 It is coupled in the longitudinal direction along the right inner surface, and its left end is coupled in the longitudinal direction along the right outer surface of the second lower steel pipe 16.

That is, the present invention is a state in which the first and second semi-circular steel pipes are respectively disposed at the outer portions of the first and second lower steel pipes, and the first lower steel pipe and the first semi-circular steel pipe are coupled to each other by first and second connection strips. 2 The lower steel pipe and the second semi-circular steel pipe are structured to be joined by third and fourth connecting strips.

When the lower steel pipe and the semi-circular steel pipe are coupled to each other by a connection strip, it is possible to form a very stable structure at a relatively low construction cost as it has a truss-like structure by the connection strip even if the steel pipe itself is not composed of a double structure. .

At this time, the present invention proposes a configuration in which each of the second and fourth connecting strips 34 and 38 is inclined by a certain angle θ rather than a horizontal state, as disclosed in FIGS. 4A and 4B, respectively.

That is, in the second connection strip 34, the right end portion is inclined downward by a certain angle θ and coupled along the right inner surface of the first semicircular steel pipe 22, and the left end portion of the fourth connection strip 38 is That is, it is inclined by a certain angle θ downward and coupled along the right inner surface of the second semicircular steel pipe 26.

As shown in the figure, when each of the second and fourth connecting strips is coupled to each of the first and second semi-circular steel pipes in an inclined state at a predetermined angle, the second and third connecting strips are applied even if strong winds are applied through the side surfaces of the first and second lower steel pipes. By forming the natural angle θ to guide up and down naturally in the direction of the wind, the fairing function can be enhanced.

The connecting plates are the first and second lower steel pipes 12 and 16, and the first lower steel pipe 12 and the first upper steel pipe 14 and the second lower steel pipe 16 and the second upper steel pipe 18 ) As a means of integrating each other, it consists of first, second, and three connecting plates (42, 44, 46).

The first connecting plate 42 is made of a plurality of pieces located between the first and second lower steel pipes 12 and 16 at a certain distance from each other, and each left end portion is a right outer surface portion of the first lower steel pipe 12 , And each right end portion is coupled along the left outer surface portion of the second lower steel pipe 16.

The second connecting plate 44 is made of a plurality of pieces located between the first lower steel pipe 12 and the first upper steel pipe 14 at a certain distance from each other, and each lower portion of the first lower steel pipe 12 Combined along the upper outer surface portion, each upper portion is coupled along the lower outer surface portion of the first upper steel pipe 14.

The third connecting plate 46 is made of a plurality of pieces located between the second lower steel pipe 16 and the second upper steel pipe 18 at a certain distance from each other, and each lower portion of the second lower steel pipe 16 Combined along the upper outer surface portion, each upper portion is coupled along the lower outer surface portion of the second upper steel pipe 18.

When the lower steel pipes and the lower and upper steel pipes are connected to each other by the connecting plates, a steel pipe structure having a very stable structure composed of a steel pipe, a connecting strip, and a connecting plate is completed. That is, it is possible to construct a pedestrian bridge over a certain length without using a large-diameter steel pipe or mediating a complicated truss member.

At this time, the first connecting plate 42, as shown in each of Figures 4a and 4b, each left end portion is coupled as if surrounding the right outer surface portion of the first lower steel pipe 12 in an arc shape, each right The end portion is coupled as if the left outer surface portion of the second lower steel pipe 16 is wrapped in an arc shape, and in the region between the first and second lower steel pipes 12 and 16, the vertical width may be reduced.

Comparing this with each of the above-described embodiments of FIGS. 2 and 4B, the first connecting plate between the first and second lower steel pipes has a structure in which a curved surface closer to the arch is formed than the above-described embodiment. In this case, the structural stability of the bridge is further enhanced in that the girder itself can be an arch-truss structure.

Each of the steel wires 52 is formed of a plurality having a predetermined length, and is coupled along the upper portion of the first connecting plate 42 as disclosed in FIG. 3A. Reference numeral 56 may be made of a plurality of cables that are coupled along the inner surface of each of the second and third connecting plates 44 and 46.

The deck 60 is an upper plate portion for walking, and is installed by sealing the upper surface portion of the steel wire 42 as shown in FIG. 3B. The deck can be made of materials commonly used in the industry.

