CS265584B1 - Rotor for spinning of a open-end spinning machine - Google Patents

Abstract

The subject of the invention is a spinning rotor for open-end spinning machines, in which, in order to adjust the lower limit of the critical speed range in the upward direction, there is in the rotor shaft (1), on its drive side, an axial blind hole (8), the depth of which should be once to ten times the shaft diameter. <IMAGE>

Description

BACKGROUND OF THE INVENTION The present invention relates to a rotor of a spinning unit of an open-end spinning machine with a rotor shaft treatment for high operating speeds.

The rotors of the spinning units with bearings on roller bearings or on pairs of rolling rollers reach 90 000 revolutions per minute while maintaining the usual bearing life. A further increase in the operating speed of the rotors of the spinning units is prevented by the resulting vibrations associated with the rotor shafts reaching the region of the third critical speed. Critical speed means the shaft speed at which, in the case of an undamped shaft, the shaft vibrates with subsequent destruction. In the case of a damped shaft, for example using a bearing sleeve housed in rubber bushings and the like, only excessive shaft vibration occurs, but the life of the roller bearings or the contact surfaces of the roller rollers and the respective shaft surfaces is drastically reduced. For this reason, the operating speed of the rotor shaft must be sufficiently distant from the critical speeds even if the rotors are dynamically balanced.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a rotor arrangement of a spinning unit in which the third critical speed region is substantially shifted to a higher speed so that it is easy to apply the conventional rotor shaft rolling bearing principles at 100,000 rpm without significant cost. for the service life of the rotor shaft rolling bearing.

The object of the invention is that the shaft of the spinning unit is provided with a blind axial bore at least on the side of its drive portion which comes into contact with the drive belt means, the depth of which is, for example, 1 to 10 times the shaft diameter. wherein the blind axial bore has at least two different diameters on the workpiece and eventually becomes a continuous bore formed along the entire length of the shaft, or is conical with a point facing the rotor head portion with a small axial blind bore.

The solution according to the invention, which means a substantial displacement of the critical rotor speed range towards higher rotational speeds, further enables dynamic balancing of the rotor shaft by removing material from the interior of the blind axial bore, so that the outer surface of the shaft is not disturbed.

1 shows a longitudinal section through a rotor of a spinning unit with a blind axial bore at the free end of the shaft. FIG. 2 shows an alternate embodiment of a rotor of a spinning unit with a blind axial bore with graduated cross-sections and indicates another possible continuous a hole extending along the entire length of the shaft.

The spinning unit, as is commonly known from open-end spinning machines, comprises a rotor formed by a shaft 6 which is provided at one end with a head portion 2 in which the spinning process takes place. The second free end of the shaft 6 forms its drive portion 3, which for this purpose is usually in tangential contact with the drive belt means 4. According to an exemplary embodiment, the shaft 6 is adhered to by means of a multi-row bearing bush 5 covered on both sides.

The rotor assembly is mounted in the housing 7 of the spinning unit.

In order to move the critical speed range towards higher speeds, the shaft 6 is provided with a blind axial bore 6 at the drive side 3, the depth of which is, for example, 1 to 10 times the diameter of the shaft 6 (FIG. 1). The blind axial bore 4, as shown in FIG. 2, may have different cross sections, in that the blind axial bore 4 will be fitted or be conical with the cone apex facing the rotor head portion 2 (not shown) or optionally otherwise curved, the blind axial bore The diameter of the shaft 1 can vary from 0.2 to 0.95.

In special cases depending on the rotor design of the spinning unit, the rotor shaft 6 can be provided with a through bore 6 (FIG. 2), the diameter of which is significantly smaller than, for example, the diameter of the blind axial bore 6 in order to maintain the desired effects of the solution according to the invention.

The function of the blind axial bore poz consists of relieving the drive portion £ of the rotor shaft přičemž while adjusting the dynamic properties of the shaft tak so that it moves higher the lower limit of the critical speed range. The blind axial bore lze can be used to balance the shaft tak so that the unbalance is removed in the form of material removal from the cavity of the blind axial bore..

A further possibility in the rotor with a shaft 8 with a blind axial bore 8 is that the blind axial bore 8 is filled with a substance of a different specific weight, which can, for example, cause a vibration damping effect and prevent dust penetration into the blind axial bore 8.

Claims (3)

An rotor of a spinning unit of an open-end spinning machine whose shaft, at one end provided with a head portion and at the other free end of a drive portion in tangential contact with the drive belt means, is supported in a multi-row bearing housing or rolled on pairs The shaft (1) is provided with a blind axial bore (8) at least on the side of its drive part (3), the depth of the blind axial bore (8) being 1 to 10 times the diameter of the rotor shaft (1). Rotor according to Claim 1, characterized in that the blind axial bore (8) has at least two different diameters on its component. 3. Rotor according to item 1, characterized in that the blind axial bore (8) has 0.2 to 0.95 diameter Shafts (1) rotor. 4. Rotor acc point 1, marked by blind axial hole (8) Yippee conical with peak directed towards the rotor head portion (2).