KR101153827B1 - The reinforce structure of beam using wire rope for rahmen bridge and that equipment - Google Patents

Abstract

PURPOSE: A beam reinforcing structure of a rahmen bridge using a strand is provided to construct a bridge with excellent durability by effectively dispersing a load applied to a horizontal support beam. CONSTITUTION: A beam reinforcing structure of a rahmen bridge using a strand comprises a horizontal support beam(2), a strand(1), and four saddles(3). The horizontal support beam has a pair of strand fixing units(21) and two pairs of inclined holes(22). One end of the strand is fixed to one strand fixing unit and is horizontally extended, and the other end is fixed to the other strand fixing unit through the inclined holes. Wires(11) are inserted into the saddles. The saddles are fixed to the gaps between the wires and the bottom surface of the horizontal support beam.

Description

The reinforce structure of beam using wire rope for Rahmen bridge and that equipment}

The present invention relates to a beam reinforcement structure of a ramen bridge using a stranded wire. More specifically, the horizontal support beam formed on an upper portion of a pier effectively prevents bending moments struck down by various loads and loads. A beam reinforcement structure of a ramen bridge using a stranded wire developed to be distributed evenly over a bridge.

Bridges are classified into Girder Bridge, Arch Bridge, Truss Bridge, Ramen Bridge, Cable Stayed Bridge and Suspension Bridge according to the type of superstructure.

Among them, the Ramen Bridge is a bridge that increases the rigidity of the entire structure by connecting the upper and lower structures of the bridge with steel, and at the same time, instead of reducing the magnitude of the bending moment occurring in the bridge, it is burdened by the shift or the bridge.

This type of bridge can be hypothesized without expansion joints or pressure plates up to 50m, and it is advantageous compared to simple bridges in the same area in terms of maintenance, and the thickness of the mold can be designed to be relatively small. This has a wonderful characteristic.

In Korea, it can be seen a lot in highway cross-section bridges, and it is possible to design a variety of forms, and the thickness of the pier is relatively thick because it is common to make the beam thin.

At this time, the beams installed between the bridges, ie, adjacent piers, may be struck downwards due to their own loads and the loads of people or vehicles. For the durability of the bridge, the span must be relatively narrow.

In other words, the formation of more bridges leads to an increase in construction cost and poor appearance, and in the case of rivers or rivers, bridges obstruct the flow of water, causing ecological changes and flooding when there is a large quantity. .

In order to solve this problem, various techniques have been applied to force the girder upward convex by using a stranded wire, but a stranded wire is basically made of a plurality of twisted wires, and the tensile force of the stranded wire is transmitted to the girder. If there is no consideration of the contact point, the load is not effectively distributed or the durability of the strand is sharply dropped.

Therefore, in the Ramen Bridge, various studies should be conducted to effectively counteract the bending moment generated by the load of the bridge itself and the load of people passing through it or the vehicle.

(Patent Document 1) Korea Patent Registration 10-0989586-0000 (October 18, 2010) (Patent Document 2) Republic of Korea Patent Registration 10-0936629-0000 (January 05, 2010) (Patent Document 3) Republic of Korea Patent Registration 10-0989313-0000 (October 15, 2010) (Patent Document 4) Republic of Korea Utility Registration 20-0300023-0000 (December 23, 2002)

The present invention was developed to solve the above problems, the object of which is to give the horizontal support beam a rigidity that can effectively counter the bending moment caused by the load of the bridge itself and the load caused by people passing through or vehicles, etc. It is to develop the beam reinforcement structure of the ramen bridge using a stranded steel wire.

In addition, the present invention is to develop a beam reinforcement structure of a ramen bridge using a stranded wire that can effectively distribute a load applied to a horizontal support beam.

In order to achieve the above object, the present invention provides a reinforcing structure of a beam of a ramen bridge using a strand that provides a bending moment in a direction in which a horizontal support beam is convex upward using a strand;

The horizontal support beams each have a pair of strand wire fixing portions at upper ends of the horizontal support beams, and have two pairs of inclined holes which are symmetrical with each other at the center of the entire length and are inclined downwardly;

The pair of strands are provided with a pair, each end of which is fixed to one of the strand line fixing portion is extended in parallel to pass through the adjacent inclined hole, cross each other and pass through the other inclined hole, the other end is fixed to the other strand line fixing portion To make it possible;

The strands located between the two inclined holes are configured to spread the wires parallel to each other, and additionally include four birds having a plurality of first wire guide grooves having a convex shape in parallel to insert each wire. And the birds are fixedly mounted between the wire and the bottom of the horizontal support beam adjacent to the inclined hole.

