SU1041616A1 - Earthquake-proof bridge - Google Patents

Abstract

SEISM RESISTANT BRIDGE, including spans, supports and foundations for them, each of which is separated from the body of the corresponding support by a gasket and combined with a support by means of high-strength: high-strength beams, characterized in that, in order to increase the stability of the bridge during seismic effects, the support and the foundations are provided with hooks bent up and down, respectively, hooks, staggered in a staggered manner on the areas of the side faces of the body of the corresponding support adjacent to the gasket and the foundations along their perimeter, and The beams are articulated and are one piece in the form of a zigzag cable that goes round the hook in succession, and each gasket consists of metal and antifriction polymer plates laid on it. (L Sod Od

Description

The invention relates to bridge construction and can be used in bridge structures built in seismic regions. A seismic resistant bridge is known, which includes embankments of approaches, foundations, intermediate supports, continuous cutting or spliced span structures, installed on foundations and supports through comprehensive movable support parts and provided with ends with anchor cable straps, anchored into the approaches and located at each from the ends of the bridge in the form of a cross in terms of the system of beams located at angles. scrap to the longitudinal axis of the bridge 1. The lack of this earthquake-resistant bridge consists in the perception of significant seismic effects by the supports, which, due to the relatively low efficiency of damping of the oscillations of the supports, can lead to their destruction regardless of the presence of anchor legs ukrylennyh on the ends of the span. Closest to the proposed technical essence and the achieved effect is an earthquake-resistant bridge, including spans, pillars and foundations for them, each of which is separated from the body of the corresponding pads by gasket and combined with the support by means of high-strength beams. The gaskets are made of elastic material, and the tension pushes are located vertically in the body of the support and anchored by the upper ends in the heads of the support, and the lower ends in the corresponding support under it 2. The lack of an earthquake-resistant bridge lies in the relatively low stability of its significant seismic effects due to the possibility of swinging the support body on elastic laying and breaking at this anchoring of the beams. The purpose of the invention is to increase the stability of the bridge during seismic effects. This goal is achieved by the fact that in an earthquake-resistant bridge, including spans, supports and foundations for them, each of which is separated from the body of the corresponding support by a gasket ji combined with the support by means of tensioned high-strength beams, the supports and foundations are provided with hooks bent up and down respectively, staggered in the staggered regions of the side faces of the body of the corresponding support and the foundation adjacent to the strip along the perimeter of them, and the tension beams are integrally formed in the form of enveloping the hooks of the zigzag cable, and each gasket consists of metal and antifriction polymer plates laid on it. The drawing shows an antiseismic bridge, axonometric projection. . The seismic bridge includes spans 1, supports 2 and foundations 3 for them, each of which is separated from the body of the corresponding support 2 by a gasket, an integral composite of metal 4 and antifriction polymeric 5 plates laid on it, and, combined with a support by means of a tensioned high-strength zigzag of the cable 6. On the 4 and 5 parts of the lateral faces adjacent to the plates, the bodies of the support 2 and the founditite 3, along the perimeter of them, the hooks 7 are bent respectively upward and downward in a staggered order An ap- plied zigzag cable 6, fastened at the ends by means of clips 8. The seismic resistant bridge works as follows. With a seismic shock, the foundation 3 moves in a horizontal direction, and the support 2, separated from the foundation 3 by an antifriction insulating plate 5, retains its original position. The zigzag continuous cable 6 informs the support 2 of the push gradually due to the large damping capacity, while retaining the support against tipping. The use of the proposed technical solution provides a seismic reduction, affecting the supports and spans, increasing resistance against overturning.

Claims (1)

SEISMIC RESISTANT BRIDGE, including spans, supports and foundations underneath, each of which is separated from the body of the corresponding support by a gasket and connected to the support by means of tensioned ones! high-strength beams, characterized in that, in order to increase the stability of the bridge under seismic influences, the supports and foundations are equipped with hooks bent up and down respectively, fixed in a checkerboard pattern and adjacent to the laying sections of the side faces of the body of the corresponding support and foundation around their perimeter, the beams are made integrally in the form of a sequentially enveloping hook of a zigzag cable, and each gasket consists of a metal and antifriction polymer layer laid on it Astin.