RU50619U1 - ROPE VIBRATION INSULATOR - Google Patents

Abstract

The utility model relates to the field of engineering and can be used for vibration protection of instruments and equipment in any field of technology. The essence of the utility model lies in the fact that in the known cable vibration isolator containing two parallel detachable support elements with holes connected by elastic cable elements, the turns of which are passed through the holes, each support element is made in the form of a star with the number of rays 2n, where n - an integer other than unity, moreover, the winding of the cable element in each pair of rays of the star is oppositely directed, each beam is a beam of equal resistance, parallel rays of stars d are paired with a cable element, each of the detachable support elements is made of two pairs of strips, each of which is connected to each other using a carpentry lock at an angle of 90 °.

Description

The utility model relates to the field of engineering and can be used for vibration protection of instruments and equipment in any field of technology.

Known cable vibration isolator containing upper and lower support strips with holes at the ends for fastening to the base and the insulated product and a screw elastic cable element formed from a single piece of cable, alternately pulled through holes in two support strips, mounted parallel to each other on a special cylindrical mandrel and crimped on it for fixing the cable (see Ilyinsky BC Protection of REA and precision equipment from dynamic influences M .: "Radio and communications", 1982, p. 258-266).

The disadvantages of the known cable dampers are low stability in the longitudinal direction, a significant difference in the stiffnesses and resonant frequencies in the direction of the main mutually orthogonal axes, the appearance of uniaxial compressive (tensile) loading of torques from half-turns of the cable, which tend to deploy the support strips relative to each other, which can lead to associated longitudinal-transverse vibrations.

The closest in technical essence and the achieved result is a cable vibration isolator containing two parallel detachable support elements with holes and connecting the last cable elements whose turns are passed through the holes - each support element is made in the form of a star with 2n rays,

where n is an integer different from unity, each beam of which is a beam of equal resistance, parallel rays of stars are pairwise connected by a cable element, and the winding of the latter in each pair is oppositely directed (see RF patent No. 2020317, MKI F 16 F 7/14 ) This invention is selected as a prototype.

The disadvantage of the prototype is the low-tech manufacturing of support elements associated with high material consumption and low utilization of the workpiece.

The objective of the utility model is to increase manufacturability. This problem is solved due to the fact that in the cable vibration isolator containing two parallel detachable support elements with holes connected by elastic cable elements, the turns of which are passed through the holes, each support element is made in the form of a star with the number of rays 2n, where n - an integer other than unity, each ray is a beam of equal resistance, parallel rays of stars are paired by a cable element, and winding the cable element in each pair of rays of the star prot In the opposite direction, according to the utility model, each of the detachable support elements is made of two pairs of planks, each of which is connected to each other by a carpentry lock at an angle of 90 °.

The invention is illustrated by drawings, where:

figure 1 shows the appearance of the shock absorber in plan;

figure 2 is a section along aa in figure 1;

figure 3 shows the node I in figure 2;

figure 4 shows the connection form of each of the two pairs of strips in isometry.

The cable vibration isolator contains one upper beam 1 and one lower 2 supporting strips in the form of four-beam stars and an elastic-dissipative cable assembly of two components 3 and 4. Each of which is made of a single cable segment in the form of two elements 5, 6 and 7, 8 formed by a cable when placing it along cylindrical helical lines of the right (elements 6 and 7) and left (elements 5 and 8) directions and connected by technological jumpers 9 and 10 (Figs. 1 and 2). In any two adjacent beams of the support strips are the cable elements of the opposite winding. The upper support plate 1 is made of four parts 11, 11a and 12, 12a connected by fasteners 13, and the lower support plate 2 is made of parts 14, 14a and 15, 15a, combined by fasteners 16. Parts 11, 11a, 12, 12a , 14, 14a and 15, 15a form a series of holes 17 in each beam for fixing the cable 18 passed through them. The sections of the surfaces forming the holes 17 are in the form of incomplete semicircles whose diameter is equal to the diameter of the cable 18 (Fig. 3) . For fastening the vibration isolator to the base to the protected product in the support strips 1 and 2 there are through (or threaded) holes: peripheral 19 and central 20. To save metal, each of the detachable support elements is made in the form of two pairs of strips, each of which is interconnected using carpentry locks 21, 22 at an angle of 90 ° to each other (figure 4).

The device operates as follows. Under the action of a vertical load of vibrational or shock nature, the half-turns of the cable assembly are deformed, compensating for the effect of the applied loads and dissipating (dissipating) their energy due to

mutual friction between the wires. The resulting torques from the half-turns of one cable element 5. for example, are compensated by the torques of the opposite direction from the half-turns of a pair of cable elements 6. The loads acting along one of the pairs of colinear beams will be perceived by the entire structure of the cable vibration isolator, i.e. and a second pair of beams with cable elements 7 and 8. located perpendicular to the applied forces and having greater resistance to such a load (rigidity in this direction). As a result, 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, the inventive cable vibration isolator, as shown by the calculations, has a greater uniformity in the magnitude of stiffness and resonant frequencies in the direction of the main mutually orthogonal axes.

Claims (1)

A cable vibration isolator containing two parallel detachable support elements with holes connected by elastic cable elements, the turns of which are passed through the holes, each support element is made in the form of a star with 2n rays, where n is an integer other than unity, each ray represents a beam of equal resistance, parallel rays of stars are pairwise connected by a cable element, and the winding of the cable element in each pair of star rays is oppositely directed, characterized in that Each of the detachable support elements is made of two pairs of planks, each pair of which is connected to each other by a carpentry lock at an angle of 90 ° to each other.