SU1650976A1 - Vibration insulator - Google Patents

Abstract

The invention relates to mechanical engineering, in particular to devices for damping vibrations. The aim of the invention is to increase the efficiency of out-of-beam isolation due to the transformation of long-wave oscillations into short-wave and subsequent dissipation of the vibration energy. Metal plates 3, made in a longitudinal section in the form of a wedge, rolled into a helix from the thin end and connected to the base 2 at a distance from the thin end greater than one quarter of the plate length, convert the long wavelength vibrations to short wave. As a result, the vibration energy is dissipated when the free thin end of the plate 3 oscillates. The vibration damping coating of the plate 3 increases the amount of dissipated energy and reduces the resonant vibrations. 1 hp f-ly, 1 ill. to

Description

The invention relates to mechanical engineering, and in particular to devices for damping vibrations.

The purpose of the invention is to increase the efficiency of vibration isolation by transforming long-wave vibrations into short-wave ones and subsequent dissipation of vibration energy.

The drawing shows a vibration isolation jq tor, general view, longitudinal section.

The vibration isolator comprises an upper base 1 and a lower base 2, to which elastic elements made in the form of metal 15 plates 3 are connected. Each metal plate 3 in longitudinal section is a wedge and twisted into a spiral from the side of the thin end. The thickened ends of the metal plates 3 20 are connected to the upper base 1, and the lower base 2 is connected to each metal plate 3 by means of bolts 4 at a distance from the thin end greater than one quarter of the length of the plate. Metal plates 3 are coated with a vibration absorber.

Vibration isolator works as follows.

When working at low frequencies, the metal plates 3 operate on a) bend and do not have resonant vibrations. When operating at high frequencies in Metal Plates 3, Bending vibrations occur, which propagate from the thick end to the free thin end. In this case, the transformation of long-wave oscillations into short-wave ones occurs. The kinetic energy of vibration is dissipated by the oscillation of the free thin end of the metal plate 3, rolled into a spiral. Vibration-damping coating of metal plates 3 allows to increase the amount of vibrational energy dissipated in them and reduce resonance vibrations.

Claims (2)

Claim 1. A vibration isolator containing bases and elastic elements connected to the latter, each of which is made in the form of at least one arc-shaped metal plate, characterized in that, in order to increase the vibration isolation efficiency, the metal plate in the longitudinal section is a wedge, rolled up in a spiral from the side of the thin end and connected to one of the bases at a distance from the thin end greater than one quarter of the length of the plate. 2. The vibration isolator according to claim 1, characterized in that the metal plate is coated with a vibration absorber. -