RU2019142399A - VIBRATION INSULATION METHOD WITH VARIABLE DAMPING STRUCTURE - Google Patents

Claims (1)

The method of vibration isolation with a variable damping structure, which consists in the fact that in the vibration isolation system of objects with variable mass, for example, weaving machines, vibration isolation is carried out by means of elastic elements having internal damping, while damping is additionally introduced into the system in the entire frequency response range by separation friction surfaces, for example, a friction sleeve on the inner and outer surfaces with the possibility of adjusting the coefficient of friction by means of adjusting screws associated with an executive servo motor, for example a worm-type with a self-braking transmission, while the signal to turn on the servo motor is sent from a microprocessor that controls the operation of a dry friction damper made in in the form of a friction sleeve, according to a given characteristic, which is built when analyzing signals coming from a vibration acceleration sensor, made, for example, piezoelectric, while I separate the friction surfaces t by introducing limit stops on the inner surface of the friction sleeve and additional friction elements located on its body and interacting with its outer surface, while the coefficient of friction of the inner surface of the sleeve with a spring-loaded piston is smaller than the coefficient of friction of the outer surface of the sleeve with additional friction elements, and the adjustment of the friction coefficient of the outer surface of the bushing with additional friction elements is introduced by changing the force of pressing them to the surface of the bushing, characterized in that elastic elements are introduced between the end surfaces of the friction bushing and the body, which are tuned to the resonant frequency of the vibration isolator operating on an elastic element with combined damping , and carry out effective damping due to the speed of the transition to a stronger damping of the outer surface of the friction sleeve with friction elements, while introducing into the resonance nance friction sleeve and switch the vibration isolation system to a higher damping coefficient, then increase the damping at high frequencies by using an elastic element with combined damping, while the elastic element is made in the form of a mesh washer vibration isolator with a damping mesh washer package, in the central part of which, coaxially and with a gap, a rod is placed, the lower part of which is connected to the base of the vibration isolator, and the upper part to the platform for the object to be protected from vibration, while between the damping washer mesh package and the base of the vibration isolator, a package of upper and lower Belleville springs is fixed, and the lower Belleville spring with its lower base connected to the base of the vibration isolator, and its upper base is rigidly connected to the rod, while the elastic element with combined damping is made in the form of an arched rubber vibration isolator containing a body and an elastic element made of elastomer, interacting with the object, while the body is made in the form of an upper plate with mounting and fastening holes, resting on the upper end of the elastic element, and the lower plate, which is made in a trough-like shape with holes for attachment to the base, and the profile of the lateral surfaces of the elastic element is made hyperbolic, in in the form of a bar of equal resistance, having constant rigidity in the axial and transverse directions, and the ratio of the width of the vibration isolator A to its height B is performed in the optimal ratio of values: A / B = 1.4 ... 1.5, and the ratio of the length of the lower plate D to the length the upper plate C - being in the optimal ratio of values: D / C = 1.4 ... 1.7.