RU2020130932A - ROD CYLINDRICAL DAMPING ELEMENT OF SPATIAL TYPE - Google Patents

Claims (3)

1. Rod cylindrical damping element of a spatial type, containing at least two resiliently damping elements of the rod type, located on a common base on which the frame of the vibration isolator rests, characterized in that the frame is made in the form of an annular disk rigidly connected to the shell of a truncated cone, the upper part of which, by means of elastic elements, is connected to a platform for placing a vibration-isolated object, and the lower part abuts against an elastic element located parallel to the elastic-damping elements and axisymmetric to the platform, and made in the form of an ellipsoid, the cavity of which is filled with vibration-damping material, polyurethane, while the lower part of the ellipsoid rests through a conical elastic element, onto a common base, while the cavity of the conical elastic element is filled with a vibration-damping material, polyurethane, while the platform is rigidly connected to the rod, axisymmetrically located to the elastic element, made y in the form of an ellipsoid and resting on it, each of the rod-type resiliently damping elements contains a housing in the form of a cylindrical shell made of vibration damping material, to the lower end of which a lower flat stop is attached, and an elastic element connected to the upper flat one is fixed to the upper end of the cylindrical shell. a stop rigidly connected to the upper base of an axisymmetrically located hollow cylinder, coaxially placed in the upper part of the cylindrical shell of the housing by means of a damping sleeve, while the elastic element is made in the form of an annular bellows made of elastic material: rubber-cord, or elastic spring material, while between the lower base of the hollow cylinder and the lower flat stop, axisymmetrically to the cylindrical shell of the housing, there is a combined elastic-damping element, while in the hollow cylinder a dynamic vibration damper is freely placed, made in the form of a disk spring-loaded on both sides by springs, the mass of which is tuned to the required vibration frequency, while the combined elastic damping element consists of a pneumatic vibration isolation system, which includes spherical rubber-cord shells connected to each other by an elastic tube with a throttling washer and separated from each other by an additional elastic element, and the total stiffness of the pneumatic vibration isolation system and of the additional elastic element is less than the rigidity of the elastic element fixed to the upper end of the cylindrical shell of the body, while the cavity of the hollow cylinder, in which the dynamic vibration damper is located, is filled with vibration-damping material in the form of elements of a mesh structure with a density in the optimal range of values: 1.2 g /cm ³ ...2.0 g/cm ³ , and the material of the wire of elastic mesh elements is steel grade EI-708, and its diameter is in the optimal range of values: 0.09 mm...0.15 mm. 2. A rod cylindrical damping element according to claim 1, characterized in that the upper and lower flat stops are combined, consisting of at least three layers: the lower and upper layers are made of rigid vibration damping material, Agat or Shvim plastic compounds ”, and the third layer, located between them, is made damping, while rubber crumb, cork, polystyrene, nylon, foamed polymer, Shvim plastic compound are used as a damping material, with a crumb fraction size of 1.5 ÷ 2.5 mm, filled with elastomer, polyurethane. 3. The rod cylindrical damping element according to claim 1, characterized in that each of the elastic elements connecting the upper part of the truncated cone shell with the platform for placing the vibration-insulated object is made in the form of a cylindrical damping element containing a body in the form of a cylindrical shell made of vibration-damping material, to the lower end of which a lower flat stop is attached, and an elastic element is fixed to the upper end of the cylindrical shell, connected to the upper flat stop, rigidly connected to the sleeve, coaxially placed in the upper part of the cylindrical shell, while the elastic element is made in the form of an annular bellows made of an elastic material , for example, rubber-cord, or elastic spring material, and the sleeve, coaxially placed in the upper part of the cylindrical shell of the housing, is in contact with the damping sleeve installed in the upper part of the cylindrical shell of the housing, while the upper and lower flat stops are made in combination shaped, consisting of at least three layers: the lower and upper layers are made of rigid vibration-damping material, plastic compounds: "Agat", "Shvim", and the third layer located between them is made of damping, while the damping material is rubber crumb, cork, polystyrene, nylon, foamed polymer, Shvim plastic compound, with a crumb fraction size of 1.5 ÷ 2.5 mm, filled with elastomer, polyurethane, while in the lower end part of the sleeve, coaxially placed in the upper part of the cylindrical shell of the body, the elastic-damping element is fixed with its upper part, located coaxially and axially symmetrically to the body, while the lower part of the elastic-damping element is fixed on the damping disk connected with the lower flat stop through an additional elastic element located in the lower cavity of the body between the disk and the lower flat stop, and the lower part the housing cavity is filled with friction material: elements of a mesh structure, while the density of the elements of the mesh structure is in the optimal range of 1.2 g/cm ³ ...2.0 g/cm ³ , and the material of the wire 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, or the lower body cavity, in which an additional elastic element is placed, is filled with vibration damping material, polyurethane.