KR200409374Y1 - apparatus for up-lift control of rail bridge girder - Google Patents

Abstract

The present invention relates to a secondary reaction force control device of the bridge girder, the bridge device is installed on the bridge, the soul plate is installed on the bridge device, the girder is installed on the soul plate, the bridge is installed on the girder In the girder, a control device for controlling the side reaction force is configured, the control device comprises: a fixed block protruding on one side of the girder on which the side reaction force acts; The weight is inserted into the fixed block to provide a load to the girder; characterized in that it comprises a, it is possible to simply control the side reaction force of the girder.

Bridge, Girder, Reaction Force, Bridge Device, Pier

Description

Apparatus for up-lift control of rail bridge girder}

1 is a view showing a bridge of a general form.

FIG. 2 is a diagram illustrating a bridge to which an outrigger for controlling the negative reaction force of a conventional bridge girder is applied.

3 is a view showing a negative reaction force control device for the bridge girders according to the present invention.

4 is a plan view illustrating the inside of the girder of FIG. 3.

5 is a view showing a fixed block and the weight according to the present invention.

<Description of the symbols for the main parts of the drawings>

2: bridge 10: top plate

20: girder 22: rib

30: soul plate 40: the device

50: pier 100: controller

110: fixed block 112: base plate

114: vertical rod 120: weight

The present invention relates to a negative reaction force control device for bridge girders, and more particularly to a negative reaction force control device for bridge girders for controlling the negative reaction force of the girder generated in the bridge girder by the repeated load.

In general, the girder bridge is a structure in which the upper plate is supported by the girder, and in the accompanying drawings, a curved bridge to which a box-shaped girder is applied is illustrated as an example. It shows the bridge to which the girder is applied.

On the other hand, the girder bridge as described above, after installing the girder 20 in the upper part of the pier or shift (hereinafter referred to as "pier") 50 during the manufacture of the bridge, and then cast concrete on the upper part of the girder 20 To form (10).

In addition, a support device 40 that serves as a buffer between the girder 20 and the pier 50 while supporting the girder 20 is installed on the upper surface of the pier 50 at the lower portion of the girder 20. A soul plate 30 is installed between the device 40 and the girder 20 to reinforce the chair device 40.

In addition, a plurality of ribs 22 for reinforcing the box-shaped girder 20 are vertically erected inside the girder 20 in contact with the teaching device 40.

On the other hand, in the conventional bridge (2) made in this way, if a negative reaction force to raise the girder 20 due to the repeated load on the bridge (2), in Figure 2 to control the negative reaction force of the girder 20 As shown, while controlling the side reaction force by changing the position of the chair device 40 while applying the outrigger to the girder 20, this method is controlled by the bridge device 40, the bridge (2) The structure of the atypical structure of the bridge (2) had a very disadvantageous problems such as structural stability, workability, economics.

Accordingly, the present invention has been made to solve the problems of the prior art as described above, by installing a weight on the side of the girder on which the reaction force acts, the reaction force control of the girder for the bridge to simply control the reaction force of the girder The purpose is to provide a device.

In the bridge girder control device of the present invention for achieving the above object, the bridge device is installed on the bridge, the soul plate is installed on the bridge device, the girder is installed on the soul plate, the girder In the bridge on which the upper plate is installed, the girder is configured with a control device for controlling the side reaction force, the control device includes a fixed block protruding on one side of the girder to which the side reaction force acts; And a weight provided on the fixed block to provide a load to the girder.

Preferably, the fixing block is composed of a base plate fixed to the girder, and a vertical rod which is erected perpendicular to the base plate to which a ring-shaped weight is fitted.

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention in detail as follows.

Prior to describing the present invention, the same reference numerals are given to the same parts as in the prior art, and redundant descriptions are omitted.

3 to 5 are diagrams illustrating a negative reaction force control device for a girder for a bridge according to the present invention.

Bridge 2 of the present invention, as shown in Figure 3, the bridge device 40 is installed on the bridge 50, the soul plate 30 is installed on the bridge device 40, the soul plate ( 30 is installed on the girder 20, the top plate 10 is installed on the girder 20 is configured.

In particular, the girder 20 is formed in a box shape, the rib 22 for reinforcing the girder 20 is installed vertically inside the contact portion device 40 is in contact.

Inside the girder 20, a control device 100 for controlling the sub reaction force is configured.

As shown in FIGS. 4 and 5, the control device 100 includes a plurality of fixed blocks 110 protruding from the inside of the girder 20 on which side reaction force is applied, and the fixed blocks 110. It is composed of a plurality of weights 120 for providing a load corresponding to the negative reaction force to the girder 20.

The fixed block 110 is composed of a base plate 112 fixed to one side of the girder 20, and a vertical rod 114 to be perpendicular to the base plate 112, the weight 120 is fitted. do.

The weight 120 may be formed in various forms satisfying the closed circuit shape, but in this embodiment, the weight 120 formed in a ring shape is illustrated as an example.

Meanwhile, as shown in FIG. 4, the control device 100 configured as described above is installed by fixing a plurality of fixed blocks 110 inside the girder 20 where the negative reaction force is generated, and the fixed block 110. If the weight 120 is inserted into each of the vertical rods 114 of the c) as much as possible to suppress the negative reaction force, the negative reaction force of the girder 20 can be easily controlled.

Therefore, when controlling the side reaction force of the girder 20, it is possible to simply control without the need to install a separate outrigger in the girder 20, the structure of the bridge (2) to maintain the shaping and to maintain the Structural stability, workability and economy are advantageous.

As described above, according to the secondary reaction force control device of the bridge girders of the present invention, by installing a fixed block and weight in the girder to control the secondary force of the girder, the girder can be easily installed without the need for a separate outrigger. The side reaction force is controlled, and the structure of the bridge can maintain the shaping continuously, so there is an advantage in that the structural stability, constructability, and economic efficiency of the bridge.

Claims (2)

In a bridge, a bridge device is installed on the bridge, a soul plate is installed on the bridge device, a girder is installed on the soul plate, and a top plate is installed on the girder, The girder is composed of a control device for controlling the reaction force, The control device includes a fixed block protruding from one side of the girder to which the reaction force acts; The reaction force control device of the girder for a bridge, characterized in that it comprises a; weight that is fitted to the fixed block to provide a load to the girder. The method of claim 1, The fixed block is a base plate that is fixed to the girder, and the vertical reaction force control device of the girder for bridges, characterized in that it consists of a vertical rod that is perpendicular to the base plate is fitted with a ring-shaped weight.

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