KR101522343B1 - Elastomeric bridge bearing having function of controlling uplift force - Google Patents

Abstract

A resilient support for a bridge having a negative reaction force function is disclosed. The elastic support for a bridge having a sub-reaction force function according to the present invention includes an upper plate disposed on a bottom surface of a bridge, a lower plate disposed on an upper surface of the bridge, an elastic pad disposed between the upper plate and the lower plate, And a lower wedge provided on both upper edges of the lower plate, wherein the upper wedge is composed of an upper fixing member, which is composed solely and is welded to the bottom surface of the upper plate, And an upper fixing member formed with an upper joining groove opened to both sides in the longitudinal direction and welded to the bottom surface of the upper plate, wherein the lower wedge is composed of a lower fixing member welded to an upper surface of the lower plate, Or a lower coupling groove opened upward and in the longitudinal direction is formed and welded to the upper surface of the lower plate The upper wedge and the lower wedge are formed with notch portions for reducing the cross-sectional area in the middle portion or formed with different cross-sectional areas on the basis of the intermediate portion, And the upper wedge and the lower wedge are coupled to each other so that the upper and lower wedges are parallel to the elastic pad, And is connected to and coupled to the fixing member and the upper rupture portion so as to correspond to the negative reaction force by the respective bolts penetrating through the lower fixing member and the lower rupture portion. According to the present invention, the upper wedge and the lower wedge are coupled and connected by a simple structure so that the maintenance can be performed quickly and easily while being configured to cope with the negative reaction force.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an elastic support for a bridge,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an elastic support for a bridge having a negative-reaction force function, and more particularly, to an elastic support for a bridge capable of quickly and easily removing and replacing a broken lower wedge when a lower wedge is broken by an earthquake or other external force And more particularly, to a resilient support for a bridge having a sub-reaction force function having a function corresponding to the negative reaction force.

 Generally, a bridge has a structure for lifting a top plate on a bridge pier, and a moving load acts on the bridge because the vehicle is traveling at high speed on the bridge. In addition, since the length of the upper plate is increased in a large bridge, the expansion and contraction of the upper plate due to the thermal deformation due to the temperature change due to the season changes becomes large. Therefore, the upper plate and the bridge should be designed to allow relative movement on the contact portion. In addition, it should have a support structure that can buffer the impact in the horizontal direction against a large impact applied horizontally to the bridge by an earthquake or the like. For this purpose, an elastic support for bridges is installed between the bridge piers and the top plate to support the top plate in response to the displacement of the top plate, thereby reducing the impact on the top plate.

On the other hand, when the vertical load applied to the upper structure is applied to one side of the support of the bridge structure or a load for conducting the upper structure is applied to the support structure of the bridge structure, a buoyant force is generated in the upper structure, can do. In the case of railway bridges equipped with secondary railway, there is a high possibility of negative reaction force due to the weight and running characteristics of railway car.

As a conventional technique for solving such a problem, Korean Patent Laid-Open No. 10-2012-48082 (Publication Date: 2012.05.15) discloses a supporting device for a bridge having a negative reaction force control function. However, such a supporting device for a bridge has a complicated structure for having a negative reaction force control function, and the structure of the supporting device having the negative reaction force control function is complicated, which makes maintenance difficult .

Korean Patent Publication No. 10-2012-48082 (Publication date: May 15, 2012)

An object of the present invention is to provide an elastic support for a bridge that has a function corresponding to a negative reaction force and is quick and easy to maintain.

The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to at least partially solve the problems in the conventional arts. It can be understood.

According to the present invention, there is provided a bridge comprising: a top plate disposed on a bottom surface of a bridge; a bottom plate disposed on an upper surface of the bridge; an elastic pad disposed between the top plate and the bottom plate; And a lower wedge provided on both upper edges of the lower plate, wherein the upper wedge is composed of an upper fixing member which is composed solely and is welded to the bottom surface of the upper plate, And the lower wedge is composed of a lower fixing member that is composed of a lower wedge and is welded to an upper surface of the lower plate by welding A lower fixing groove formed by upwardly and downwardly opened lower engaging grooves welded to the upper surface of the lower plate, Wherein the upper wedge and the lower wedge are formed with notch portions for reducing the cross-sectional area in the middle portion or formed with different cross-sectional areas on both sides with respect to the middle portion, The upper and lower wedges are coupled to each other to form the upper and lower wedges, respectively. The upper and lower wedges are coupled to each other, And is connected to and joined to each other so as to correspond to the negative reaction force by the respective coupling bolts penetrating through the rupture portion and penetrating through the lower fixing member and the lower rupture portion respectively. do.

