RU1783192C - Vibration isolator - Google Patents

Abstract

Usage: mechanical engineering and to protect the transported goods from the harmful effects of vibration. SUMMARY OF THE INVENTION: A vibration isolator comprises a cylindrical body and a rod coaxially mounted therein. Grooves are made on the inverted surfaces of the stem and body, and a torus is placed between them. The torus is formed by at least two diametrically spaced gears. Helical springs are located at both ends of the gears and bind them. 2 ill.

Description

The present invention relates to the field of mechanical engineering and can be used to protect transported goods from the harmful effects of vibration.

Known vibration isolator comprising a housing made in the form of a glass, a cam coaxially placed inside the housing with the possibility of movement relative to its longitudinal axis, an elastic element rigidly fixed at one end of the housing bottom, and the other at the cam end, a roller mounted on the working surface of the cam with the ability to move perpendiculars it is perpendicular to the longitudinal axis of the casing, the spring is rigidly fixed at one end to the side wall of the casing and to the perpendicular to the casing axis with the other on the roller axis.

However, this device has large dimensions, because spring length and height of cam working surfaces are directly proportional to the stroke of the vibration isolator. Known vibration isolator adopted for the prototype, containing a cylindrical body coaxially located in the rod, an elastic element installed between the rod and the body, and between the side surfaces of the body and the rod - the stiffener made in the form of a torus made of elastomeric material for contact with the latter, while on the inner surface of the housing and the outer surface of the rod grooves are made, for example, ring or screw, and the torus is made integral.

The vibration isolator operates as follows. When the rod is loaded, the latter deforms the elastic element according to the linear law (Hooke's law), in addition, it turns the toroidal stiffness corrector according to the alternating sinusoidal law, while the force from the deformation of elastic

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of this element and the stiffness corrector, the sum of sm / form a nonlinear elastic characteristic having a section of reduced stiffness, which ensures reliable damping of vibrations in the low-frequency range.

However, the known device has a limited bearing capacity, because the latter is limited by the rigidity of the corrector made of an elastomeric material having a low modulus of longitudinal elasticity.

The purpose of the invention is to increase the bearing capacity of the vibration isolator.

This goal is achieved by the fact that in the known vibration isolator containing a cylindrical body, a rod coaxially mounted therein, on the inverted surfaces of which grooves are arranged located between the body and the rod, a stiffener in the form of a torus interacting with the grooves is formed, at least two diametrically spaced gears interacting with grooves and connecting helical springs located at both ends of the gear wheels.

No other technical solutions are known which describe a torus formed by diametrically spaced gears and screw springs connecting them to each other.

Figure 1 schematically shows the proposed device; Fig. 2 is a cross section.

The vibration isolator comprises a housing 1, a rod 2 coaxially located in the housing 1, a torus 3 mounted on the rod 2, formed by two diametrically spaced gear wheels 4 and screw springs 5 connecting them to each other, while their tooth comes into contact with grooves on the housing 1 and the rod 2, and between the bottom of the housing 1 and the rod 2 is installed an elastic element 6.

Vibroinsulator works as follows. Under the action of the applied load, the rod 2 moves, deforming the elastic element 6 along a linear

law and carried away by themselves gears 4, which are turned around their axes, due to engagement with the grooves of the housing 1 and rod 2, screw springs 5 are turned inside out, putting them into an unstable equilibrium position, and then overturning them, while the force from their deformation varies according to an alternating, sinusoidal law. When summarizing the efforts of the deformation of the elastic

element and coil springs forming a torus. a nonlinear elastic characteristic of the vibration isolator is formed, having a section of reduced stiffness, which ensures reliable damping of low vibrations

frequency.

Using the invention, it is possible to produce small-sized vibration isolators with a low natural frequency and high carrier

ability, because the stiffness of the corrector depends on the longitudinal elastic modulus of steel coil springs, which is several orders of magnitude higher than the longitudinal elastic modulus of elastomeric materials.

Claims (1)

The claims A vibration absorber comprising a cylindrical body, a rod coaxially mounted therein, grooves made on the facing surfaces of the stiffener, a stiffener in the form of a torus interacting with the grooves between the body and the rod, characterized in that, in order to increase the bearing capacity, the torus is formed at least at least two diametrically spaced gears interacting with the grooves and connecting them between themselves, and helical springs located at both ends of the gears.