In addition, a second wire guide groove is formed between the both sides of the bird adjacent to the birds in a plurality of horizontally parallel to the two or more strand wire guide birds to guide the path of the wire unfolded in at least one of the strands It is characterized in that the mounting.

As described above, according to the present invention, the girders including the horizontal support beams against the bending moments in the opposite direction due to the load by giving the bending beams in which the horizontal support beams are convex upwards by using the strands are more structural. As it is thin, the length of the long finger can be constructed long enough, so the construction is easy and the bridge has a beautiful effect.

In addition, there is an effect that can effectively bridge the strength of each wire constituting the strand wire to the horizontal support beam and give sufficient rigidity to the center portion where the load is concentrated to build a bridge with excellent durability.

1 is a side view showing a ramen bridge constructed in accordance with an embodiment of the present invention
2 is a perspective view according to an embodiment of the present invention;
3 is a bottom perspective view according to an embodiment of the present invention
Figure 4 is an exploded perspective view of the main part according to an embodiment of the present invention
5 is an enlarged view of main parts according to an exemplary embodiment;
6 is a bottom view according to an embodiment of the present invention.
7 is a bottom perspective view according to another embodiment of the present invention
8 is an exploded perspective view showing main parts according to another embodiment of the present invention;
9 is an enlarged view of main parts according to another exemplary embodiment;
10 is a bottom view according to another embodiment of the present invention.

Accordingly, the configuration of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily understand and reproduce.

1 is a side view showing a ramen bridge constructed in accordance with an embodiment of the present invention, a vertical beam (6) is placed on the upper side of the two piers (5) spaced apart and the horizontal support on the upper surface of the vertical beam (6) It can be said that the structure of a general bridge that both ends of the bottom surface of the beam 2 is fixedly coupled.

In this case, as described above, the load of the horizontal support beam 2 itself or the load of a person or vehicle passing through the horizontal support beam 2 acts as a bending moment in which the horizontal support beam 2 is struck downward. The method by the strand 1 is used.

That is, both ends of the strand 1 are fixed to the upper end of the upper end of the horizontal support beam 2 and the middle thereof is tensioned when the strand 1 is pulled to give tension when positioned below the horizontal support beam 2. Due to the property to be terminated, the horizontal support beam 2 acts as a bending moment that tries to be convex in the upward direction, thereby distributing and releasing the load.

Accordingly, the thickness of the horizontal support beam 2, that is, the height of the mold, can be formed thin, but the distance between the adjacent piers 5, that is, the space between the beams, can be formed sufficiently.

Figure 2 is a perspective view according to an embodiment of the present invention, Figure 3 is a bottom perspective view according to an embodiment of the present invention, Figure 4 is an exploded perspective view of the main part according to an embodiment of the present invention, Figure 5 is the present invention 6 is an enlarged view of a main part according to an embodiment of the present invention, and FIG. 6 is a bottom view according to an embodiment of the present invention. A more specific configuration of the present invention uses the strand 1 to support the horizontal support beam 2 upward. In the reinforcement structure of the beam of the ramen bridge using the strand (1) giving a bending moment in the convex direction;

The horizontal support beam 2 has a pair of strand wire fixing portions 21 at both upper ends, and has two pairs of inclined holes 22 symmetrically intersected at the center of the entire length and penetrating downward in a downward direction. To;

The pair of strands 1 is provided with a pair, each end of which is fixed to the strand line fixing portion 21 of one side and extends in parallel to pass through the adjacent inclined hole 22, cross each other and pass through the other inclined hole 22 After the other end is fixed to the other wire strand fixing portion 21;

The stranded wire 1 positioned between the two inclined holes 22 allows the wires 11 constituting the wires 11 to be unfolded in parallel, and a plurality of first wire guide grooves 31 having convex shapes are provided in parallel to each other. Four saddles 3 are additionally configured to allow the wires 11 of the wires 11 to be inserted therebetween to be fixed and mounted between the wire 11 and the bottom surface of the horizontal support beam 2 adjacent to the inclined hole 22. It can be said that the beam reinforcement structure of the ramen bridge using a strand wire characterized in that 3) is mounted.

