RU2479764C1 - Vibration-isolating support - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: vibration-isolating support includes a dome-shaped elastic element fixed between cone-shaped shells mounted on the bar. On larger diameter of cone-shaped shells there made are flat annular supports containing through holes. Cone-shaped shells are mounted so that they can be moved axially relative to each other and guide fastening elements.

EFFECT: reduction of amplitude of vibrations and increase in operating life of the equipment.

2 cl, 3 dwg

Description

The invention relates to the field of engineering, in particular the mechanics of movement, and is intended for elastic fastening of equipment and devices on ships. The invention can be used in other industries where high demands are placed on effective vibration and shockproof protection of equipment from external vibrations and shocks.

Rubber-metal shock absorbers of a tram car are known, containing a dome-shaped elastic rubber element dismembered by metal coaxial bushings (V. Lepetov. Rubber technical products, M., Chemistry, 1965, P.204, Fig. 117).

Known vibration isolating support containing cone-shaped telescopic glasses connected by a guide rod passing through the central holes provided in them and having a diameter smaller than the inner diameter of the rubber dome-shaped elastic elements (a.s. 306298, IPC F16F 1/30, publ. 11.06.71 Bull. No. 19).

A common drawback of the known shock absorbers is that the alternating amplitude of the equipment’s movement during the downward movement is suppressed by an increase in the deformation of the elastic element, and when moving upward, by a decrease in the deformation of the elastic element relative to the rest strain experienced by the elastic element in static, which increases the height of the oscillation amplitude of the equipment and reduces its duration operation.

The technical result of the invention is the creation of a design of vibration-isolating supports that contribute to reducing the height of the amplitude of the oscillations of the equipment and increase the life of the equipment.

The technical result is achieved by the fact that on the largest diameter of the conical cups there are made flat annular supports containing through holes through which the conical cups are mounted with the possibility of axial movement relative to each other and the guide fasteners. Guide fasteners are made in the form of studs on which spherical nuts are mounted, interacting with the flat ring support of the outer cone-shaped glass.

The essence of the proposed technical solution is illustrated by the following drawings.

Figure 1 - vibration isolating support in a loaded state, static.

Figure 2 is a fragment of a vibration-isolating support in the process of moving the equipment down, the lower point of the amplitude of the movement of the equipment.

Figure 3 is a fragment of a vibration isolating support in the process of moving the equipment up, the upper point of the amplitude of the movement of the equipment.

The vibration isolating support comprises a dome-shaped elastic element 1 fixed between conical cups mounted on the shaft 2 (inner 3 and outer 4), the largest diameter of which is made flat ring supports 5 and 6, containing through holes 7 and 8. Through through holes 7 and 8, conical the glasses 3 and 4 are mounted with the possibility of axial movement relative to each other and the guide fasteners, made in the form of studs 9. On the studs 9 mounted spherical nuts 10, interact s flat support ring 6 outer conical cup 4. On the inner diameter of the outer conical cup 4 a projection 11 through which the rod 2.

The proposed vibration isolating support works as follows.

The dome-shaped elastic element 1 by means of the rod 2 and the nut 12 is subjected to a preliminary load equal to the weight of the part of the equipment, which is mounted on a vibration-isolating support. By means of the studs 9, a vibration-isolating support is mounted on the foundation and the spherical nuts 10 fix the deformation by which the dome-shaped elastic element 1 is subjected as a result of the preliminary load created by the rod 2 and the nut 12. Then, the equipment 13 is mounted on the rod 2 and secured with a nut 14 (Fig. one). All threaded connections are fixed with sealant.

In the process of damping the vibration when the equipment 13 moves down, the vibration is damped by the fact that the outer cone-shaped glass 4, moving along the studs 9 down, exposes the dome-shaped elastic element 1 to compression deformation and shift down, which leads to the formation of a gap “a” between the flat ring support 6 and spherical nut 10 (figure 2). When the equipment 13 moves up, the vibration is damped by the fact that by means of the rod 2 the inner cone-shaped glass 3 moves upward along the studs 9, while the clearance “a” between the flat ring support 6 and the spherical nut 10 is reduced. As a result, the flat ring support 6 abuts the spherical nut 10 (FIG. 1). With further movement of the rod 2 upward, the inner cone-shaped glass 3 exposes the dome-shaped elastic element 1 to compression deformation and upward shear, which leads to the formation of a gap “b” between the flat annular support 5 and the foundation 15 (Fig. 3). The dome-shaped elastic element 1 in the process of damping vibration is subjected to compression and shear, regardless of the direction of movement of the equipment 13.

Thus, the movement of the equipment up or down during vibration is limited by equal forces that are created by one proposed conical elastic element, which reduces the height of the amplitude of the oscillations of the equipment and as a result increases its service life.

Claims (2)

1. Vibration isolating support containing a dome-shaped elastic element fixed between cone-shaped cups mounted on the rod, characterized in that flat annular supports are made on the largest diameter of the cone-shaped cups containing through holes, by means of which the conical cups are mounted with the possibility of axial movement relative to each other and the guides fasteners. 2. Vibration isolating support according to claim 1, characterized in that the guide fasteners are made in the form of studs on which spherical nuts are mounted, interacting with a flat annular support of the outer cone-shaped glass.

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