KR200460662Y1 - Anti-reaction force elastic bearing with tapered guide block - Google Patents

Abstract

The present invention relates to an anti-reaction force elastic support using a tapered guide block,

In the elastic support for bridges composed of upper and lower plates and laminated elastic bearings, it guides the laminated elastic bearings shearing in the axial direction or perpendicular to the axial direction of the bridge top plate, while suppressing the side reaction force of the upper plate due to seismic force and at the same time for excessive displacement In the elastic support for bridges, characterized in that to form a tapered guide block to break along,

The shape of the guide block that controls the direction of movement of the elastic bearing for bridges is tapered to prevent the bridge top plate from falling off when the earthquake occurs due to the earthquake. When replacing the elastic bearing, the guide block can be easily dismantled and reassembled from the outside, thereby reducing the cost and time for repair.

Elastic support, elastic rubber, guide block, taper, negative reaction force

Description

Anti-abrasion resilient bearing with tapered guide block {Elastomeric bearings with taper type guide block for anti up-lifting force}

The present invention relates to an elastic bearing for supporting a bridge installed between an upper structure of a bridge and a bridge, and more specifically, to prevent falling of a bridge deck from side reactions during an earthquake by using a high strength elastic bearing and a tapered guide block. It relates to an elastic bearing to have a function.

In general, an elastic bearing for a bridge supports the load of the upper structure of the bridge, absorbs the shock applied to the upper structure, and converts the horizontal load due to the elastic deformation of the bridge deck due to the temperature change into the horizontal displacement of the elastic bearing. In order to reduce the inertia force of the bridge deck caused by the earthquake, the use of protecting the bridge structure from the earthquake is increasing.

Looking at the prior art for implementing such a purpose, as shown in Figures 1 and 2, the general bridge support is installed between the upper plate (1) and the bridge (2) of the bridge and the upper and lower plates 10, laminated elastic support 20 Consists of

Here, the laminated elastic bearing 20 is chemically combined with one or more reinforcing steel plate 22 in the elastic rubber 21, in the case of restraining movement, such as fixed end and one-way movable end, the axial direction and the axial direction perpendicular to the axial direction The guide block 30 that limits the movement to the welding or bolted to combine a simple structure.

In order to prevent the fall of the bridge top plate 1 due to an earthquake, the method of manufacturing the elastic support 20 integrally with the upper and lower plates 10, etc. is used. When the replacement of the support 20 has to be removed from the bridge to the upper and lower plates 10 coupled with the elastic support 20 in the bridge, there was a disadvantage that must be completely removed to the anchor 40 portion.

In addition, since the work must be carried out in a narrow and dangerous working space between the bridge deck (1) and the bridge (2), not only does the installation time take a considerable amount of time, but also there is a disadvantage that can not guarantee the safety of the operator.

In order to solve this problem, the present invention provides a tapered guide block without a separate stopper to prevent the drop and at the same time to prevent damage to the entire elastic support when the seismic force is more than assumed, welding to maintain the function Another object of the present invention is to provide an elastic bearing for bridges that can prevent side reactions such as falling of the bridge and pulling of the bearings, which have been pointed out as a disadvantage of the elastic bearings by inducing breakage of the guide block coupled by bolts.

According to the present invention, the shape of the guide block for controlling the moving direction of the elastic support for the bridge may be tapered to prevent the fall of the bridge deck during the occurrence of side reaction due to the earthquake.

In addition, when replacing the elastic bearings damaged by seismic forces or the like for longer periods than expected, the guide block can be easily dismantled and reassembled from the outside, thereby reducing maintenance costs and time.

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

Figure 3 is an embodiment of the present invention, the elastic rubber 21 and the reinforcing iron plate 22 is laminated to each other formed by the laminated elastic bearing 20, and the upper plate 11 installed above and below the laminated elastic bearing 20 And in the elastic support for the bridge consisting of the lower plate 12, the upper tapered guide block 131 is welded to both sides of the bottom surface of the upper plate 11 is coupled, and also the upper surface of the lower plate 12 The lower tapered guide block 132 is welded to face the upper tapered guide block 131, and the tapered guide block 130 is spaced apart from each other so as to shift the displacement of the laminated elastic support 20 during shear deformation. Elasticity due to the tapered guide block 130 of the anti-repulsion elastic support in this article installed between the lower structure (2) and the upper structure (1) of the bridge when the lateral and vertical earthquakes occur smoothly at the same time. Upper part of the support By preventing the plate 11 and the lower plate 12 from being separated, the bridge top plate 1 may be prevented from falling. In addition, when excessive seismic force than the assumed seismic force occurs, induce the destruction of the coupling portion of the tapered guide block 130 to prevent the damage of the entire elastic support, and can be easily maintained.

4 is a cross-sectional view of an embodiment of the present invention, the tapered guide block 130 is welded and laminated at a predetermined interval with the laminated elastic support 20 provided between the upper plate 11 and the lower plate 12 and laminated elastic support. It shall not be disturbed by the shear deformation of (20). The upper tapered guide block 131 has an inclined surface (T) toward the outside, the lower tapered guide block 132 has an inclined surface (T) toward the inside and the upper and lower plates 10 when the reaction force due to the earthquake ) Can be prevented from falling off the bridge deck (1).

5 shows that the upper tapered guide block 131 has an inclined surface T outward, and the lower tapered guide block 132 has an inclined surface T facing inward in detail. Can be.

6 is a detailed view of another embodiment of the present invention to form a stopper (S) on the inclined surface (T) of the upper tapered guide block 131 and the lower tapered guide block 132, the upper plate 11 at the time of the reaction force ) Is to limit the play.

FIG. 7 illustrates that the tapered guide block 130 may be partially or entirely fastened with bolts 60 to induce dropout of the tapered guide block 130a during an earthquake as in the welding part.

According to the present invention, the tapered guide block 130 guides the shear deformation of the laminated elastic support 20 when the bridge deck 1 deforms in the axial direction or the perpendicular direction of the bridge according to temperature changes, and bridge top plate by earthquake. By preventing the conduction of (1) and at the same time when the excessive seismic force is transmitted to the elastic support while the seismic bearing of the tapered guide block 130, the welding or bolted portion of the guide portion is induced to break to protect the laminated elastic support (20) It can prevent the damage of the bridge and extend the service life.

1 is a cross-sectional view of a conventional elastic support.

Figure 2 is a perspective view of a conventional elastic bearing.

3 is a perspective view according to the present invention.

4 is a cross-sectional view according to the present invention.

Figure 5 is a detailed view of the tapered guide block according to the present invention.

Figure 6 is a detailed view of the tapered guide block with a stopper according to the present invention.

7 is a cross-sectional view according to another embodiment of the present invention.

Claims (3)

delete Bridge support elastic support consisting of the upper and lower plates (10) and laminated elastic support (20), characterized in that the stopper (S) formed on the end of the inclined surface of the tapered guide block (130). delete

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