SU1754976A1 - Vibration isolation - Google Patents

Abstract

The use of vibration protection devices and equipment from shock loads. SUMMARY OF THE INVENTION — The vibration isolator comprises a glass filled with a damping liquid, a spring placed in it and a support plate on it, a screw rod mounted on a support plate inside the spring, a hollow perforated cylinder with radial ribs inside and placed inside the latter spring-loaded axially relative to the bottom of the glass of the impeller , with guide sleeve for engagement with screw rod 2 or

Description

The invention relates to the field of mechanical engineering and can be used for vibration protection of instruments and equipment from shock loads under transient conditions.

Spring vibration isolators are known with hydraulic dampers made in the form of pistons with throttling openings.

Vibration isolators are known, the springs of which are placed in glasses with a damping fluid.

A disadvantage of the known solutions is that they do not have sufficient damping under shock loads and transient conditions.

The aim of the invention is to increase the efficiency of damping.

This goal is achieved by the fact that the vibration isolator is equipped with a screw rod mounted on a support plate inside the spring, a hollow perforated cylinder with radial ribs inside and placed inside the latter, spring-loaded in the axial direction relative to the bottom of the glass with an impeller with a guide sleeve for engagement with the screw rod.

Fig 1 shows vibration isolator, section; Fig 2 - the same, top view.

The vibration isolator contains support plates 1, an outer cup filled with liquid 2. spring 3, spring-loaded support 4, impeller 5, impeller sleeve with slot b, screw rod 7, and perforated screen with radial plates 8.

Under static loading, the perforated cylinder 8 does not overlap the blades of the impeller 5. At the same time, the blades of the impeller 5 are located in the circumferential direction relative to the radial plates of the perforated cylinder 8 in such a way that when the spring is compressed by dynamic force until the coils are closed, the radial plates of the cylinder 8 and the impeller plates 5 when it is rotated with a screw rod 7 (as shown

with

Vj cl

4 h xj o

but in fig. 2 with the condition of rotation of the impeller 5 clockwise when the arrow 7 moves down).

When a dynamic load is applied when the upper plate 1 moves, together with the screw rod 7 and the cylinder 8, the impeller 5 rotates as a result of the interaction of the rods and the slot of the sleeve b, and simultaneously the cylinder 8 with the radial plates moves towards the impeller ..

As a result, there is an increase in motion resistance due to a decrease in the volume of the chamber formed by the blades of the impeller 5 and the radial plates of the cylinder 8 and the overlap of this chamber at the height of the cylinder 8. Moreover, the greater the displacement amplitude of the upper plate 1, the greater the overlap of the chamber with the cylinder and more resistance to movement. The appropriate choice from the calculation of the hydraulic resistance of the perforation of the cylinder 8, including uneven in height, the initial position of the blades of the impeller 5 relative to the radial plates of the cylinder 8 and the initial overlap of the impeller 5 by the cylinder 8 in height increases the efficiency of damping and limiting large amplitudes of oscillations at resonant and transient modes of operation.

In a vibration isolator, the dynamic forces determined by the hydraulic resistances are not transmitted completely to the protected object, as in the known piston dampers. In the vertical direction, only the axial component is transmitted in a pair: a screw rod 7,

the slot of the sleeve 6, through the spring-loaded support 4. In accordance with this, the vibration isolator allows to increase the efficiency of damping and limiting

(preventing closure of coils of springs) with large oscillation amplitudes, typical of resonant and transient modes.

With small fluctuations in resonant

The influence of the damping will be insignificant due to the small hydraulic resistances in the impeller system 5 of the cylinder 8 and the gaps in the pair of rod 7, slot of the sleeve 6. Spring-loaded support 4

allows you to compensate for distortions at relative lateral displacements of the support plates 1. The spring-loaded lower bearing, on which the impeller is located, eliminates the transfer of dynamic axial force to the screw pair on the lower plate, and also prevents wedging of the screw pair at lateral displacement from the cover.

Claims (1)

Invention Formula A vibration isolator containing a glass filled with a damping fluid, a spring placed in the latter and a support plate mounted on it, characterized in that, in order to increase damping efficiency, the vibration isolator is equipped with a screw rod mounted on a support plate inside the spring, a hollow perforated cylinder with radial fins inside and placed inside the latter, spring-loaded axially relative to the bottom of the glass with an impeller with a guide sleeve to interact with the screw rod. КХУ /// Ц w ///