RU2018141669A - STAND FOR RESEARCH OF SHOCK LOADS OF VIBROINSULATION SYSTEMS - Google Patents

Claims (1)

A stand for studying the shock loads of vibration isolation systems, containing a base on which additional plates with vibration-insulated devices are mounted, and recording equipment, the equipment of aircraft is installed on the base, for example, two identical on-board compressors for receiving compressed air on board the aircraft, one compressor is installed on standard rubber vibration isolators, and the other 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, which, like regular rubber compressor vibration isolators, are mounted on a rigid overload compressor which through a vibration damping pad is installed on the base, and on a rigid bulkhead, between the compressors, a vibration sensor is fixed, the signal from which is fed to the amplifier and recording equipment, for example, an octave with spectrometer operating in the frequency band (Hz): 2; 4; 8; sixteen; 31.5; 63; 125; 250; 500; 1000; 2000; 4000; 8000 Hz, and then compare the obtained amplitude-frequency characteristics from the operation of each of the compressors, and draw conclusions about the effectiveness of the vibration isolation of each system on which they are installed, while to determine the natural frequencies of each of the studied vibration isolation systems, shock impulse loads are simulated for each of systems using a diagnostic shock device comprising a housing, a piezoelectric dynamometer and a shock element, the shock element is made of quick-change, located coaxially to the body, is made of elastomer, and by means of a sleeve is attached to a membrane transmitting element mounted on a cylindrical body by means of a flange located perpendicular to the axis of the body, with the help of screws, and inside the housing, and coaxially to it, is located a membrane transmitting element that has a cylindrical part installed in the housing with a toroidal gap in the lower part, having a petal shape in cross section of the torus surface, pr and 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 placed in the dielectric protective sheath, while the voltage arising from the shock or accidental influences is removed from the piezoelectric dynamometer through the contact element, fixed in the housing and connected by a wire with 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 is rigidly fixed in the threaded part the opening of the main mass, over which the additional mass of the percussion device, made in the form of a cylinder, and in which the axisymmetric threaded hole is made, into which the threaded part of the protrusion is integral with the main mass, which in turn, it is attached to the body by means of screws, and a stud head abuts against the end surface of the threaded portion of the protrusion, connecting the bulk of the percussion device with the membrane transmitting element through a piezoelectric dynamometer, in which a central axisymmetric hole is made through which the smooth cylindrical part of the stud passes, characterized in that on a base on which a rigid bulkhead is installed through a vibration damping pad with a sensor and on-board compressors installed on it, an additional sensor is installed to measure the amplitude-frequency characteristics of the base, the signal from which is fed to an amplifier and spectrometer, and to conduct a harmonic analysis of the vibration isolating system " the second compressor on an elastic-damping intermediate plate with vibration isolators ", as well as to identify the vibration-isolating properties of the vibration isolators and selecting their optimal parameters, is additionally installed on the elastic-damping intermediate plate a sensor for measuring its amplitude-frequency characteristics, the signal from which is fed to an amplifier and spectrometer.