RU2018118518A - TWO-STAGE CONICAL VIBRATION INSULATOR - Google Patents

Claims (2)

1. A two-stage conical vibration isolator, made in the form of a two-stage frame, consisting of sequentially connected and identical frames: the upper and lower frames, with the upper and lower elastic damping elements respectively aligned with them, while the upper and lower frames are made in the form of coaxially arranged, rigid shells of a truncated cone: upper and lower, while the upper base of each of the shells is a hard disk connected to them, in each of which they rest against the upper ends with respectively, the upper and lower elastic damping elements, and the lower base of each of the shells of the truncated cone is made open and designed to install at least two inclined elastic elements, as well as at least two vertical elastic elements connected to the base, while the inclined elastic elements are located in the peripheral part of the shells of the truncated cone, and the vertical elastic elements with their upper ends are connected with the lower end part of the lower shell of the truncated cone, and the lower ones rtsami - with the base, while the elastic elements are mounted in planes with a shift of 90 °, while the inclined elastic elements of the upper frame are made in the form of cylindrical coil springs, characterized in that each of the vertical elastic elements connected to the rigid shell of the frame in the form a truncated cone and with a base, made in the form of a rod vibro-damping element, consisting of coaxially arranged cylindrical shells: an inner shell with a vibration-damping e and rigidly connected to the upper flat base and the outer cylindrical shell covering the inner shell and rigidly connected to the lower flat base, while the inner shell and the outer shell are made of vibration damping material, and the outer shell rigidly fixed with its lower end to the lower flat base, located at its upper end with a gap relative to the upper flat base, while in the gap there is an annular elastic element fixed between the upper end of the outer a cylindrical shell and an upper flat base, and the annular elastic element is made in the form of an annular bellows of an elastic material, for example rubber-cord, or an elastic spring material, while the inner cylindrical shell, rigidly fixed with its upper end to the upper flat base, is located with its lower end with a gap relative to the lower flat base, and in the inner cavity of the cylindrical shell there is a vibration damping element made in the form of a set of elastic and damping their elements, consisting of at least two damping disks: the upper and lower, fixed on the elastic axis, coaxially located with the inner cylindrical shell, the upper disk with its inner hole mounted on the elastic axis along the fit with a “tightness”, and the lower one is rigidly mounted on the lower end of the elastic axis, while both disks are mounted with their external surfaces in the inner cavity of the cylindrical shell along a sliding fit with a “gap”, while between the damping disks is located at least one coil spring and the cavity between the upper and the lower damping disc in which is located a coil spring, is filled with polyurethane. 2. The two-stage conical vibration isolator according to claim 1, characterized in that in the inner cavity of the rod vibration damping element formed by the lower damping disk and the lower flat base, there is an additional elastic element made, for example, in the form of a spring, with its upper end resting against the lower damping the disk, and the lower end rigidly fixed to the lower flat base, while the internal cavity between the upper damping disk and the upper flat base, as well as the internal cavity between the lower damping disk and the lower flat base are filled with friction material, for example, mesh elements, while the density of the mesh elements is in the optimal range of 1.2 g / cm ³ ... 2.0 g / cm ³ , and the wire material of the elastic mesh elements is EI-708 steel, and its diameter is in the optimal range of 0.09-0.15 mm.