In the above, it has been described with limitations to the preferred embodiments of the present invention, but this is only an example, and the present invention is not limited thereto, and may be implemented by being modified in various ways, and further, based on the disclosed technical idea, separate technical features are provided. It will be apparent that it can be carried out in addition.

12, 16: First and second lower steel pipes 14, 18; First and second upper steel pipe
22, 26: 1st, 2nd half-steel pipe 32, 34, 36, 38: 1st, 2nd, 3rd, 4th connection strip
42, 44, 46: 1st, 2nd, 3rd connection plate
52: steel wire 60: deck

Claims (2)

The first lower steel pipe 12 having a certain length, the second lower steel pipe 16 having a certain length and facing a distance apart from the first lower steel pipe 12, the first lower steel pipe 12 having a certain length, and upwards The first upper steel pipe 14 positioned at a certain distance apart, and the second upper steel pipe 18 positioned at a certain distance upward from the second lower steel pipe 16 having a predetermined length and facing the first upper steel pipe 14 ;
The first lower steel pipe 12 is spaced at a predetermined interval outside the first semicircular steel pipe 22 and the second lower steel pipe 16 is spaced at a predetermined interval outside the second semicircular steel pipe 26 disposed in the longitudinal direction. );
It has a certain length and is located between the lower side of the central portion of the first lower steel pipe 12 and the upper side of the central portion of the first semicircular steel pipe 22, but the upper portion is longitudinal along the central portion of the lower outer surface of the first lower steel pipe 12. The first connection strip 32, which is coupled in the longitudinal direction along the central portion of the lower inner surface of the first semicircular steel pipe 22, has a certain length and has a left portion and a first portion of the first lower steel pipe 12. Located between the left side of the semi-circular steel pipe 22, the left end is longitudinally coupled along the left inner surface of the first semi-circular steel pipe 22 and the right end is longitudinally along the left outer surface of the first lower steel pipe 12. The second connecting strip (34) to be combined has a certain length and is located between the lower part of the center of the second lower steel pipe (16) and the upper part of the central part of the second semi-circular steel pipe (26), but the upper part is the second lower steel pipe (16). ) The third connecting strip 36, which is coupled in the longitudinal direction along the central part of the lower outer surface and the lower part is coupled in the longitudinal direction along the central part of the lower semi-circular steel pipe 26, the second lower part. Located between the right part of the steel pipe 16 and the right part of the second semi-circular steel pipe 26, the right end is combined longitudinally along the right inner surface of the second semi-circular steel pipe 26, and the left end is the second lower steel pipe. (16) a fourth connecting strip 38 coupled in the longitudinal direction along the right outer surface;
It consists of a plurality of positions located between the first and second lower steel pipes 12 and 16 at a certain distance from each other, but each left end portion is coupled along the right outer surface portion of the first lower steel pipe 12 and each right end portion Is a first connecting plate 42 coupled along the left outer surface portion of the second lower steel pipe 16, a plurality of pieces located between the first lower steel pipe 12 and the first upper steel pipe 14 at a distance from each other However, each lower portion is coupled along the upper outer surface portion of the first lower steel pipe 12, and each upper portion is coupled to the second connecting plate 44 along the lower outer surface portion of the first upper steel pipe 14, It is made of a plurality of pieces located between the second lower steel pipe 16 and the second upper steel pipe 18 at a certain distance from each other, but each lower portion is coupled along the upper outer surface portion of the second lower steel pipe 16 and each The upper portion is a third connecting plate 46 coupled along the lower outer surface portion of the second upper steel pipe 18;
A steel wire 52 formed of a plurality of each having a certain length and coupled along an upper portion of the first connecting plate 42;
It is made of a configuration comprising a; deck 60 is installed to seal the upper surface of the steel wire 52,
The first and second semi-circular steel pipes 22 and 26 are formed by bending a metal plate having a certain width and length so as to achieve a constant curvature, but not a steel pipe forming a complete circle, but a shape where one side is opened in the longitudinal direction. A girder bridge supported by a steel pipe characterized in that it consists of a structure. According to claim 1,
The right end portion of the second connection strip 34 is inclined by a certain angle θ downward and coupled along the right inner surface of the first semicircular steel pipe 22, and the left end portion of the fourth connection strip 38 is downward. A girder bridge supported by a steel pipe characterized in that it is inclined by a certain angle θ and is coupled along the right inner surface of the second semicircular steel pipe 26.

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