RU2019133941A - VIBRATION-INSULATED PLATFORM - Google Patents

Claims (1)

A vibration-insulated platform containing a body and elastic elements, the body is made in the form of rigid upper and lower plates, between which at least three helical elastic elements are located, fixed by at least three pins, each with their bases to both plates, while to the lower plate , in its peripheral part, an annular elastic element made of elastomer is attached, the height of which is 2 ÷ 4 times the height of the lower pins, as well as a central cylindrical elastic element with a conical buffer fixed at its free end facing the upper plate, and on the end part of the annular elastic element made of elastomer, an annular buffer is fixed, facing towards the annular buffer fixed on the upper plate, and the cross section of one of the annular buffers is made of a triangular profile, and the other, oppositely arranged with it, is a rectangular profile, the helical elastic elements are made in the form a package consisting of parallel connected top them and the lower bases, axisymmetric and coaxially located, at least three, cylindrical helical springs of different stiffness and height, which allows the vibration isolation system to provide equal frequency properties and, therefore, high efficiency of vibration isolation, regardless of the mass of the vibration isolation object, while in a static , in the unloaded state, the lower ends of the coaxially located at least three cylindrical helical springs lie in the plane of the lower base, and the upper ends, with their peripheral surfaces, touch the conical surface connecting them, so that the generatrix of the conical surface connects the upper ends, at least at least three cylindrical helical springs, characterized in that the helical elastic elements of the vibration-insulated platform contain a cylindrical body with which the upper and lower, oppositely and axisymmetrically arranged elastic damping round plates with collars are rigidly connected Axially symmetrically located Belleville springs are based on their large base: respectively, the upper and lower, while the smaller bases of the Belleville springs are fixed by axisymmetrically located upper and lower circular plates with central discs, into which the axisymmetrically located Belleville springs abut with their smaller base, the spaces between the circular plates with collars and round plates with central disks, filled with elastic mesh-type elements, the density of the mesh structure of which is in the optimal range of values: 1.2 g / cm ³ ... 2.0 g / cm ³ , and the wire material of the elastic mesh elements is steel grade EI- 708, and its diameter is in the optimal range of 0.09 mm ... 0.15 mm, while the space between the round plates is filled with elastomer, polyurethane, while between the round plates with shoulders, inside the body, a torsional vibration damper is located axisymmetrically, made in the form of an elastic spherical lobes, axisymmetrically located between the upper and lower stops, fixed respectively to the upper and lower plates of the cylindrical body, and made in the form of surfaces of the second order, for example, truncated paraboloids or hyperboloids, while the surfaces of the stops in contact with the surface of the elastic spherical shell are covered with friction material, and inside the spherical shell, axisymmetrically to the body, there is a cylinder with a kinematic non-self-braking screw pair "screw - nut", rigidly connected to the elastic spherical shell, while the screw of the screw pair "screw - nut" is rigidly connected to the upper elastic damping round plate with flanges.