SU1663270A1 - Vibration system - Google Patents

Abstract

The invention relates to mechanical engineering, namely to oscillatory systems, for which one of the most essential requirements is the regulation of the amount of occupied space. The aim of the invention is to enhance operational capabilities by releasing storage space. The usable space between the base 6 and the object 1 is released by placing the compensators 7, 8 of the supply lines 2, 4 and 3, 5 inside the vibration insulators 9, 10. The loads from the weight of the object 1 and the working medium pressure are distributed between the vibration insulators 9, 10 and the compensators 7, 8, installed in parallel, in proportion to their rigidity. When a vibration-impact load is applied from the side of the base 6 to the object 1, additional vibration of the insulators 9, 10 and compensators 7, 8 occurs. The oscillation energy is dissipated mainly in structural joints and elastic-damping materials, for example, material MP, from which the shells are made 11, 12 tori 9, 10. 1 zp ff, 1 ill.

Description

The invention relates to mechanical engineering, namely to oscillatory systems, for which one of the most essential requirements is the regulation of the volume of usable space.

The purpose of the invention is the expansion of operational capabilities due to the release of usable space.

The drawing shows an oscillatory system, a longitudinal section.

The oscillation system contains a protective object 1 against vibro-shock loads, for example, a start-shut-off valve, with inlets 2-5, a base 6 and compensators 7 and 8 of the inlets and vibration isolators 9 and 10 located between it and the object 1.

The vibration isolators are made in the form of elastic shells 11 and 12, connected in pairs and attached to the object 1 and the base 6 by means of fixing bolts 13 and 14. The compensators 7 and 8 are placed in the cavities of the elastic shells and attached to the fixing bolts 13 and 14. The latter have through holes 15 and 16, connecting elements 17 and 18 for attachment to the connectors 2-5 and flanges 19 and 20 for attachment to the expansion joints 7 and 8.

When you place the compensators 7 and 8 of the hoses inside the vibration isolators 9 and 10. Free space between them is freed up, in which you can place additional equipment 21.

The inlets 2-5 are made, for example, in the form of pipelines or hoses, while the inlet 4 serves to supply a working medium, and the inlet 5 serves to supply a control medium. These liquids are supplied from the corresponding systems located on the base 6, to the object 1. The latter has a working body 22 and an opening 23 for draining the working medium. Compensators 7 and 8 are made in the form of bellows, hermetically connected to the shoulders 19 and 20 on the bolts 13 and 14.

The connecting elements 17 and 18 are made in the form of threaded fittings designed for the tight connection of the inlets 2 and 4. The elastic shells 11 and 12 of the vibration isolators are made, for example, in the form of a fastened pair of bell-shaped elements folded by the bases from MP material.

The connections can also be made in the form of cables for supplying electric current or in the form of metal bundles of highly heat-conducting material for transferring heat from heated parts of the equipment with expansion joints in the form of turns (not shown).

The device operates as follows.

The weight of the object 1 and the pressure force of the working medium supplied through the inlet 4, openings 15 and 16, the compensator 7 and the inlet 2,. they are perceived by vibration isolators 9 and 10 and elastic compensators 7 and 8 installed in parallel with them. When a control medium is supplied through connections 5 and 3 to compensator 8, its pressure force additionally acts on vibration isolators 9 and 10 and compensators 7 and 8. The forces are distributed between the compensators and vibration isolators in proportion to their rigidity. The stiffness of the oscillatory system is defined as the sum of the stiffnesses of the vibration isolators 9 and 10 and the compensators 7 and 8. In addition, the dynamic properties depend on the inlets 2-5 filled with the media.

When exposed to vibration shock from the side of the base 6 on the object 1 there is an additional deformation of vibration isolators and compensators. The vibrational energy is dissipated mainly in structural compounds and elastically damping materials, for example, MR material, from which shells 11 and 12 of vibration isolators 9 and 10 are made.

Placing the compensators 7 and 8 of the inlets inside the vibration isolators 9 and 10 provides an increase in compactness and the release of useful space between the protected object 1 and the base 6. Placing additional equipment 21 in the released space allows you to expand the operational capabilities of the oscillatory system.

Claims (2)

Claim 1. Oscillating system, containing an object with eyeliners protected from vibro-shock loads, a base, eyeliner compensators and vibration isolators placed between the last and the object, made in the form of elastic shells connected in pairs and attached to the object and base by means of fixing bolts, distinguishing the fact that, in order to expand operational capabilities, expansion joints are placed in the cavities of elastic shells and are attached to mounting bolts, the latter have through holes and a connector nye elements for attaching to the outer parts of the eyeliner. 2. The system of pop. 1, characterized in that the eyeliner is made in the form of a metal bundle of highly thermally conductive material with a coil representing a compensator.