RU2018110511A - METHOD OF TESTING MULTI-MASS SYSTEMS OF VIBROINSULATION - Google Patents

Claims (5)

A test method for multi-mass vibration isolation systems, namely, that a rigid bulkhead with a vibration level sensor is fixed on the base, onto which two identical objects under study are mounted on different vibration isolation systems, and their amplitude-frequency characteristics are measured, and a rigid one is fixed on the base through a vibration damping pad a bulkhead on which two identical objects under study are installed, for example, on-board compressors, while one compressor is installed on standard rubber x vibration isolators, and another compressor is installed on the studied two-mass vibration isolation system, which includes rubber vibration isolators and an elastic damping intermediate plate with vibration isolators, for example in the form of polyurethane plates, while a vibration level sensor is attached to the rigid bulkhead, which is connected to the amplifier and spectrometer, then turn on the first compressor, and take the amplitude-frequency characteristics of the system, then turn off the first compressor, and turn on the second compressor, which installed n on the studied two-mass vibration isolation system, which includes rubber vibration isolators and an elastic damping intermediate plate with vibration isolators, and also remove the amplitude-frequency characteristics, after which they compare the obtained characteristics from the operation of each of the compressors, and draw conclusions about the effectiveness of vibration isolation of each system on which they installed, and to determine the eigenfrequencies of each of the studied vibration isolation systems, simulate shock impulse loads on each of the systems and Oscillograms of free oscillations are recorded, and the logarithmic attenuation coefficient δ _{1 of the} oscillatory system is determined by the following dependence:

where c ₁ and m ₁ - respectively, the stiffness of the elastic elements of the plate and its mass; with ₂ and m ₂ - respectively, the stiffness of the vibration isolators and the mass of the compressor, h ₁ is the absolute value of viscous damping in the vibration isolation system, and to determine the eigenfrequencies of each of the studied vibration isolation systems, shock impulse loads are imitated on each of the systems using a diagnostic shock device containing a housing, a piezoelectric dynamometer and a shock element, the shock element is made quick-change, located coaxially to the body, made of elastomer, and by means of a sleeve attached to a membrane transmitting element mounted on a cylindrical to the housing through a flange located perpendicular to the axis of the housing, with screws, and inside the housing, and coaxial to it, is a membrane transmitting element that has a cylindrical-conical part installed in the housing with a toroidal gap in the lower part, having a petal shape in cross section of the torus-forming surface characterized in that the membrane transmitting element is connected by a threaded part of the stud located along the axis of the housing with the bulk of the percussion device in contact with the piezoelectric dynamometer, trapped in a dielectric protective sheath, while the voltage arising from shock or accidental influences is removed from the piezoelectric dynamometer through a contact element fixed in the housing and connected by a wire to a contact element fixed in the hollow cylindrical handle of the percussion device, while the wire is fixed in a clamp, rigidly connected to the outer surface of the handle, the axis of which is perpendicular to the axis of the housing, and which, through the threaded part, is rigidly fixed in the threaded hole stii bulk, above which there is the additional mass of the percussion device.