CS249814B1 - Resilient mounting of electric spindle - Google Patents

Abstract

The invention relates to the elastic mounting of an electrical spindle of a textile machine for working speeds above 70,000 min<-1>. According to the invention, the electrical spindle is elastically mounted as a subassembly in the frame of the machine by means of elastic elements, and at the same time the outer bearing rings, in which the shaft, together with a pressed-on spinning rotor, is mounted, are mounted in the front cover and/or in the body of the electrical spindle by means of elastic rings in the form of a metal ring which is provided with outer and inner radial projections arranged offset relative to one another by half the angular division over the circumference. The outer surface of the outer projections and the inner surface of the inner projections take the form of a cylindrical surface of revolution or part of the outer surface of a polygonal prism. The elastic mounting of the electrical spindle can advantageously be used for the fine-spinning machine spindles working at high speed. <IMAGE>

Description

The invention also relates to a resilient support of an electric spindle of a spinning machine suitable for an operating speed of more than 70,000 rpm.

In the prior art, the elastic bearing of the electric spindles was realized only by an external elastic bearing * in which the mechanical vibration of the electric spindle is damped by elastic elements located outside the electric spindle body. The transmission of mechanical oscillation and noise is poor and the probability of damage to the rolling bearing of the spinning rotor of the spinning machine is high.

These drawbacks are largely eliminated by the elastic bearing of the electric spindle consisting of a shaft mounted in a double row ball bearing with internal raceways formed on the shaft, 8 rolling elements arranged in a cage, with a split outer ring arranged by at least one spring ring in the front or rear cover and / or in the body of the electric spindle housed in the machine frame by means of the resilient members according to the invention, characterized in that the resilient ring for receiving the outer bearing ring is formed as a thin-walled metal ring provided on the outer cylindrical surface a cylindrical surface with the same number of inner protrusions, the inner protrusions being offset by half by the outer protrusions along the inner circumference of the elastic ring their angular pitches. Another object of the invention is that the outer surface of the outer projections and the inner surface of the inner projections are formed as part of a rotating cylindrical surface. It is a further object of the invention that the outer surface 249814 of the outer protrusions and the inner surface of the inner protrusions are formed as part of a skirt of a perpendicular polygonal prism.

*

The resilient mounting according to the invention is largely damped by the mechsaiic oscillation of the rotating masses of the electric spindle. transition to static masses. The position of the electric spindle is statically compliant, which is desirable in terms of resonances and yet sufficiently rigid. The resonant areas are shifted to lower revolutions, sufficiently different from the working frequencies and are slightly bridged during acceleration and deceleration · The noise of the rolling element is reduced and only the noise caused by the ventilation effects of the spinning rotor prevails ·

Flexible! The electric spindle according to the invention is shown in section in the accompanying drawing. Fig. 1:. and Fig. 2 shows an elastic ring.

Body. The electric spindle is closed at the ends by the front cover 1 and the rear cover 2, which is closed. They are provided with a groove 11. The grooves 11 are arranged resiliently. members .. in the displayed. case. . Designed as .0 ”rubber rings * Spinning. the rotor of the electro-spindle is pressed on a shaft mounted in ball bearings. The outer rings 4 of the bearings are mounted in the front cover 2 and the housing. % of the electric spindle by means of flexible rings 6. Flexible rings. 6 are in the form of a thin-walled metal ring provided in the illustrated case with a. an outer cylindrical surface 2 with four regularly spaced outer projections 2 and on. an inner cylindrical surface 10 with four inner projections. 8. The outer surface of the outer projections χ and the inner. the surface of the inner protrusions 8 is formed as part of a rotating cylindrical surface, in another possible embodiment it may be embodied as. part of the shell of a perpendicular multilateral prism. The inner protrusions 8 are displaced over the inner periphery of the elastic ring 6 relative to the outer protrusions χ. half their angular pitch. ·

In the operation of the electric spindle with a flexible bearing according to the invention, the spinning rotor is oscillated due to the dynamic imbalance. For the most part, the mechanical oscillations of the rotating masses, i.e. the spinning rotor, the shaft, the rolling elements and the cage are: bearings already attenuated on the transition

- 3 du to static masses by elastic deformation of the elastic rings 6, the elastic members J represent a further degree of dampening and at the same time they reduce the noise of the electric spindle to a certain extent ·

The spring bearing according to the invention is advantageously used in particular for damping the mechanical oscillations occurring in high-speed spindles of textile machines.

Claims (3)

«« Flexible spindle support consisting of. a 'shaft mounted' in a double row ball bearing with 'internal raceways formed on the shaft, with body housings' arranged in a cage, with an outer ring arranged by at least one spring ring in the front or rear cover and / or in the electric spindle body' stored in the machine frame through elastic members, characterized in that the resilient ring (6) for accommodating the outer ring is formed as a "thin-walled metal 'ring provided on an outer ^ SI ^ fB-feu ⁽⁹⁾ at ^least by three regularly circumferentially rozmístěrými external protrusions (7) 'and on the inner cylindrical surface' (10) 'with an equal number of inner protrusions (8), wherein the inner protrusions (8) are offset by half their angular pitch relative to the outer protrusions (7) along the inner circumference of the elastic ring (6). · The elastic bearing according to claim 1, characterized in that the outer surface of the outer projections (7) and the inner surface of the inner projections (8) are formed as part of a rotating cylindrical surface. 3 · Flexible mounting according to. . Item according to claim 1, characterized in that the outer surface of the outer protrusions (7) and the inner surface of the inner protrusions (8) are formed as part of the shell of a perpendicular polygonal prism.