RU61374U1 - ROPE VIBRATION INSULATOR - Google Patents

Abstract

The invention relates to mechanical engineering and can be used in the manufacture of cable vibration isolators for vibration protection of instruments and equipment in any field of technology. The cable vibration isolator consists of an elastic cable element, twisted from an external screw strand and two of them, the screw strand is made quasicontinuous repeatedly twisted around the core, which is made in the form of a toroidal plate-shaped split single-layer or multi-layer shell, and the only joint of the strand is rigidly connected and pinched in one of vibration isolator, and the core of the elastic cable element is made in the form of a multilayer closed lamellar quasi-continuous toroidal spiral, the ends of which are rigidly connected and pinched in another holder of the vibration isolator. The vibration isolator, when applied, gives a technical effect in increasing the efficiency of vibration suppression, the structural bearing capacity, as well as increasing the reliability and durability of parts and components of machines and mechanisms. This allows you to effectively use this design in devices with high dynamic loading, in particular, in systems and devices for vibration, shock protection of service personnel and transported goods.

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 in any field of technology.

A known design of a cable vibration isolator containing segments of cables and two parallel disk cages that are connected to the ends of the cable segments bent along a circular arc. To maintain the straightness of the cable segments, special bushings are used, which are flared and worn on the cable to reduce the stress concentration in the cable. With all its ability to dampen spatial vibrations, the vibration isolator turned out to have one weak spot - the cable attachment points in the clips. (A.S. USSR 241156, IPC F 16 F. Shock absorber. / L.S. Tomilin // BI No. 13, 1969)

The disadvantage of this design is that with intense vibration and shock, cable segments come out of their nests and the vibration isolator fails.

Known cable vibration isolator, consisting of an elastic cable element in the form of a closed ring, fixed in two diametrically opposite places in two clips, used to attach the vibration isolator to the base and the protected object, the clips are made detachable in the form of a rod, which is a body of revolution with a hemispherical, conical and cylindrical threaded sections, while the hemispherical and conical sections and a small part of the cylindrical section of the rods are made with cuts along their common axes, hemispherical and the conical sections are joined in the place of the holes perpendicular to the axes of each rod, and the diameter of the holes is equal to the diameter of the cable element, the cable element

installed in these holes and pinched in them by nuts on the threaded sections of the rods and bushings with an inner conical surface, compressing the split conical sections of the rods, and the elastic cable element in the form of a closed ring is twisted from the outer screw strand of the cable, and the only joint of the strand is soldered and clamped in one of the split clips. [RF patent No. 2179667, IPC F 16 F 7/14, F 166 11/00, authors: V.A. Antipov et al. “Cable vibration isolator”, BI No. 5, 2002.]

The disadvantage of the cable vibration isolator is that the cable elements have low rigidity and with an increase in the mass of the vibration-isolating object, the rings are deformed, which leads to a decrease in the elastic-damping properties of the vibration isolator, insufficient vibration suppression efficiency and low bearing capacity.

This technical solution is selected by the authors as a prototype.

The technical result, the achievement of which the invention is directed, is to increase the efficiency of vibration suppression and increase the bearing capacity.

The technical result is achieved by the fact that in the known design of a cable vibration damper consisting of an elastic cable element, twisted from an external screw strand and two of both, the screw strand is made quasicontinuous repeatedly twisted around the core, which is made in the form of a toroidal plate split single-layer or multi-layer shell, and the only joint the strands are rigidly connected and pinched in one of both vibration isolators. The core can also be made in the form of a multilayer closed lamellar quasicontinuous toroidal spiral, the ends of which are rigidly connected and pinched in another cage of the vibration isolator.

The fundamental difference between the proposed design and the prototype is that the elastic cable elements in the form

a concentric closed ring, twisted from a screw strand of a cable, does not look like a complete ring (with a five-fold plexus of the ring, a hollow cross section is always obtained), but a ring, inside which a core is installed in the form of a toroidal plate-like split shell, single-layer or multi-layer, which significantly increases the structural rigidity , and therefore its bearing capacity, and increases the efficiency of vibration suppression due to additional energy dissipation in the plate split shell.

The invention is illustrated by drawings, where:

- figure 1 shows the technology of twisting in the torus of a cable strand;

- figure 2 shows the design of the cable vibration isolator in the context;

- figure 3 shows an embodiment of the core.

The design of the vibration isolator includes an elastic cable element 1 of the vibration isolator, made in the form of a closed ring, twisted from the outer screw strand of the cable. To do this, first unwind the cable, twisted from several multicore strands. In this case, a strand with a helical axis is obtained. Then it is braided around a torus 2, made in the form of a toroidal plate carved shell, single-layer or multi-layer, and the only joint of the strand is first soldered with solder, and then pinch this place of the ring in one of the detachable clips of the vibration isolator.

Element 1 can be made of one or more pieces of cables or cable strands. Element 2 can also be made, for example, in the form of a plate torus or core, made in the form of a multilayer quasicontinuous plate spiral (figure 3). These measures contribute to an increase in vibration suppression efficiency and an increase in load bearing capacity.

The vibration isolator is as follows. Vibration or shock load coming from a vibrating object or base, leads to bending or torsional deformation of the sections of the cable element. Deforming, individual wires of the cable slip relative to each other with friction at their contact points. Mutual slipping of wires during the deformation of the cable leads to the fact that the load characteristics of the vibration isolator in three mutually perpendicular directions have the form of hysteresis loops, the area of which characterizes the scattered cyclic energy. This energy, turning into heat, is dissipated in the space surrounding the vibration isolator. Due to energy dissipation, the vibrations of the object are damped and the loads on it are reduced during impacts, and the introduction of a core made in the form of a toroidal plate-like split shell single-layer or multi-layer helps to increase the efficiency of vibration suppression and increase the bearing capacity of the vibration isolator.

The design provides uniformly distributed compressive loads that are unchanged during operation.

The proposed design of the vibration isolator when applied gives a technical effect in increasing the efficiency of vibration suppression, the structural bearing capacity, as well as increasing the reliability and durability of parts and components of machines and mechanisms. This allows you to effectively use this design in devices with high dynamic loading, in particular, in systems and devices for vibration, shock protection of staff and transported goods.

Claims (2)

1. Cable vibration isolator, consisting of an elastic cable element, twisted from an external screw strand, and two cages, characterized in that the screw strand is made quasicontinuous repeatedly twisted around the core, which is made in the form of a toroidal plate split single-layer or multi-layer shell, with a single strand rigidly connected and pinched in one of the clips of the vibration isolator. 2. The cable vibration isolator according to claim 1, characterized in that the core of the elastic cable element is made in the form of a multilayer closed plate-shaped quasicontinuous toroidal spiral, the ends of which are rigidly connected and pinched in another clip of the vibration isolator.