In the case where the upper fixing member of the upper wedge and the lower fixing member of the lower wedge are constituted individually, the breaking members are formed as a pair and are arranged in the outer side and the inner side of the upper fixing member and the lower fixing member, respectively To the upper fixing member and the lower fixing member, respectively, by the coupling bolts.

Wherein the upper and lower wedge fixing members of the upper wedge and the lower wedge of the upper and lower wedges are independently formed, the breaking member is formed independently of the upper fixing member and the lower fixing member, And can be coupled to the upper fixing member and the lower fixing member, respectively, by a coupling bolt.

The upper fixing member is formed with an upper engaging groove which is opened in both the downward direction and the longitudinal direction. The lower fixing member is formed with a lower engaging groove which is open in both the upward and longitudinal directions, And the lower region is slidably inserted into the lower coupling groove in the longitudinal direction and can be respectively coupled to the upper fixing member and the lower fixing member by the coupling bolts.

According to the present invention, the upper wedge and the lower wedge are coupled and connected by a simple structure, whereby the maintenance can be performed quickly and easily while being configured to cope with the negative reaction force.

Figs. 1A and 1B are cross-sectional views showing an elastic support according to a first embodiment of the present invention, and 2B is a front view showing an elastic support shown in Fig. 2A.
2 is a cross-sectional view illustrating an elastic support according to a second embodiment of the present invention.
3 is a cross-sectional view illustrating an elastic support according to a third embodiment of the present invention.
4 is a cross-sectional view illustrating an elastic support according to a fourth embodiment of the present invention.
5 is a cross-sectional view illustrating an elastic support according to a fifth embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

In the accompanying drawings, Figs. 1A and 1B are sectional views showing an elastic support according to a first embodiment of the present invention, and 2b is a front view showing an elastic support shown in Fig. 2A.

Prior to describing the preferred embodiments, the elastic support to which the present invention is applied may be of a vulcanized integral type shown in FIG. 1A and a bolted integral type (not shown), but is not limited to, The present invention can be applied to elastic supports of various structures.

1A and 1B, an elastic support according to the present invention includes an upper plate 20 disposed on a bottom surface of a bridge, a lower plate 30 disposed on an upper surface of the bridge, A lower wedge 50 provided on both upper edges of the lower plate 30 and an upper wedge 22 welded to both edges of the upper and lower edges of the upper plate 20, And is configured to have a function corresponding to the negative reaction force while having a structure that is easy to maintain.

This will be described more specifically.

The upper wedge 22 is composed of an upper fixing member 22D which is welded to the bottom surface of the top plate 20 and formed with an upper engaging groove 22E which is opened both downwardly and longitudinally.

The lower wedge 50 includes a lower fixing member 52F formed by welding and formed on the upper surface of the lower plate 30 by forming upper and lower longitudinally extending lower engaging recesses 52E, And a rupture member 54 into which the upper and lower rupture parts 54J and 54K are respectively inserted into the lower engaging groove 52E and engaged with the engaging bolt 60. [

The breaking member 54 may be formed with a notching notch 54C for reducing the cross-sectional area in the middle portion, or may have different cross-sectional areas on both sides (upper and lower) with respect to the intermediate portion.

The upper rupture part 54J and the lower rupture part 54K of the breaking member 54 are slidably inserted into the lower engaging groove 52E and the upper engaging groove 22E in the longitudinal direction of the elastic support, Respectively, to the upper fixing member 22D and the lower fixing member 52F.

In other words. The coupling bolt 60 is horizontally held in the direction of the elastic pad 40 from the outside with respect to the upper wedge 20 and the lower wedge 22 to penetrate the upper fixing member 22D and the upper rupture portion 54J And is fastened through the lower fixing member 56 and the lower rupture portion 54K.

