RU2017127829A - DOUBLE VIBRATION ISOLATING SYSTEM - Google Patents

Claims (2)

A dual vibration-isolating system containing a base, a support platform and an elastic element located between them, made in the form of a cylindrical equal-frequency spring with a variable pitch t, ensuring the constancy of the natural frequency of the system at any loads P from a given range: P ₁ ≤P≤P ₂ , for account of its precipitation δ:

where P ₁ and P ₂ respectively the minimum and maximum loads under which the conditions of equal frequency are maintained; P is a load satisfying the condition P ₁ ≤P≤P ₂ ; δ ₁ - a given initial spring draft, corresponding to the minimum load P ₁ , and the condition of equal frequency: the frequency of the natural oscillations of the vibration-insulated system is constant when the mass of this system changes within the specified limits, the system contains at least two spring-frequency equal-frequency vibration isolators with equally-frequency springs symmetrically installed relative to the support platform, while the lower flange of the equal-frequency spring of each vibration isolator is mounted on an elastic base, and the upper one on the base plate, and on the base the platform, by means of fasteners, a vibration-isolating object with a variable technological mass is fixed, and the platform is connected with support nodes mounted on the support plate of each vibration isolator using vertical and horizontal levers with axial-symmetrical adjustment bolts with equal-frequency springs, rigidly connected to bushings covering the adjustment bolts nuts, and each of the support nodes contains vibration damping bushings, coaxially mounted with adjusting bolts, at The lower flange of the equal-frequency spring of each vibration isolator is mounted on an elastic base, which is connected to the lower platform of the vibration isolator by at least three pillars with screws and coaxially located outside the pillars, and under the elastic base of the lower flange of the equal-frequency spring, it is axisymmetric to it , a cylindrical-conical damper, for example from an elastomer, mounted with its cylindrical part on the lower platform of each vibration isolator, is placed, and the conical part is connected with an elastic With the help of an equal-frequency spring, the cylindrical-conical damper is made in the form of conically and cylindrical coil springs in series, the turns of which are covered with an elastomer layer, for example polyurethane, characterized in that the elastic base on which the lower flange of the equal-frequency vibration isolator spring is fixed is made combined, consisting of alternating layers of elastic material, such as spring steel sheet, and layers of vibration damping material, such as hard grades of vibration damping m materials such as agate, antivibrate, shvim plastic compound, and inside the equal-frequency springs, axially symmetrically and coaxially to each of them, are placed elastic-damping devices made of, for example, elastomer, while their lower part is mounted on an elastic base, and the upper one - on the base plate of the vibration isolator, and under the support platform, by means of fasteners, an elastic-damping element is made, made in the form of an arched type rubber vibration isolator containing a housing, and an elastic element of elastomer, mutually acting with the object, the housing being made in the form of an upper plate with mounting and fixing holes resting on the upper end of the elastic element and a lower plate made of a trough-shaped shape with holes for fastening to the base, and the profile of the side surfaces of the elastic element is made hyperbolic in in the form of a bar of equal resistance having constant stiffness in the axial and transverse directions, and the ratio of the width of the vibration absorber A to its height B is 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 of the upper plate C is in the optimal ratio of values: D / C = 1.4 ... 1.7.