RU1796803C - Vibration insulator - Google Patents

Abstract

Usage: mechanical engineering, namely, means of protection against vibrations in devices and apparatuses. SUMMARY OF THE INVENTION: A vibration isolator comprises a hollow rubber torus and a rubber ring element mounted in its cavity with a tension. The latter has a different elastic modulus with a torus, and its radial section is a star. 4 ill.

Description

The invention relates to mechanical engineering, in particular to means for protecting against vibration in devices and apparatuses.

A pneumatic spring is known, comprising a housing, a hollow piston disposed therein, a rubber-cord diaphragm connecting the housing to the L toroid piston located in the bend of the diaphragm, the toroid being hollow and additional hollow toroids disposed one inside the other, placed therein. Throttle openings are made on all toromds, and the spring is equipped with a coil with a variable inductance, the turns of which cover toroids, which are made of rubber with a ferromagnetic filler, and each internal toroid with respect to the external has a high concentration of ferromagnetic filler.

A disadvantage of the known air spring is the lack of effectiveness of the vibroprotection.

A pneumatic spring is known which contains toroids, which have a transverse stiffness of the material increasing from the inner toroid to the outer one, and are provided with slots arranged along their forming opposite the throttle holes, through which the throttle holes communicate with the cavity of the rubber diaphragm.

A disadvantage of the known air spring is the lack of vibration protection efficiency.

The aim of the invention is to increase the efficiency of vibration protection by expanding the frequency range.

The object is achieved in that the vibration isolator comprises an elastic element in the form of a hollow rubber torus and a rubber ring element installed in its cavity with a tension, having a different elastic modulus, the radial section of the ring element being a star.

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The positive effect of increasing the efficiency of vibration protection by expanding the frequency range is achieved by increasing the dissipation of vibrational energy as a result of increased external friction between the surfaces of the elastic element in the form of a hollow rubber torus and a rubber ring element installed in its cavity with a tension. The preload of the rubber ring element gives a nonlinearity of the elastic characteristic due to the use of the Brauschwinger effect, which has the form of a hysteresis loop. This allows, with an appropriate choice of the elastic moduli of the material of the elastic element in the form of a hollow rubber torus and a rubber ring element installed in its cavity with a tension, to achieve a significant increase in the efficiency of the vibration isolator in various frequency ranges of disturbing forces. Under the action of the tension, the rays of the multipath star of the annular element are deformed either by buckling or by bending, while the vibrator is further operated accordingly, either by compressing the elastic material of the ring element or by further bending the rays of the multipath star. Thus, in order to increase the efficiency and expand the frequency range of the vibration protection, the star shape of the radial section of the annular element is used.

New significant features previously unknown are the radial section of the ring element in the form of a multipath star.

In FIG. 1 shows a vibration isolator, vertical section; figure 2 is the same, a top view; Figs. 3 and 4 show a vertical section of a vibration isolator with deformation of the rays of the annular element in the form of buckling and bending of the side surfaces.

The vibration isolator contains an elastic element 1 in the form of a hollow rubber torus and a rubber ring element 2 installed in its cavity with a tension, having

a different elastic modulus, with the radial section of the annular element 2 being a multi-beam star with rays 3.

Vibroisol tor works as follows

way.

As a result of the action of the perturbing forces on the elastic element 1 in the form of a hollow rubber torus, it deforms and the rays 3 of the rubber ring element 2 are displaced in the form of a multipath star, and either buckling or bending of the rays occurs 3. The vibrational energy dissipates due to internal friction in the rubber ring

element 2 and the elastic element 1, and also as a result of the external friction of the rays 3 on the inner surface of the cavity of the elastic element 1, made in the form of a hollow rubber torus.

Claims (1)

The claims A vibration isolator containing an elastic element in the form of a hollow rubber torus and installed in its cavity with a tension of a rubber ring element having a different elastic modulus, characterized in that, in order to increase the efficiency of vibration protection by expanding the frequency range, the radial section of the annular element is a star. Riga / ig, 2