Each of the upper fixing member 22D and the lower fixing member 52F is formed with a through hole for the coupling bolt 60 to penetrate therethrough and a fastening hole 22F or 52A for fastening.

With this structure, the upper and lower wedges 22 and 50 are connected and joined together.

Since the upper and lower wedges 22 and 50 are connected to each other and thus the elastic support is provided with a function corresponding to the negative reaction force and the respective coupling bolts 60 are moved from the outside to the horizontal direction And the breaking member 54 can be slid in the horizontal direction so that the breaking member 54 can be inserted or withdrawn so that the breaking member 54 can be replaced quickly and easily.

2 is a cross-sectional view illustrating an elastic support according to a second embodiment of the present invention.

In the elastic support according to the second embodiment shown in Fig. 2, when the upper fixing member 22D of the upper wedge 22 and the lower fixing member 52F of the lower wedge 50 are constituted individually, The members 54 are composed of a pair and are fixed to the upper fixing member 22D and the lower fixing member 22D by the coupling bolts 60 while being disposed on the outer side and the inner side of the upper fixing member 22D and the lower fixing member 52F, Member 52F, respectively, as in the first embodiment described above.

At this time, the cross sectional area of each breaking member 54 is smaller than the cross sectional area of the upper fixing member 22D and the lower fixing member 52F, respectively, and a notch may be formed in the middle portion.

FIG. 3 is a cross-sectional view illustrating an elastic support according to a third embodiment of the present invention, and FIG. 4 is a cross-sectional view illustrating an elastic support according to a fourth embodiment of the present invention.

The elastic supporters according to the third and fourth embodiments shown in Figs. 3 and 4 are characterized in that the breaking member 54 is composed of one (one), and the upper fixing member 22D and the lower fixing member 52F Except that the upper and lower breaking portions 54J and 54K are respectively coupled to the upper fixing member 22D and the lower fixing member 52F by the respective coupling bolts 60 in a state of being disposed outside or inside of the upper fixing member 22D And is the same as the above-described embodiment.

5 is a cross-sectional view illustrating an elastic support according to a fifth embodiment of the present invention.

5, the elastic supporter according to the fifth embodiment includes an upper fixing member 22D constituting the upper wedge 22 and a lower wedge 50, And a lower fixing member 52F which is welded to and joined to the upper surface of the lower plate 30 with a lower engaging groove 52E opened downward and in the longitudinal direction.

At this time, the lower end of the upper fixing member 22D is directly coupled to the lower fixing member 52F by the coupling bolt 60 while being inserted into the lower coupling groove 52E. That is, the coupling bolt 60 passes through the outer region of the lower fixing member 52F, and then passes through the upper fixing member 22D and is fastened to the fastening hole 52A formed in the inner region of the fixing member 52F .

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While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, it should be understood that such modifications or alterations should not be understood individually from the technical spirit and viewpoint of the present invention, and that modified embodiments fall within the scope of the claims of the present invention.

20: upper plate 22: upper wedge
22D, 22G: upper fixing member 22E: upper fixing groove
22F: fastening hole 22H: upper fastening hole
30: Lower plate 40: Elastic pad
50: lower wedge 52: fixing member
52A: fastening hole 52D: insertion groove
52E: lower engaging groove 52F, 52G: lower fixing member
52H: Lower coupling ball
54: rupture member 54C: notch
54J: upper rupture portion 54K: lower rupture portion
60: coupling bolt

Claims (4)

