RU85594U1 - Vibration Isolator - Google Patents

Abstract

A vibration isolator, consisting of two detachable cages in the form of bodies of revolution and an elastic damping cable element, elastically connecting both cages, characterized in that the elastic damping cable element is made in the form of a set of alternating around the circumference of the casing of the working and loop sections of the cable with two types of outlines of the axial lines of the working sections, including conjugated radius-rectilinear and rectilinear-radius-rectilinear segments, the upper cage is made of three elements in the form of bodies of revolution, including a bolt with a developed the rib part and two curly bushings concentrically located relative to the bolt, which together with the fungal part of the bolt form two cavities for pinching the loop sections of the cable element, and the loop sections of all elements are uniformly pinched in the upper clip in two parallel tiers with an angle shift of α = 2π / m, where m is the number of working elements of the vibration isolator.

Description

The invention relates to the field of mechanical engineering and can be used in the manufacture of cable vibration isolators for vibration protection of instruments and equipment.

Known vibration isolator, made in the form of two identical cages, interconnected by a set of working elements of the cable, made in the form of alternating around the circumference of the cage of radius segments. (Bezvodin V.A., Ponomarev Yu.K., Chegodaev D.E. RF Patent No. 2059126, MKI F16F 7/14, Bull. No. 12, 04/27/1996).

The disadvantage of this device is the abrasion of the loop sections in the clips during slippage due to cyclic loading.

The closest in technical essence is a vibration isolator, consisting of two detachable cages in the form of bodies of revolution, each of which, in turn, consists of two parts, mating with each other along cylindrical surfaces, which are the geometric location of the axes evenly spaced around the circumferences of the holes, designed to fix the return loops of an elastic damping cable element elastically connecting both clips (Ponomarev Yu.K., Kalugin P.A., Chegodaev D.E., Bezvodin V.A., Krainev V.I., Sh Tilov JV, to reduce SI RF patent №2082039, IPC F16F 7/14, Bull. №17 published 20.06.1997 city).

The disadvantage of the prototype is the significant nonlinearity of the elastic characteristics in three mutually perpendicular directions, which, under certain conditions, can trigger the occurrence of sub- and superharmonic resonances of the mechanical system.

The technical result, the achievement of which the creation of this utility model is aimed, is to ensure high reliability of vibration protection, which eliminates the occurrence of sub- and superharmonic resonances in the working frequency zone of the vibration protection system.

The technical result is achieved by the fact that the vibration isolator, consisting of two detachable cages in the form of bodies of revolution and an elastic damping cable element, elastically connecting both cages, characterized in that the elastic damping cable element is made in the form of a combination of working circles and loop sections of the cable alternating around the circumference with two types the outlines of the axial lines of the working sections, including the conjugate radius-rectilinear and rectilinear-radius-rectilinear segments, the upper clip is made of three elements in e rotation bodies, including a bolt with a developed fungal part and two curly bushings concentrically located relative to the bolt, which together with the fungal part of the bolt form two cavities for pinching the loop sections of the cable element, and the loop sections of all elements are uniformly pinched in the upper clip in two parallel tiers with displacement relative to each other by an angle α = 2π / m, where m is the number of working elements of the vibration isolator.

The essence of the utility model is illustrated by drawings, where:

figure 1 shows the appearance of the vibration isolator with local cuts;

figure 2 shows the elastic element;

figure 3 shows a bolt with a developed fungal part;

figure 4 shows the middle curly sleeve with a local cut;

figure 5 shows the upper curly sleeve with a local cut. The vibration isolator consists of two mounting clips 1 and 2 (figure 1), connected by an elastic element in the form of a combination of working 3 and loop 4, 5 and 6 sections. The holder 1 is made in the form of two figured bushings 7 and 8. The figured sleeve 7 is a flange with four holes 9 for attachment to the base. In the bushings 7 and 8 there are four holes for connection. The curly bushings 7 and 8 are fastened with a screw 10 with a nut 11 and an elastic washer 12. The holder 2 is made of three components: a bolt 13 with a developed fungal part 14 (Fig. 3) and two curly bushes - the upper 15 and middle 16 (see also 4 and 5). The bolt 13 has at the end a turn-key protrusion 17, on which there is a hole 18 for the safety wire. The holder 2 is assembled using fasteners: nuts 19 and washers 20 (Fig. 1). On the fungal part of the bolt 14 around the circumference are made the beds 21 (Fig. 3) with fillets 22 for pinching the loop sections. On the middle curly sleeve 16 of the bed under the cable 24, 25 (figure 4) are made in two parallel horizontal planes. The bed data for the cable is offset relative to each other in parallel planes at an angle α = 2π / m where m is the number of working elements of the vibration isolator. On the top curly sleeve 15 of the bed are made in the horizontal plane 29 (figure 5). The elastic element (figure 2) consists of the working sections of two types of axial lines: radially rectilinear 26 and rectilinear-radius-rectilinear 27 and of three types of loop sections of the cable 4, 5 and 6. The elastic element has two end sections of the cable 28, which withdrawn from the holder 1 (figure 1). In order for the ends of the cable to not jump out, the metal around their outlet is worn out.

The device operates as follows. Under the action of a vertical load of vibrational or shock nature, the turns of the cable element are deformed, compensating for the effect of the applied loads and dissipating their energy. Since the cable elements are located on four sides, the stability of the vibration isolator as a whole in the horizontal direction will be higher than that of the prototype. However, it is invariant in relation to the direction of the load lying in a plane perpendicular to the vertical axis. Compared with the prototype of the inventive cable vibration isolator has a greater uniformity of the stiffness and resonant frequencies in the direction of the main mutually orthogonal axes.

The definition from the list of identified analogues of the prototype allowed us to identify a set of significant, in relation to the perceived technical result, distinctive features in the inventive "Vibration isolator" set forth in the utility model.

Therefore, the claimed utility model meets the criterion of "Novelty."

The criterion of "Industrial applicability" is confirmed by the fact that the proposed utility model, firstly, can be used in transport engineering, light industry, and other branches of technology; secondly, a vibration isolator made using the proposed method is capable of achieving the achievement of the technical result perceived by the applicant - simplification of manufacturing technology, ensuring the stability of elastic-damping characteristics, minimal wear of rubbing surfaces.

Claims (1)

A vibration isolator, consisting of two detachable cages in the form of bodies of revolution and an elastic-damping cable element, elastically connecting both cages, characterized in that the elastic-damping cable element is made in the form of a set of working and loop sections of the cable alternating around the circumference with two types of outlines of the axial lines of the working sections, including conjugated radius-rectilinear and rectilinear-radius-rectilinear segments, the upper cage is made of three elements in the form of bodies of revolution, including a bolt with a developed the rib part and two curly bushings concentrically located relative to the bolt, which together with the fungal part of the bolt form two cavities for pinching the loop sections of the cable element, and the loop sections of all elements are uniformly pinched in the upper cage in two parallel tiers with an angle shift of α = 2π / m, where m is the number of working elements of the vibration isolator.