SU1588444A1 - Method of measuring effective mass of movable part of vibration exciter - Google Patents

Abstract

The invention relates to a vibration technique and can be used to measure the effective mass of a moving part of a vibration exciter. The aim of the invention is to improve the accuracy of measuring the effective mass of the movable part and expand the frequency range of measurements by eliminating the influence of the mechanical resistance of the foundation. The vibration exciter is mounted on a foundation with a mechanical resistance not equal to infinity, the vibration exciter is turned on and the latter is excited by a dynamic force with a given frequency of harmonic excitation. The levels of the oscillatory accelerations of the moving part A 1 and the case of the vibration exciter A 2 are increased. Increase the mass of the moving part by a predetermined value M and the levels of the oscillatory acceleration of the moving part A 11 and the body A 22 are measured at the same excitation frequency. The effective mass M 1 is determined by the formula M 1 = M / 10A 1 + A 22-A 11-A 2 / 20-1, where A 1, A 2, A 11, A 22 are the levels of vibrational accelerations in decibels.

Description

The invention relates to a vibration technique and can be used to measure the effective mass of a moving part of a vibration exciter.

The purpose of the invention is to improve the accuracy of measuring the effective mass of the moving part and expand the frequency range of measurements by eliminating the influence of the mechanical resistance of the foundation.

The method is implemented as follows.

The investigated exciter, for example, electrodynamic, is installed on a foundation with mechanical resistance not equal to infinity, turn on the vibration exciter and excite the latter with a dynamic force with a given

frequency of harmonic excitation. The levels of oscillatory accelerations of the moving part at and the housing of the vibration exciter 32 are measured. The vibration exciter is switched off and the mass of the vibration exciter is increased by a specified value M. The levels of the vibrational accelerations of the moving part au and the body of the vibration exciter a22 are re-measured. The effective mass of the moving part mi of the vibration exciter is determined by the formula

SL 00 00

mi

M

Q ai -f-a22 -ail - a2.

where M is the magnitude of the increase in mass of the moving part of the vibration exciter;

81.811 - levels of vibrational accelerations in decibels of the moving part of the vibration exciter, respectively, before and after increasing its mass;

82.82: 2 — vibrational acceleration levels in decibels of the casing of the vibration exciter, respectively, before and after increasing the mass of its moving part,

Claims (1)

The invention of the method for measuring the effective mass of a moving part of a vibration exciter, which consists in placing a vibration exciter on a foundation, exciting the latter with a dynamic force, measuring 0 five vibration parameters increase the mass of the moving part of the exciter by a given amount, re-excite the exciter with dynamic force, re-measure the oscillation parameters, taking into account which determine the effective mass of the movable part of the exciter, characterized in that, in order to improve accuracy and expand the frequency range of measurements, the mechanical resistance of the foundation is chosen not to be equal to infinity, and the vibration parameters are measured by the levels of the oscillatory accelerations of the moving part and Rampus of the exciter with the same frequency of exciting dynamic force.