KR101003748B1 - Bridge Top Support Structure Using Archer Method - Google Patents

Abstract

The present invention relates to a top plate support structure for the construction of the bridge, more specifically, a plurality of square pyramid-type substructures are connected to the lower portion of the upper plate portion and the rope is placed on the vertex portion formed at the lowermost end of the rope structure Is inserted into the rope connecting rod and the rope is connected to the piers so that the load of the upper plate is supported by the rope to give a unique molding beauty and has the effect of providing the convenience and stability of construction (Archer) This is a technology for supporting structure of bridge deck using construction method.

Bridge, top plate, support structure, molding beauty, substructure, square pyramid, rope connector

Description

Bridge plate supporting structure using archer construction method

The present invention relates to a top plate supporting structure for the construction of bridges, such as bridges, more specifically, a lower structure on the top of the lower portion, but the substructures are connected by a rope to support the load by the rope to be.

In general, the term "cloud" means a bridge in which the upper plate of the bridge is not supported by a pier but is supported by wires fixed to both connecting objects to form a floating state. Overpasses are often used when a bridge between a deep mountain valley or between two buildings and a bridge supporting the top of the bridge cannot be installed. It is often used on small bridges. Since the top plate is supported by the wire ropes as above, it is impossible to use a heavy weight top plate, and simply hold the top plate to the lower wire rope that supports the top plate from the bottom of the top plate. Many materials are available.

In recent years, harmony with the landscape is important so that the bridge can become a tourist resource beyond the purpose of traffic. In this respect, there is a need for a new type of bridge that can be differentiated from conventional general bridges.

Accordingly, an object of the present invention is to provide a bridge top plate support structure using the archer method, which is configured to stably support the load of the bridge top plate while providing a unique molding beauty as a bridge.

The present invention for achieving the object as described, in the walking bridge is constructed so that people can pass through the bridge, a plurality of rectangular pyramid-shaped substructures are connected to the lower portion of the upper plate is formed at the bottom of the lower structures A rope connector is placed at the vertex to allow the rope to be fitted to the rope connector, and the rope is connected to the pier so that the load of the upper part is supported by the rope, and the substructure is formed of a square pyramid made of steel pipe and formed of four The support structure of the bridge top plate using the Archer method, characterized in that the second pipe is coupled while forming a quadrangle near the midpoint of the one pipe.

Preferably, the substructures propose a bridge top plate support structure using the archer method, characterized in that the height of the substructure positioned at the center of the upper plate portion is lowered toward both edges.

More preferably, the rope connecting rod proposes a bridge top plate supporting structure using an archer method, characterized in that two plate members are coupled to form an insertion hole into which a rope is inserted in the center.

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In the construction of the insertion hole, there is proposed a bridge top plate supporting structure using an archer method, wherein two independent insertion holes are formed by two plate members.

According to the present invention, it has an effect that can provide a unique aesthetic because it has a structure that is different from the conventional bridges known as a bridge. In addition, the rope is connected to the lower structure supporting the upper plate, so that the load is supported, thereby minimizing the connection point of the rope and the lower structure, thereby simplifying the work.

A more detailed description of the bridge top plate support structure using the archer method according to the present invention will be described, and reference will be made to related drawings attached as a means to help understanding the technical spirit of the present invention. However, it is to be understood that the drawings presented are merely illustrative examples and may be included in the scope of the present invention, such as simple modified embodiments by those skilled in the art.

The present invention relates to overpasses, and overpasses are installed between piers that are installed high above the ground. The upper plate is provided to allow walking, and the upper plate is constructed so that the load is supported by the rope.

In order to enable the load of the upper plate to be supported by the rope, the lower structure is to be placed under the upper plate and to connect the rope to the lower end of the lower structure. Figure 1 shows a schematic front view of a bridge showing a preferred embodiment of the present invention, Figure 2 shows a partial cross-sectional view taken along line AA 'of Figure 1;

More specifically, the lower structure 200 is installed to be arranged in a reverse direction to form a square pyramid form and is connected to the upper plate portion 100 at the upper end of the lower structure and a rope connecting unit 300 is formed at the lower end using the rope connecting unit. To install the rope (r).

In addition, the term archer method is named in the present invention is named in consideration of the structural characteristics of connecting the substructure by hanging the rope like a bow.

