SU789646A1 - Earthquake-proof bridge - Google Patents

Description

The invention relates to bridge construction and can be used in the construction of bridges in seismic areas.

A bridge is known, which includes supports and a span installed on them through the supporting parts, and the supporting ⁵ parts are made in the vice of a cylindrical rubber support block with an annular screed mounted on its side surface. [1].

The disadvantage of this bridge is its low damping ability under seismic action due to the fact that the restoring force arises only due to the damping of the rubber support block.

Closest to the proposed one is an earthquake-resistant bridge, including supports with vertical holes in the upper part, spans and _m supporting parts, at least one of which is made in the form of a cylindrical rubber support block having through holes, a rigid element and rod clamps, installed | in the corresponding holes in the support and in the rubber support block and interacting with the rigid element, the hard element being mounted on the rubber support block and made with recesses under the rod clamps, rigidly fixed by the lower ends in the corresponding holes in the upper part of the support, and between the rigid element and the span there is an anti-friction gasket and upper support plate with side stops contacting through the intermediate elements with the rigid element pj.

The disadvantage of this seismic-resistant bridge is the relatively low damping ability of the support parts during seismic impacts due to the rigid fixing of the rod clamps in the supports and the exclusion of possible lateral movements of the span with stops on the upper base plate.

The purpose of the invention is to increase the damping ability of the support parts during seismic effects.

The specified goal is achieved by the fact that. in an earthquake-resistant bridge, including supports having vertical holes in the upper part, a span and supporting parts, at least one of which is made in the form of a cylindrical rubber support block having through holes, a rigid element and rod clamps installed in the corresponding holes in the support and at least one and from the supporting parts it is provided with additional rod clamps and an annular coupler, the rigid element is vulcanized inside the rubber support block and made in the form of an ellipsoid of revolution, the main and additional rod clamps are rigidly fixed at one end, respectively, in the lower and upper parts of the rigid element, and the other ends are freely installed in the holes respectively, in the upper part of the support and in the lower part of the span, and the annular screed is mounted on the side surface of the rubber support th block.

The drawing shows an earthquake-resistant bridge, a longitudinal section in the support section.

The bridge includes supports 1 and the span 2, having respectively in the upper and lower parts of the coaxial vertical holes 3 and 4.

Between the support 1 and the span 2 there is a support part consisting of a cylindrical support unit 5 with a rigid element 6 vulcanized inside it, having the shape of an ellipsoid of revolution, and an annular coupler 7 mounted on the side surface of the support unit 5.

On the upper and lower surfaces of the rigid element, additional 8 and main 9 rod clamps are fixed at one end, respectively, which are freely installed by the other ends in the coaxial holes 4 and 3, respectively.

The earthquake-resistant bridge works as follows.

'' When the forces on the span structure are affected by temperature extremes and from temporary and temporary loads, the rubber support block 5 deforms above 5 and below the ring tie 7. When seismic vibrations occur, the support 1 moves relative to the span 2, which leads to the displacement of the shape of an ellipsoid of a hard element _1: ^ 0 ment 6 and the appearance of gravitational ones.

restoring forces and restoring forces due to the elastic deformation of the rubber support block, providing effective damping of the bridge oscillations15.

Claims (2)

The invention relates to bridge construction and can be used in the construction of bridges in seismic regions. A bridge is known, which includes supports and a superstructure installed on them through the supporting parts, the supporting parts being made in the vice cylindrical rubber support block with an annular tie set fixed on its lateral surface. 1. The disadvantage of this bridge lies in its low damping capacity due to seismic effects due to the fact that the restoring force arises only due to the damping of the rubber support block. The seismic resistant bridge is the closest to the proposed one, which includes vertical supports in the upper part, a span structure and support parts, at least one of which is made up of a cylindrical rubber support block with through holes, a rigid element and core clamps installed 1 corresponding holes in the support and in the rubber support block and interacting with the rigid element, the rigid element being mounted on the rubber support block and made with recesses Rod clamps rigidly fixed to the lower ends in the corresponding holes in the upper part of the support, and between the rigid element and the span structure the anti-friction gasket and the upper support plate are placed with side stops in contact with the rigid element GZ through intermediate elements. The disadvantage of this earthquake-resistant bridge lies in the relatively low damping capacity of the bearing parts under seismic effects due to the rigid fixing of the rod clamps in the supports and the exclusion of possible lateral movements of the span with stops on the upper support plate. The purpose of the invention is to increase the damping capacity of supporting parts under seismic effects. This goal is achieved by the fact that in an earthquake-resistant bridge, which includes vertical support holes in the upper part, a span structure and supporting parts, at least one of them is made in the form of a cylindrical rubber support block with through holes, the element and sternschee clamps installed in the corresponding holes in the support and in the rubber support block and interacting with the rigid element in the lower part of the superstructure are made holes coaxial with the corresponding holes the upper part of the supports, at least one of the support parts is provided with additional rod locks and the ring-mounted rigid element is vulcanized inside the rubber support block and is made in the form of an ellipsoid of rotation, the main and additional rod locks are rigidly fixed with one end respectively in the lower and upper parts of the rigid element, while the other ends are loosely installed in the holes in the upper part of the support and in the lower part of the superstructure, respectively, with the ring fastening and on the side of the rubber support block. The drawing shows a seismic bridge, a longitudinal section in the supra-support section. The bridge includes supports 1 and a span structure 2, having coaxial vertices 3 and 4 respectively in the upper and lower parts. Between support 1 and span structure 2 there is a support part consisting of a cylindrical support block 5 with vulcanized inside it a rigid element 6, having the form of an ellipsoid of rotation, and an annular tie 7, mounted on the lateral surface of the support block 5. On the upper and lower surfaces of the rigid element are fixed by one ends, respectively, additional 8 and main 9 fixed rods Atori, freely installed by other ends in coaxial holes, respectively 4 and 3. The seismic resistant bridge works as follows. When exposed to the span of silium from temperature and time. The deformation of the rubber of the support block 5 is higher than the annular clamp 7. When the seismic vibrations occur, the support 1 is displaced relative to the span structure and 2, which causes the displacement of the rigid ellipsoid 6 and the formation of gravitational ones. reducing forces and restoring forces due to the elastic deformation of the rubber support block, ensuring effective damping of bridge oscillations. Claims of the invention: A seismic resistant bridge, comprising vertical supports in the upper part, a span structure and support parts, at least one of which is made in the form of a cylindrical rubber support block with through holes, a rigid element and core clamps installed in the corresponding holes in the support and in the rubber support block and interacting with the rigid element, characterized in that, in order to increase the damping capacity of the support parts during seismic effects in the lower part of the superstructure, holes are made coaxial with corresponding holes in the upper part of the supports; at least one of the supporting parts is provided with additional core clamps and an annular clamp; the rigid element is vulcanised inside the rubber support block and is elliptical in shape rotation, the main and additional core clamps are rigidly fixed with one ends respectively in the lower and upper parts of the rigid element, while the other ends are loosely installed in the holes corresponding to enio in the upper part of the support and the bottom of the span structure, wherein the ring is fastened to the bale tie. side surface of the rubber support block. Sources of information taken into account in examination 1, Japan Patent Ns 46-99836 Cl. 87 C 14, 1976. 2. The patent of Great Britain; No. 1356839, cl. F 2 A, 1974.