SU1762038A1 - Cable vibration insulator - Google Patents

Abstract

Use: to protect objects from dynamic effects. The essence of the invention: the vibration insulator contains clips, an elastic element of a curved closed contour in the form of sleeves and an envelope of a cable in which an annular elastic element is installed. Diametrically opposed sleeves of a curved closed loop are fixed on an annular elastic element, and those equidistant from these sleeves inside are fixed respectively on the yokes. 2 Il.

Description

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

Vibration isolators are known that contain clips and associated cable sections.

The disadvantages of these vibration isolators are low reliability and service life due to the high concentration of stresses in the cable where it leaves the clips and the low efficiency of vibration insulation due to the slight dissipation of energy in the cable during vibrations of the vibration-insulating object.

The closest to the invention to the technical essence and the achieved result is a vibration isolator containing two clips with fasteners and an elastic element fixed between them of a curved closed contour in the form of a piece of cable wound on sleeves.

Such a vibration isolator is highly reliable, but it has a significant difference in natural frequencies in the axial and transverse directions due to the difference in stiffness in these directions, as well as

low bearing capacity due to the low stiffness of the elastic element.

The aim of the invention is to increase the efficiency of vibration isolation by providing equal frequency and increasing the carrying capacity.

This goal is achieved by the fact that the vibration isolator is equipped with an additional annular elastic element installed in a curved closed loop, diametrically opposed bushes in a curved loop fixed on an annular elastic element, and equidistant from adjacent, attached to an annular elastic element, sleeves, bushings attached to them.

Figure 1 shows the vibration isolator, a longitudinal section; figure 2 is the same, the left view.

Vibration isolator contains clips 1 and 2 with fasteners 3 and 4, elastic element 5 of a curved closed loop in the form of a cable 6, wound on sleeves 7 and 8, ring elastic element 9, also wound in a cable segment 6 in the form of a cylindrical &

a helix coil on which clamps 10 are diametrically opposed by sleeves 7 of an elastic element 5, rivets 11 connecting equidistant from neighboring ones attached to an annular elastic element 9, sleeves 7, sleeves 8 with collars 1 and 2. The initial portion of the cable segment 6 is fixed in one of the sleeves 7 by soldering, and the end section of the cable is fixed by one of the clamps 10.

The cable 6 is wound on a mandrel consisting of a base on which pins with sleeves 7 and 8 are mounted console with pitch along a curved closed loop. After forming the elastic elements, sleeves 7 and 8 are removed from pins.

Vibration isolator works as follows.

The vibrational energy from the vibrating object is transmitted through the yoke 1 and the sleeves 8 associated with it to the elastic element 5 of the curved closed loop and the annular elastic element 9. At the same time, both elements experience cyclic deformations in the axial and transverse directions. The compressive and tensile loads cause transverse bending of all sections of the elastic element 5 located between the points of its attachment with the collars due to the connection of the mid points of these sections with the annular elastic element 9. At the same time, the elastic element 9 also experiences deformations of the transverse bend.

The oscillation energy is dissipated due to friction between the wires and the strands of the cable of both elastic elements, friction between the wires and the sleeves, friction between the parts of the cable that are in contact with each other. The rigidity of the vibration isolator in the transverse direction does not differ from its rigidity in the axial direction, since the diagonals of the closed contour of the elastic element 5, passing through its points of attachment with the clips, are located relative to each other at an angle of 90 °. This ensures that the natural frequencies are equal in the axial and transverse directions.

The presence of the annular elastic element 9 increases the rigidity, and hence the carrying capacity of vibroisol torz.

Claims (1)

Invention Form A cable vibration isolator containing two clips with fasteners and an elastic element fixed between them of a curved closed contour in the form of a piece of cable wound on sleeves, characterized in that, in order to increase efficiency by providing equal frequencies and increasing the carrying capacity, it is equipped with an annular elastic element installed in a curved closed loop, diametrically opposed sleeves in a curved closed loop are fixed on an annular elastic member, and sleeve sleeves that are distant from adjacent neighboring sleeves fixed on the elastic ring are fixed on the clip. 7  p T v j .0. "JL