In the present embodiment, the upper plate portion 100 is composed of a plurality of steel pipes so that the main frame 110 is disposed to the left and right to install a plurality of H beams 120 connecting the left and right mainframe. It is preferable to form a flange (f) at the end of the steel pipe constituting the main frame 110 to be connected continuously. The main frame 110 to form a walk portion 130 that can be walked by a person. The walking unit 130 may be changed in various materials and forms, and may be achieved by a known technique, so a detailed description thereof will be omitted.

A plurality of substructures 200 are installed below the upper plate portion 100, and the substructures 200 form a rectangular pyramid in a reverse direction, and an upper end portion thereof is connected to the main frame 110. That is, one substructure 200 is connected to form a square pyramid using four first pipes 210 so as to form a rectangular pyramid, and a vertex is formed at a lower end of the substructure 200. As a means for connecting the rope to the site will be coupled to the rope connecting rod (300).

The rope connecting unit 300 is connected to the first pipe 210 to form an insertion hole 301 into which two plate-shaped members are coupled to insert a rope. It is preferable to place a portion that is bent in a u-shape in the opposite direction in the center of the two plate-like members and to combine, so that an approximately elliptical insertion hole 301 can be formed. The number of ropes to be inserted into the insertion hole is determined according to the shape or size of the insertion hole.

In addition, more preferably, two plate-like members are formed to face each other as the insertion holes 301, and two independent insertion holes are formed to connect one rope to each insertion hole. 3 shows a schematic cross-sectional view of a rope connecting rod in which two insertion holes are formed as the insertion holes.

The number of the substructure 200 is preferably adjusted to an appropriate number according to the length of the upper plate portion 100 of the bridge, the overall installation form of the substructure 200 is to allow the rope to be installed so that the center of the convex Suitable. That is, the height of the lower structure located in the center of the upper plate portion is to be the highest and to have a form that the height is lowered toward both sides.

In addition, in the lower structure 200, a second pipe 220 connecting the first pipe 210 may be placed at an approximately intermediate point of the four first pipes 210 to obtain structural stability. This is preferred.

As described above, the upper plate supporting structure of the bridge according to the present invention has a plurality of lower structures under the upper plate and is connected to a rope at the lower end of the lower structure so that the load of the upper plate may be supported by the rope.

Since the top plate supporting structure as in the present invention is connected to the rope is formed only as many as the number of the lower structure, the construction is easy and the rope is connected at the vertex of the lower structure forming the inverted triangle form a stable construction structure.

Unlike conventional bridges, the present invention has a form specificity and can be given aesthetic beauty and construction is convenient and stable.

1 is a schematic front view of a bridge showing a preferred embodiment of the present invention.

FIG. 2 is a cross-sectional view taken along the line AA ′ of FIG. 1; FIG.

3 is a schematic cross-sectional view of a rope connecting rod in which two insertion holes are formed as insertion holes.

<Description of Major Symbols Used in Drawings>

100: upper plate 110: main frame

120: H beam 130: walk portion

200: substructure 210: first pipe

220: second pipe 300: rope connecting rod

301: insertion hole r: rope

Claims (5)

In the pedestrian bridge that is constructed so that people can pass through the bridge, A plurality of rectangular pyramid-type substructures are connected to the lower part of the upper plate, and a rope connector is provided at a vertex portion formed at the lowermost end of the lower structures so that the rope is inserted into the rope connector, and the rope is connected to a pier so that the load of the upper plate is increased. Supported by a rope, The substructure is formed of a steel pipe and forms a rectangular pyramid, and the upper part of the bridge supporting structure using the archer method, characterized in that the second pipe is coupled to form a quadrangle near the midpoint of the four first pipes. The method of claim 1, The substructures, A support structure for a bridge top plate using the archer method, characterized in that the height of the lower structure located at the center of the upper plate portion is the highest and the height thereof is lowered toward both edges. delete The method according to claim 1 or 2, The rope connecting rod, Bridge plate support structure using the Archer method, characterized in that the two plate-shaped members are combined to form an insertion hole into which the rope is fitted in the center. The method of claim 4, wherein The insertion hole, A bridge top plate supporting structure using an archer method, characterized in that two independent insertion holes are formed by two plate members.

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