SU737547A1 - Apparatus for damping oscillation of split span structure of a bridge - Google Patents

Description

(54) DEVICE FOR EXTINGUISHING VIBRATIONS OF CUTTING BRIDGE SPACES

I

The invention relates to bridge construction and can be used to dampen vibrations of split bridge span structures, mainly for seismic areas.

A device for damping oscillations of split span structures of a bridge is known, which includes lower and upper communicating damping devices, each of which is designed as a cylinder with a piston attached to the end faces of adjacent span structures facing each other and filled with non-freezing working fluid 1.

The disadvantage of this device lies in the considerable complexity of the manufacture and installation of damping devices in the form of a communicating guide ;; ; cylinders due to the need to comply with stringent requirements to ensure the tightness of the hydraulic system. In addition, the device is unreliable in operation due to the possible leakage of fluid with significant fluctuations in the temperature of the outside air, as well as due to the lack of devices that compensate for the temperature deformations of the span structures.

It is also known a device for damping oscillations of split span structures of a bridge, including upper and lower damping devices placed in the gap between the ends of adjacent span structures, made in the form of bellows interconnected by a pipeline, temperature compensator, and the device is equipped with an additional bellow mounted in the pipeline with longitudinal corrugations, and the compensator is made in the form of a twisted bimetallic spring, mounted on the surface of the additional bellows 2.

A disadvantage of the known device is also 15 to 1, also due to the low reliability of its operation, due to the instability of the operation of a twisted bimetallic spring with significant temperature fluctuations.

The purpose of the invention is to increase the reliability of the device.

This is achieved by the fact that the device for damping oscillations of split span structures of the bridge, including placed in the gap between the ends of adjacent span structures, damping the upper and lower fixtures made in the form of bellows interconnected by a pipeline, the temperature compensator is equipped with adjustable hydraulic resistance mounted into the pipeline and an additional pipeline, and the temperature compensator is made in the form of a tank with a valve embedded in the additional pipeline d.

FIG. 1 shows the described device, a general view; in fig. 2 shows section A-A in FIG. one.

The device contains upper and lower damping devices made in the form of bellows 1, 2 filled with non-freezing working fluid, fixed on facing each other of adjacent spans 3, 4 and interconnected by pipeline 5 with built-in adjustable hydraulic resistance 6, for example, valve type.

The device is also provided with an additional pipeline 7, corresponding to the main pipeline 5, and a temperature compensator, made in the form of a tank 8 with a valve 9, mounted in an additional pipeline 7.

The device works as follows

When loading the spans 3, 4, the bellows 2 is under compression, and the bellows 1 is under tension. The working fluid from the bellows 2, with the effort of overcoming the hydraulic resistance 6, passes into the bellows 1 and is thus bypassed until the oscillations damp out under the influence of the damping force of the hydraulic resistance 6. In case of a temperature change or in the presence of seismic or braking effects on the span, the working fluid the bellows is squeezed through valve 9 in e DEF 8, which is a compensator, and valve 9 is set to force a few

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greater than hydraulic drag force b. In case of reverse deformations, the working fluid is drawn back into the bellows due to their rigid attachment to the spans.

The described device provides perception of braking or seismic horizontal effects on spans and reliable operation during operation regardless of climatic conditions, as well as compensation for thermal deformations and variable volume flow rates of working fluid from one bellows to another due to the presence of a compensation capacitance.

Claims (2)

1.Kachurin V.K. On the use of temperature compensators in bridges. Lime universities. “Construction and Architecture 1963, No. 11 - 12, p. 156, 157, 159, fig. 2 2. USSR author's certificate for application number 2539840/33, cl. E 01 D 9/02, 01.11.77