SU1627765A1 - Vibration insulator - Google Patents

Abstract

The invention relates to mechanical engineering. The aim of the invention is to increase the vibration insulation properties by reducing the transmission coefficient. The cylindrical element 6 is made in the form of elastic elements bent to the axis of the vibration isolator of the friction element installed in the radial slots x 12 of the friction element 7 in the form of an o6oftMiii ring. The friction element 7 is installed in the annular groove 13 of the housing 1 with radial and axial clearances. This allows an increase in the relative displacements to jumpwise change the rigidity of the vibration isolator and, as a result, to reduce the transmission coefficient. 1 il.

Description

The invention relates to mechanical engineering and can be used to protect against vibration.

The purpose of the invention is the improvement of vibration isolation properties by reducing the transmission coefficient.

The drawing shows a vibration isolator, a longitudinal section.

The vibration isolator comprises a hollow body 1, a damping device 2 installed therein in the form of coaxially arranged washers 3 and 4 and a friction washer 5 installed between them, a cylindrical element 6, a friction element 7 located on its side surfaces, two coaxially mounted conical springs 8 and 9, pressed by extreme turns to the washers 3 and 4 and the housing 1. The cylindrical element 6 is made in the form of elastic elements bent towards the axis of the vibration isolator, rigidly connected at the ends by rings 10 and 11. The friction element 7 is made in the form of a ring Eve cage with radial slots 12 for mounting the cylindrical member 6. On the inner surface of the housing I an annular groove for mounting the friction element 7, axial and radial gaps.

Vibroeolator works as follows.

At small relative displacements during actions directed along the axis of the vibration isolator _{1, the} friction element 7 is not pressed to the housing 1 due to the axial clearance, therefore, there is no friction in the system. When the relative displacements increase, the axial clearance is selected And the friction element 7 is displaced in the axial direction with friction relative to the cylindrical element 6. Due to the cylindrical element 6 being made in the form of elastic elements curved towards the axis of the vibration isolator, the friction force increases with relative displacements. The stiffness of the vibration isolator changes, which leads to a detuning from resonance.

With a further increase in the relative displacements, the coils of the springs 8 and 9. will be laid on the housing 1. At the same time, the stiffness of the vibration isolator is stepwise, 0 changes, which ensures double detuning from resonant frequencies. Under impacts directed perpendicular to the axis of the vibration isolator, at small displacements, the friction, 5 element 7 is pressed against the housing 1 due to the radial clearance. With an increase in relative displacements, the gap is selected and the friction element 7 begins to shift 20 relative to the washers 3 and 4. In this case, the cylindrical element 6 is turned on, due to which the stiffness of the vibration isolator changes abruptly.

Claims (1)

Claim A vibration isolator containing a housing, a cylindrical element installed in it, a friction element located on its lateral surface, a damping device installed in the cylindrical element in the form of two coaxially arranged washers with a friction washer between them, conical springs interacting with 35 smaller bases with washers and large - with a housing, characterized in that, in order to improve vibration isolation properties, the cylindrical element is made in the form of elastic elements curved towards the axis of the vibration isolator, knitted with one another, the friction element is in the form of an annular collar with a thinned zyami for mounting elastic elements in the body an annular groove and an annular cage mounted in the latter with the axial and radial gaps.