delete An elastic pad disposed between the top plate and the bottom plate; a top wedge coupled to the bottom edges of both edges of the top plate; and a top wedge disposed on both edges of the bottom plate, And a lower wedge provided on the upper surface,
The upper wedge
An upper fixing member which is composed of an upper fixing member which is composed solely and is welded to the bottom surface of the upper plate or which is welded to the bottom surface of the upper plate with an upper coupling groove opened downward and both sides in the longitudinal direction, under,
The lower wedge
And a lower fixing member which is composed of a lower fixing member welded to the upper surface of the lower plate and welded to the upper surface of the lower plate with upper and lower coupling grooves opened upwardly and longitudinally,
The upper wedge and the lower wedge,
A breaking member formed with a breaking notch with a reduced cross-sectional area at an intermediate portion, a cross-sectional area of both sides of the intermediate portion being different from each other, and an upper rupture portion and a lower rupture portion with an intermediate portion as a reference; Wherein the lower fixing member and the lower wedge are coupled to the fixing member and the lower fixing member such that the upper wedge and the lower wedge are horizontally held in the direction of the elastic pad from the outside to the upper fixing member and the upper rupture portion, And are coupled and coupled to each other in correspondence with the negative reaction force by the respective coupling bolts which are respectively inserted through the coupling bolts,
In the case where the upper fixing member of the upper wedge and the lower fixing member of the lower wedge are constituted individually,
Wherein the breaking members are coupled to the upper fixing member and the lower fixing member by the coupling bolts in a state where the pair of breaking members are disposed on the outer side and the inner side of the upper fixing member and the lower fixing member, respectively,
An elastic bearing for a bridge having a negative reaction force function. An elastic pad disposed between the top plate and the bottom plate; a top wedge coupled to the bottom edges of both edges of the top plate; and a top wedge disposed on both edges of the bottom plate, And a lower wedge provided on the upper surface,
The upper wedge
An upper fixing member which is composed of an upper fixing member which is composed solely and is welded to the bottom surface of the upper plate or which is welded to the bottom surface of the upper plate with an upper coupling groove opened downward and both sides in the longitudinal direction, under,
The lower wedge
And a lower fixing member which is composed of a lower fixing member welded to the upper surface of the lower plate and welded to the upper surface of the lower plate with upper and lower coupling grooves opened upwardly and longitudinally,
The upper wedge and the lower wedge,
A breaking member formed with a breaking notch with a reduced cross-sectional area at an intermediate portion, a cross-sectional area of both sides of the intermediate portion being different from each other, and an upper rupture portion and a lower rupture portion with an intermediate portion as a reference; Wherein the lower fixing member and the lower wedge are coupled to the fixing member and the lower fixing member such that the upper wedge and the lower wedge are horizontally held in the direction of the elastic pad from the outside to the upper fixing member and the upper rupture portion, And are coupled and coupled to each other in correspondence with the negative reaction force by the respective coupling bolts which are respectively inserted through the coupling bolts,
In the case where the upper fixing member of the upper wedge and the lower fixing member of the lower wedge are constituted individually,
Wherein the breaking member is independently connected to the upper fixing member and the lower fixing member by the coupling bolt in a state where the breaking member is disposed outside or inside the upper fixing member and the lower fixing member,
An elastic bearing for a bridge having a negative reaction force function. An elastic pad disposed between the top plate and the bottom plate; a top wedge coupled to the bottom edges of both edges of the top plate; and a top wedge disposed on both edges of the bottom plate, And a lower wedge provided on the upper surface,
The upper wedge
An upper fixing member which is composed of an upper fixing member which is composed solely and is welded to the bottom surface of the upper plate or which is welded to the bottom surface of the upper plate with an upper coupling groove opened downward and both sides in the longitudinal direction, under,
The lower wedge
And a lower fixing member which is composed of a lower fixing member welded to the upper surface of the lower plate and welded to the upper surface of the lower plate with a lower coupling groove opened upward and in the longitudinal direction,
The upper wedge and the lower wedge,
A breaking member formed with a breaking notch with a reduced cross-sectional area at an intermediate portion, a cross-sectional area of both sides of the intermediate portion being different from each other, and an upper rupture portion and a lower rupture portion with an intermediate portion as a reference; Wherein the lower fixing member and the lower wedge are coupled to the fixing member and the lower fixing member such that the upper wedge and the lower wedge are horizontally held in the direction of the elastic pad from the outside to the upper fixing member and the upper rupture portion, And are coupled and coupled to each other in correspondence with the negative reaction force by the respective coupling bolts which are respectively inserted through the coupling bolts,
Wherein the upper fixing member is formed with an upper coupling groove which is opened in both the downward direction and the longitudinal direction,
Wherein the lower fixing member is formed with a lower engaging groove which is open in both the upward and longitudinal directions,
The upper region of the breaking member is inserted into the upper coupling groove in a longitudinal direction while the lower region is slid in the longitudinal direction of the lower coupling groove and inserted into the upper fixing member and the lower fixing member ≪ / RTI >
An elastic bearing for a bridge having a negative reaction force function.

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