SU1794143A3 - Antiseismic support - Google Patents

Description

The invention relates to construction, namely to structures for seismic protection of buildings, structures and various heavy technological equipment.

Known anti-seismic support, which is a design, the main constituent elements of which are plates with significant rigidity, and elastic plates with viscoplasticity. The plates are arranged alternately one after the other and are enclosed between the base plates.

A disadvantage of the known support is its low stability at maximum loads, due to the violation of the ratio of its diameter to height, characteristic of such supports, as well as the low efficiency of seismic energy absorption.

A well-known design of a seismic support, including a block of layer-by-layer metal and rubber plates with placement in it along the axis of a lead cylindrical core.

The disadvantage of this design is that the shear deformation of the support has a “hard” characteristic, determined by the fact that at the very beginning of the movement of the block of plates in the horizontal direction, a simultaneous shear of the lead cylindrical rod is also realized. In this case, despite the plasticity, the presence of a lead rod in the supports during seismic waves with steep fronts causes more than significant shear rigidity of the supports, and this, accordingly, reduces their efficiency.

The aim of the invention is to improve the efficiency of damping seismic effects,

The essence of the invention lies in the fact that in an anti-seismic support containing a block of layered metal and rubber plates with a lead cylindrical core placed inside it along the axis, the block is equipped with a conical sleeve expanding towards the base of the block, placed around the core, made of rubber with an elastic modulus exceeding modulus of elasticity of rubber plates.

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The drawing shows a cross section of anti-seismic support.

The described support consists of metal support 1 and intermediate 2 plates, rubber plates 3, a lead cylindrical rod 4 and a conical rubber bushing 5. Moreover, the modulus of elasticity of the rubber from which the conical bushing 5 is made exceeds the similar characteristic of the rubber plates 3.

Antiseismic support works as follows.

In the event of seismic waves with a high steepness of the rise of the pulse front and a small amplitude of vibration damping, it will be realized only due to the deformation of the shear of the rubber plates 3 and at the same time the deformation of the conical rubber bushing 5: This process will occur, to a greater extent, in that area of the plates 3 and the conical bushing 5, where the cross section of the latter is maximum. There is no horizontal movement of the seismic isolation object in this case. For seismic waves with a gentle rise of the pulse front and a significant amplitude, the damping of vibrations in the support occurs stepwise. First, as in the case described above, the rubber plates 3 will be moved in the horizontal direction, as well as the deformation of the conical sleeve 5. Next, the lead cylindrical rod 4 will be plastically deformed. character due to the nonlinearity due to the introduction of a conical sleeve 5 into the design, which is more rigid than the rubber plates 3 and less rigid than the lead cylindrical rod 4.

The use of an anti-seismic support ensures effective damping of vibrations of natural and technological origin in a wide frequency amplitude spectrum.

Claims (1)

Claim Antiseismic support, including a block of layered metal and rubber plates with a lead cylindrical core placed in it along the axis, characterized in that, in order to increase the efficiency of damping seismic effects, the block is equipped with a conical bushing, expanding towards the base of the block, made of rubber with a modulus of elasticity greater than the modulus of elasticity of the rubber plates,