SU1754980A1 - Cable-type vibration suppressor - Google Patents

Abstract

Usage: in ship machines and mechanisms to protect against vibration and shock loads. SUMMARY OF THE INVENTION 1 A cable vibration isolator comprises bases mounted on one of them with a movable and supporting elements connected with a thread adjusting device and connected to them and another base cable in the form of eight-loop loops. The vibration isolator is equipped with additional supporting elements mounted on the base with the possibility of movement and connected with each other additional adjusting devices. 2 Il.

Description

The invention relates to the protection of various objects of technology from vibration and shock loads and can be applied in ship machinery and mechanisms.

A vibration isolator is known, comprising a body and two parallel rows of elastic elements installed therein, a stem placed therein with a supporting element interposed between the rows, the supporting element being designed and spheres, and each of the elastic elements in the form of a frame with two tightly intersecting parallel groups nor gay cables.

The closest to the invention in technical essence and the achieved effect is a damping device containing cables connecting the oscillating object with fasteners, equipped with a control system, while one of the fasteners is movable in the longitudinal direction relative to the cables and connected to the executive engine control systems through the kinematic chain.

A significant drawback of these insulators is the low efficiency of vibration isolation and the narrow range of operating frequencies due to the small rigidity of the turns of the spiral and the vibration isolator as a whole in the longitudinal direction, which leads to significant lateral movement of vibration protection objects during shocks and impacts and causes damage to the systems suitable for it. such as pipes, shafts, cables, etc .; the rigidity of such vibration isolators is always constant with changes in the load on them

The aim of the invention is to increase the efficiency of vibration isolation.

This goal is achieved by the fact that the hummock vibrator is equipped with additional supporting elements mounted on another base with the possibility of movement and interconnected by additional adjusting elements.

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The main device consists of studs with thread oppositely directed at opposite ends, connecting each supporting elements of one base, and each half-twist eight-shaped loop is rigidly connected with supporting elements of different bases.

The positive effect is that the device provides adjustment of stiffness in a fairly wide range, without dismantling, by changing the stiffness of the eight intersecting areas formed by the elastic cable element, as well as by changing the position of the vibration isolator adjustment elements screwing adjusting studs.

The change in the stiffness of the elastic element and the vibration isolator as a whole is achieved as a result of a change in the flexural rigidity of the intersecting half-turns of the cable eight, as well as by changing the angle formed between the supporting surface of the vibration isolator and the line connecting the clamping point.

intersection of coils in the adjustable elements, which leads to a redistribution of the projections of the stiffness of the elastic element of the intersecting sections of the cable on the main axis, which certainly affects the effective operation of the vibration isolator in different directions. It should be noted that when replacing an elastic element, it is not necessary to resort to detaching the support surfaces of the vibration isolator from the object of protection and the foundation; the replacement can be carried out with a jacked-up object by replacing the assembly of adjustment elements and the elastic element. Vibrational energy dissipation occurs due to internal and external friction in the cable elements, firstly, the side half-turns of the elastic element experiencing bending deformations, secondly, the intersecting parts of the cable between the diametrically opposite pinch points in the adjustment elements of the vibration isolator, experiencing bending and torsional deformations with a varying curvature of the position of the cable.

FIG. 1 shows a general view of the vibration isolator: in FIG. 2 - the same, side view

The cable vibration isolator contains bases 1 and 2 mounted on the base 1 with the ability to move in the grooves 3 and connected by an adjusting device made in the form of studs 4 and 5 with thread oppositely directed at opposite ends, supporting elements 6 and 7,

connected to them and the base 2 by a cable in the form of eight-loop loops 8. The vibration isolator is also equipped with additional supporting elements 9 and 10 mounted on the base 2 with the ability to move in the grooves 11 and connected with each other by an additional adjustment device made in the form of studs 12 and 13 with opposite thread at opposite ends. The studs 12 and 13 connect the supporting elements 9 and 10 of the base 2. Each half-turn of the eight-shaped loop 8 of the cable is rigidly connected to the supporting elements 6.7 and 9.10 of the bases 1 and 2. To prevent the supporting elements 6, 7 and 9, 10 from leaving the grooves 3 and 11 of the bases 1 and 2 provided for the locking screws 14.

Rope vibration isolator works as follows.

As a result of impact and vibration loads, the base 1 is moved, rigidly connected to the object of vibration protection (not shown) relative to the fixed base 2, which is rigidly connected to the foundation. The movement is transmitted through the supporting elements 6 and 7 to the elastic cable element, in which case the bending of the half-turns 8 of the cable helix, as well as the bending and torsion of the crossing lines from the cable sections, occurs.

Vibrational energy dissipation occurs as a result of structural friction in cables.

By twisting the adjusting pins 4, 5 and 12, 13, the displacement elements 3 and 11 of the supporting elements 6 move along the supporting surfaces of the grooves 3 and 11, thereby clamping the intersecting elements of the cable.

The adjustment can be done both when the object is in zibrozashchity, and before installing vibration isolators.

Claims (1)

An inventive cable damping isolator comprising bases mounted on one of them with the possibility of moving and supporting elements connected with a thread adjusting device and connected to them and another base cable in the form of eight-loop loops, characterized in that in order to increase the efficiency of vibration isolation , it is equipped with additional supporting elements, installed on another basis with the possibility of displacement and connected with each other by an additional adjusting device, which also e are pins with oppositely directed to opposite ends of the thread, connecting each supporting elements of one base, and each half-turn The eight-shaped loop is rigidly connected to the supporting elements of different bases. e Riga.1 U e1gU 3