RU2020135179A - STAND FOR INVESTIGATION OF EQUIPMENT WITH VIBRATION ISOLATION SYSTEM - Google Patents

Claims (6)

1. Stand for the study of equipment with a vibration isolation system, containing a base on which, by means of elastic elements, an additional elastic bulkhead is installed, which, through vibration damping gaskets, is connected to a rigid bulkhead for aircraft equipment, for example, two onboard compressors for producing compressed air on board the aircraft, when In this case, the first compressor is installed on standard rubber vibration isolators, and the second compressor is installed on the investigated two-mass vibration isolation system, which includes rubber vibration isolators and an elastically damping intermediate plate with vibration isolators in the form of polyurethane plates, which, like the standard rubber vibration isolators of the first compressor, are installed on a rigid bulkhead, which, through vibration damping pads, is installed on an additional bulkhead mounted on a base located in the body of the aircraft, by means of elastic elements, while on a rigid bulkhead, between the compressors, a vibration sensor is fixed, the signal from which goes to the amplifier and then to the equipment that registers the vibrations, for example, an octave spectrometer operating in the frequency band (Hz): 2; 4; eight; sixteen; 31.5; 63; 125; 250; 500; 1000; 2000; 4000; 8000 Hz, characterized in that on the additional bulkhead, on which a rigid bulkhead is installed through vibration damping pads, with a sensor and onboard compressors installed on it, the first and second, a sensor of relative displacements of the rigid bulkhead is additionally installed relative to the additional bulkhead installed by means of elastic elements on the base located in the body of the aircraft, while in order to conduct a harmonic analysis of the vibration isolating system, the second compressor is mounted on an elastically damping intermediate plate with vibration isolators, as well as to identify the vibration isolating properties of vibration isolators, and select their optimal parameters, a sensor is additionally installed on the elastically damping intermediate plate to measure its amplitude- frequency characteristics, the signal from which is fed to the amplifier and spectrometer. 2. Stand for the study of equipment according to claim 1, characterized in that an automatic device is mounted on a rigid bulkhead, connected to a spectrometer and capable of changing the rigidity of the vibration-damping pad, depending on the signal coming to it from the spectrometer, while in the case of fixation by the spectrometer, the maximum - admissible signals from a sensor that measures the relative displacements between the additional bulkhead and the base located in the aircraft body, the vibration damping pad is made with elements that allow changing its rigidity, for example, with elements made using an electrorheological fluid that changes its viscosity when a signal is received from an automatic devices. 3. Stand for the study of equipment according to claim 1, characterized in that in order to analyze the maximum amplitude of oscillations of the individual constituent elements of the vibration isolation system, a relative displacement sensor is additionally installed between the additional bulkhead and the rigid bulkhead to measure the amplitude of oscillations, the signal from which is fed to the amplifier and spectrometer. 4. The stand for the study of equipment according to claim 1, characterized in that each of the elastic elements located under the additional bulkhead on the base located in the body of the aircraft is made in the form of a mesh damper containing a cover and a base, between which a cylindrical helical spring is fixed , coaxially and coaxially to which, with upper and lower gaps relative to the cover and base, a bushing made of elastically damping material is fixed, on the inner surface of which a triangular profile ring is fixed with a vertex directed towards the axis of the helical spring and in contact with a torsional vibration damping device having an equidistant profile with a ring made of an elastomer with high friction properties, while the torsional vibration damping device has a cross-sectional profile in the form of two oppositely located surfaces of a truncated cone converging in the central part of the ring with their bases of smaller diameter, and the base holes of larger diameter directed towards the cover and the base, while a screw is fixed in the cover, passing with its smooth part through a cylindrical support located at the base of the larger diameter of the truncated cone, and its screw surface contacts the screw nut in a free non-self-locking fit, while the screw nut fixed on a rigid annular membrane, fixed at the level of oppositely located surfaces of a truncated cone, converging in the central part of the ring with their bases of smaller diameter. 5. Stand for the study of equipment according to claim 1, characterized in that each of the regular rubber vibration isolators, on which the first compressor is installed, consists of an elastomer array having a toroidal shape, while the rubber array consists of two coaxially located, equidistant and congruent , axisymmetric sealed cavities formed by the outer and inner walls, while in the inner cavity there is an elastic element in the form of a cylindrical spring, for centering which cylindrical protrusions are made in the rubber array, while the rubber array is vulcanized to the mounting plates, between the outer and inner walls of the array is made toroidal cavity. 6. Stand for the study of equipment according to claim 1, characterized in that each of the rubber vibration isolators, on which the second compressor is installed on an elastically damping intermediate plate, contains a housing and an elastic element made of elastomer that interacts with the object, the housing is made in the form of a sleeve resting on the upper end of the elastic element, and the ring connecting the housing with the base by means of a peripheral recess, and the profile of the side surfaces of the elastomer is made conical or hyperbolic in the form of a beam of equal resistance, having constant rigidity in the axial and transverse directions, while the ratio of the height of the vibration isolator h to the diameter D of the support surface is in the optimal ratio of values: h/D=0.45…0.55.