RU2064104C1 - Rope vibration isolator - Google Patents

Abstract

FIELD: mechanical engineering; protection of objects against dynamic loads. SUBSTANCE: rope vibration isolator has fastening members connected with elastofriction member which consists of sections evenly distributed over circumference; each section is made in form of bush with rope wound on it in plane perpendicular to bush axis. Sections are interconnected by means of additional flexible member coupling them in axial and radial directions relative to axis of vibration isolator. Additional flexible member is made on form of wire spiral stretched within elastic deformation. EFFECT: enhanced reliability. 2 cl, 2 dwg

Description

 The invention relates to mechanical engineering and can be used to protect objects from dynamic loads.

Known vibration isolator containing clips and associated cable segments [1]
The lack of a vibration isolator is a high concentration of stresses in the cable at the places where the clip exits and insignificant energy dissipation.

Known vibration isolator containing fasteners associated with elastofriction elements (UVE), consisting of sections evenly distributed around the circumference. Each of the sections consists of bushings and a cable wound on the bushings in planes perpendicular to the axes of the bushings [2]
The lack of a vibration isolator is insufficient bearing capacity and anisotropy of stiffness characteristics in the transverse direction.

 The basis of the invention is the creation of a cable vibration isolator, providing increased load-bearing capacity and isotropy of stiffness characteristics in the transverse direction.

 The problem is solved in that in the proposed cable vibration absorber containing fasteners associated with an elastic friction element, consisting of sections evenly distributed around the circumference, each of which is made in the form of bushings with a cable wound on them in planes perpendicular to the axes of the bushings, the new one is the fact that the sections are interconnected by an additional elastic element, tightening them in radial and axial directions relative to the axis of the vibration isolator, and the additional elastic element is made in the form e wire spiral stretched within the elastic deformation.

 In FIG. 1 shows a general view of the vibration isolator, FIG. 2 plan view.

 The cable vibration isolator contains fasteners, which include bolts 1, figured washers 2 with an internal tuck and nuts 3, an elastic-friction element consisting of 3 sections 4, each of which is wound with a cable 5 on bushings 6 in planes perpendicular to the axes of the latter, and an additional elastic element 7 made of a wire spiral stretched within elastic deformations. An additional elastic element 7 pulls the sections together in axial and radial directions relative to the axis of the vibration isolator by repeatedly sequentially bending the adjacent sections from the opposite sides by a spiral and forming intersecting sections 8, 9 between the sections. At the same time, the intersecting sections of the spiral 8 are formed when she bends the sections of the cable located between the bushings 6, and the crossing sections 9 of the spirals are formed when she bends the sections of the cable located between the bushings 6 and the washer 2.

 Vibration isolator works as follows. The vibration energy from the vibrating object is transmitted through the fasteners of the vibration isolator to the elastic-friction element and is dissipated in it due to friction between the sections of the cable 5 in contact with each other in each section 4, friction between the cable 5 and the bushings 6, between the cable 5 and the additional elastic element 6, and also due to internal friction in the cable 5 between its strands and wires. The bearing capacity of the vibration isolator is determined by the total elastic characteristic of the main and additional elastic element. In addition, an additional elastic element increases the stiffness of the vibration absorber in the transverse direction relative to its axis, and also provides isotropy of the elastic-friction characteristics in the transverse direction due to the formation of an elastic connection between the sections.

Claims (2)

 1. Cable vibration isolator containing fasteners associated with an elastic friction element consisting of sections evenly spaced around the circumference, each of which is made in the form of bushings with a cable wound on them in planes perpendicular to the axes of the bushings, characterized in that it is provided with an additional elastic an element connecting and contracting sections in radial and axial directions relative to the axis of the vibration isolator.  2. The vibration isolator according to claim 1, characterized in that the additional elastic element is made in the form of a wire spiral stretched within the elastic deformation.

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