In general, in the use of the stranded wire (1) is a conventional technique, and the technique of crossing the stranded wire (1) at the bottom can also be found in the prior art.

However, in order for the tensile force acting on the strand 1 to be effectively transmitted to the horizontal support beam 2, the contact point must be made stable and uniform. In this application, the wire 11 constituting the strand 1 is loosened. There is a significant difference in the configuration of the points 3 which extend in parallel and in the configuration of the saddle 3 which guides it and effectively transfers the tensile force of the wire 11 to the horizontal support beam 2 so as to be converted into a bending moment. would.

On the contrary, the lecture wire 1, which serves to distribute the load of the horizontal support beam 2, is transmitted to each of the loosened wires 11 so as to effectively distribute the load.

At this time, the saddle 3 is fixed to the bottom surface of the horizontal support beam (2) by a fixing bolt (42).

7 is a bottom perspective view according to another embodiment of the present invention, Figure 8 is an exploded perspective view of the main part according to another embodiment of the present invention, Figure 9 is an enlarged view of the main part according to another embodiment of the present invention, Figure 10 is As a bottom view according to another embodiment of the present invention, between the two saddle (3) is formed a second wire guide groove 41 is formed horizontally adjacent to the saddle 3 in parallel at least one or more An embodiment in which two or more strand guide saddles 4 are additionally mounted to guide the path of the wire 11 extending from the strand 1 is presented.

The portion of the strand 1, in particular the wire 11 is exposed is fine but somewhat flows whenever the load applied to the bridge changes.

That is, the wire 1 is moved left and right along the first wire guide groove 31 of the saddle (3).

However, if the wire 11 is not straightly stretched in the middle, the wire 11 may be broken due to the action of friction force in the middle, and in order to prevent this, in the present invention, an additional strand wire guide saddle 4 may be placed to prevent the wire ( 11) to move to the correct path.

That is, in the case of the saddle 3, while the wire 11 receives the pressing force to the top and at the same time guides the wire 11, but the strand wire guide saddle (4) does not have such a pressing force only serves to guide the wire ( It can be said that there is little damage to 11).

1: stranded wire
11: wire
2: horizontal support beam
21: strand wire fixing portion 21a: nut
22: inclined hole
3: birds
31: first wire guide groove 32: fixing bolt
4: strand strand guide saddle
41: second wire guide groove 42: fixing bolt
5: pier
6: vertical beam

Claims (2)

A reinforcing structure of a beam of a ramen bridge using a strand wire (1) which imparts a bending moment in a direction in which the horizontal support beam (2) is convex upward using the strand wire (1);
The horizontal support beam 2 has a pair of strand wire fixing portions 21 at both upper ends, and has two pairs of inclined holes 22 symmetrically intersected at the center of the entire length and penetrating downward in a downward direction. To;
The pair of strands 1 is provided with a pair, each end of which is fixed to the strand line fixing portion 21 of one side and extends in parallel to pass through the adjacent inclined hole 22, cross each other and pass through the other inclined hole 22 After the other end is fixed to the other wire strand fixing portion 21;
The stranded wire 1 positioned between the two inclined holes 22 allows the wires 11 constituting the wires 11 to be unfolded in parallel, and a plurality of first wire guide grooves 31 having convex shapes are provided in parallel to each other. Four saddles 3 are additionally configured to allow the wires 11 of the wires 11 to be inserted therebetween to be fixed and mounted between the wire 11 and the bottom surface of the horizontal support beam 2 adjacent to the inclined hole 22. 3) The beam reinforcement structure of the ramen bridge using a stranded wire, characterized in that the mounting.
The method of claim 1, wherein between the two saddle (3) is formed a second wire guide groove (41) formed horizontally adjacent to the saddle (3) parallel to the at least one strand (1) A beam reinforcement structure of a ramen bridge using a stranded steel wire, characterized in that two or more stranded steel guide saddles (4) are additionally mounted to guide the path of the wire (11).

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