RU1818487C - Method for forming flexible-friction closed-shape members for cable vibration insulators - Google Patents

Abstract

Usage: mechanical engineering, manufacture of elastic friction elements / UVE /. SUMMARY OF THE INVENTION: Cable segments are wound onto bushings mounted on a mandrel along the line of the UV-circuit to form adjacent turns. The winding is carried out in shuttle order with the formation of pairs of return loops sequentially on each sleeve. The number of turns in 2n exceeds the number of bushings, where n is any integer. 6 ill.

Description

The invention relates to mechanical engineering and can be used in the manufacture of elastic friction elements (UVE) from a cable.

The aim of the invention is to expand the capabilities of the known method by providing the formation of UVE with increased vibration protection properties, with any number of bushings - even and odd

In FIG. 1-6 schematically depict the successive steps of forming the UVE in accordance with the proposed method.

The process of winding the cable into bushings 1-6 is divided into six stages, at each of which two turns of the cable are formed with the formation of a pair of return loops on one of the bushings. In each of the figures only those turns are shown that are formed at this stage and the turns formed at the previous stages are not shown, with the final portion of the cable ending each of the winding stages being the initial

a portion of the cable for the next step. All the end sections of the cable are shown by an arrow on the cable before its conditional break, and all the initial parts are shown by the arrow before the cable starts.

The winding is carried out by laying the cable on the bushings in a shuttle order along the UVE contour with the formation of pairs of age loops sequentially on each bush 1-6-5-4-3-2 and with the formation of turns when bending around the bushings for each turn in the following sequence:

1st turn 1-2-3-4-5-6-1; 2nd turn 1-65-4-3-2-1, - 3rd turn 1-2-3-4-5-6; 4th turn 6-5-43-2-1-6;

5th turn 6-1-2-3-4-5; 6th turn 5-4-32-1-6-5;

7th round 5-6-1-2-3-4; 8th turn 4-3-21-6-5-4;

9th turn 4-5-6-1-2-3; 10th round 3-21-6-5-4-3;

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11th turn. 3-4-4-5-5-6-1-2; 12th turn 2-1-6-5-4-3-2;

In order to ensure the isotropy of the stiffness of the UVE properties over its entire contour, the number of cable turns should be at least 2 times the number of bushings, and in the general case at least 2n times, where n is any integer.

Upon completion of the winding of the cable, each of its ends is fixed in the inner cavity of the sleeve with which it comes off.

Formed in this way, the UVE has enhanced vibration protection properties due to the presence of pairs of return loops on each of the bushings. This provides lower elastic properties of the UVE while maintaining its dissipative properties, and hence a higher value of the ratio of the friction force work to the work spent on the UVE deformation during one loading cycle, which characterizes the value of the absorbed UVE energy W. In addition, the method allows to form UVE with any number of bushings U

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with even and odd. The formation of a UVE with an even number of bushings provides the design of a vibration isolator with an equally strong symmetrical connection with vibrating and vibration-insulated objects.

Claims (1)

SUMMARY OF THE INVENTION A method for forming closed-loop elastic-friction elements for cable vibration isolators by winding a cable segment onto bushings mounted on a mandrel along the contour line of elastic-friction elements (UVE) with the formation of adjacent screws, characterized in that, in order to expand the capabilities of the method by to ensure the formation of UVEs with enhanced vibration protection properties, winding is carried out in shuttle order with the formation of pairs of return loops in series on each sleeve, with tkov to 2n times the number of sleeves, where n - is any integer. Fig.Z