CS252371B1 - Electrospindle - Google Patents

Abstract

The high-frequency electrospindle, designed for winding and cutting pocket windings, solves the problem of fixing and centering the spindle relative to the slip ring and reducing the load on the bearings by the fact that the non-rotating flexible mandrel of the electrospindle is embedded in the mounting base and the rotating part of the electrospindle, consisting of a coil carrier with a pressed-on rotor of the drive electric motor, is mounted on the flexible mandrel by means of an upper* bearing, while the outer body of the electrospindle with the attached stator is connected to the rotating part of the electrospindle by means of at least one bearing and to the mounting base by means of a flexible element. The coil carrier of the electrospindle is provided in the upper part with an annular rotating lubricating oil tank, in which a bearing connecting the rotating coil carrier with the non-rotating flexible mandrel of the electrospindle is placed.

Description

BACKGROUND OF THE INVENTION The present invention relates to the construction of an electric spinning machine for winding high-speed cops.

In the manufacture of man-made or synthetic fibers, it is necessary to twist and thread some types of fiber, after its further processing, and wind them on spools, tubes, kicks. In such winding - twisting, the fiber is wound on a spool placed on the spindle and rotating with a high rotation frequency. The spindle can be driven either by a motor driving several spindles through gears, friction gears, treadmills and the like, or by its own individual drive by means of an electric motor. electro. The design of the spindles must ensure reliable, reliable operation at high operating speeds and the required winding weights. The failure rate of spindles operating in continuous operation must be minimal, the design must be simple with a minimum number of parts, with easy maintenance and repair. The spindle must have good self-stabilizing capability when operating with an unbalanced rotating winding, must have a quiet running, low power consumption, good dynamic acceleration and deceleration characteristics, as well as a long service life.

Currently used electro-spindles for coping coils according to the literature "Analysis of current designs of electro-spindles used in industry, man-made fiber production" published in 1971 by the Horizon Publishing House in Moscow, are constructed as either an asynchronous electric motor of normal design with an electric motor rotated to a rotating mandrel usually mounted in ball bearings and on which a coil carrier with a slotted coil is fastened or as an asynchronous electric motor of a standard design with a rotor mounted on a hollow housing, in which a rotating elastic shaft of the electro spindle with the coil is placed by means of cone or as an asynchronous reversible electric motor with a non-rotating mandrel, on which the electric motor stator and the rolling bearings carrying a rotating coil support of a special shape are mounted, and at the bottom of the support there is ring rotor electric motor. The common tendency of the above mentioned designs of electric spindles is the effort to flexibly connect two dynamic assemblies, namely the relatively balanced rotor of the electric motor and the unbalanced coil with the wave. Such a connection is intended to allow an unbalanced coil assembly — its windings at its high rotational speed to be taken as the axis of rotation of the axes of inertia of the assembly and not its geometric mesh as it is in the case. It should be taken into account that the identity of the geometric axis of rotation and the axis of inertia of the coil-winding system is conditioned by zero static and dynamic imbalances which, however, is practically unattainable.

The spindle is usually fixed to the spindle bench by means of rubber or rubber-metal springs - silent blocks, damping both the vibration generated during operation and the spindle due to the imbalance of the coil assembly - the coils and not mixed to the spindle in the spindle. between the spool carrier, the spool and the spindle rotor, as well as the spindle-to-spindle bench connections. The rubber springs must be sufficiently flexible to effectively dampen the transmission of vibration to the spindle bench, and at the same time sufficiently rigid to ensure a fixed coaxial position of the electro-spindle relative to the twisting rings. These contradictory requirements lead to a compromise in the selection of suitable silent blocks and thus to an increase in vibration transmission to increase the dynamic loading of the electro-spindle bearings and at the same time to impair the possibility of an accurate alignment of the electro-spindles to the twisting rings. Lubrication of electric spindle bearings is usually ensured either by a permanent lubricant filling or by spraying the bearings with lubricating oil, whereby the spraying is ensured by suction of lubricating oil from the reservoir by a rotating hollow mandrel, or by means of the lubricator dosing liquid.

These drawbacks are overcome by a novel electro-spindle design for the winding and scaffolding of the fibers of the present invention, in which the elastic mandrel is fixedly connected to the attachment bottom and carries a bearing in the upper part located in the upper part of the spool carrier. The coil support is fitted with an electric motor rotor and two centering bearings. These centering bearings are housed in an outer body of the electric wire carrying the stator of the electric motor and the center of the rotor of the electric motor relative to the stator. The principle according to the invention is characterized in that the external body of the electro-spindle is connected to the fixing bottom by means of at least one spring element, for example forming a ring.

The device according to the invention is shown in section in the attached drawing. The electric spindle consists of a flexible non-rotating mandrel 1 fixedly connected to the mounting bottom 2. In the upper part, the flexible mandrel 1 carries an upper bearing 9 located in an annular rotary tank 10. The reservoir 10 is firmly connected to the coil support 8 on which the rotor of the electric motor 6 is pressed. two centering bearings 3 ensuring the alignment of the rotor 6 of the electric motor to the stator 7. The outer body 4 of the electro-spindle is connected to the fixing bottom 2 by means of a flexible damping element 5, which may be of rubber, polyurethane and the like. The reservoir 10 as well as the mounting base 2 contains lubricating oil 11. The coil support 8 is provided with a coil252 and a coil 13 with coil 13. During operation of the electric spindle, the resilient damping element 5 inhibits the vibration transmission of the rotating coil support 8 with the coil 12. into the p-fastening bottom 2.

Claims (1)

SUBJECT High-speed electro-spindle, intended for winding and twisting cops, consisting of a non-rotating elastic spindle of the electro-spindle, anchored to the mounting base and a rotating part of the electro-spindle, formed by a coil support with a pressed rotor of a driving electric motor mounted on The invention is carried out by means of a top bearing, wherein the outer spindle body with the stator is connected to the rotating part of the spindle by means of at least one bearing, characterized in that the outer spindle body (4) is coupled to the bottom mounting (2) by at least one resilient annular element (5). ). 1 sheet of drawings