CS205246B1 - Yarn twisting unit for ringless spinning machines - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an annular spinning device for textile fibers in which the spinning process is separated from the yarn winding, and more particularly to a twisting device used on such devices.

Most effectively, the present invention can be used on rotor spinning machines for producing high linear density (220-84 tex) yarn of low grade cotton, cotton yarn waste, short wool fibers, chemical fibers up to 70 mm in length, and various blends of the above fiber types .

At present, the textile industry has the greatest prospects of spinning-free spinning devices in the textile industry, which can be divided into two main types: the first of which is a rotating spinning chamber, and the second of which a twisting member in the form of a rotating rotor is used.

At present, annular spinning devices are widely known in which the twisting member is a rotating rotor (see, for example, U.S. Patent 3,877,211, published April April 1975). The rotor has a disc with a central fiber passage passage and a housing which is arranged below the disc along the axis of the rotating rotor and is elastically pressed towards the disc. The disc has a bearing surface for receiving the fibers and forming threads therefrom while the rotor is rotating. The fibers are retained on the disc surface by the mechanical forces generated by the protrusions formed on the disc surface.

The fact that there is no elastic grip of the yarn produced results in a low-twist yarn having low physico-mechanical parameters being produced. Practically impossible.

use this yarn at all. However, this undesirable phenomenon can be prevented by the use of a twisting organ according to USSR Authorial Certificate No. 225 049, Class D 01 H, published in Bulletin No. 26 of 12/08/68, which was chosen by the authors as a prototype. The twisting member comprises a rotor having a disc with a central passageway for the passage of fibers, as well as a housing arranged below the disc along the rotor rotation ace and elastically pressed towards the disc. A ball is arranged between the disc and the sleeve, which together with the sleeve forms an elastic grip for the thread to be formed.

However, these twisting organs exhibit a high yarn breakage. This is explained by the fact that the ball-formed clamp operates in two zones: in the first zone between the disc and the ball and in the second zone between the ball and the sleeve.

In the first zone of the clamp there are united fibers with weak bonds between them, while in the second zone there are fibers which are twisted in a thread and exhibit considerable adhesion to each other.

If impurities, for example coarse admixtures, eventually impurities are introduced into the first clamping zone. Filaments of the fibers, the fibers are braked and as a result their progress to the second clamping zone is interrupted. Due to the tensioning forces, the fibers in the second zone begin to withdraw from each other, while no further fibers are fed from the first zone.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a twisting member for an annular spinning device in which the disc channel is arranged relative to the rotor axis in such a way that the breaking of the yarn produced can be greatly reduced.

The object is achieved in that in a torsion member having a disk with a fiber passage channel, a housing arranged below the disk along an axis of rotation of the rotor and elastically pressed against the disk as well as a ball which is arranged between the disk and the sleeve According to the invention, the outlet opening of the disc channel is eccentrically disposed relative to the axis of rotation of the rotor.

The eccentric arrangement of the outlet opening of the disc channel almost removes the first clamp zone, i.e. the clamp zone between the disc and the ball, giving the fibers the ability to enter the second clamp zone without obstruction.

The occurrence of impurities and clusters of fibers in the second zone of the clamp does not cause any braking or pulling of the fibers apart, since in this zone the fibers are already twisted in the thread and their cohesiveness is considerably higher than the tension by which the thread is pulled from the clamp. Therefore, yarn breaks are virtually eliminated.

In order to prevent the ball from changing position, the dirt could be caused by the agglomeration of the fibers or the fiber. Preferably, a ball displacement restrictor is provided on the side of the disc facing the ball to provide a ball displacement with respect to the axis of rotation of the rotor and representing a recess formed along the rotor axis.

In order that the invention may be more fully understood, specific embodiments of the invention will now be described with reference to the accompanying drawings, in which: FIG. 1 is a cross-sectional overall view of a twisting element according to the invention; FIG. 2 is the same as FIG. 1 with the ball displacement limiter; 3a, b, c show a variant of the embodiment of the ball displacement limiter shown in FIG. 2.

The twisting member according to the invention comprises a rotor 1 (Fig. 1) having a disk 2 with a through-passage channel 4 for the passage of the fibers 4 and set in rotation in any known manner.

Along the axis of rotation J of the rotor 1, a housing 6 is arranged below the disc 2, which is spring-loaded 2 by the spring 2 towards the disc 2. The rotor 1 is connected to the rotary drive by means of a spindle. A ball 8 is arranged between the disc 2 and the sleeve 6, which together with the sleeve 6 forms an elastic clamp 6 for the thread 10 to be formed.

The outlet opening of the channel 2 of the disc 2 lies eccentrically to the axis 2 of rotation of the rotor 1, as can be seen from FIG. 1, namely with eccentricity e. T t

In order to prevent the displacement of the k?

Lick 8 relative to the axis 2 of rotation of the rotor 2, to the disk 2 (Fig. 2) on the side facing said ball and 8, the limiter 11 is arranged relocated balls 8 serving to restrict its houses an over- ¹ relative to the axis 2 of rotation of the rotor 2 The restrictor 21 represents a recess 12 (FIG. 3a) which is provided along the rotor axis 2.

However, the restrictor 11 may also be formed as a ring 13 (FIG. 3b), which is open on the side of the outlet opening of the channel 2 and coaxial with the rotor 2, or the restrictor 22 may be in the form of projections 14 (FIG. 3e). which are located concentrically to the axis 2 of rotation of the rotor 2 ·

The twisting body works as follows:

Upon rotation of the twisting member, the fibers 4 fed in any known manner to the disc 2 are drawn into the channel 2 by cohesiveness, pass through it without obstruction and then twisted in the thread 10 once they have passed through the elastic clamp 6.

If the coarse dirt or thickened spots get into the elastic clamp, the ball 8 will tend to move away from the rotor axis 2. The restrictor 11 secures the ball 8 against this displacement, thereby not adversely affecting the yarn forming process.

Claims (5)

SUBJECT OF THE INVENTION A twisting member for an annular spinning device, comprising a rotor, a disk with a fiber passage channel, a housing which is arranged below the disk along the axis of rotation of the rotor and is elastically pressed towards the disk, and a ball that is. is arranged between the disc and the sleeve and together with it forms an elastic clamp for the thread to be formed, characterized in that the outlet opening of the channel (3) of the disc (2) is eccentrically disposed relative to the axis of rotation (5) of the rotor (1). A twisting member according to claim 1, characterized in that a displacement limiter (11) is provided on the disc (2) on the side facing the ball (8) to limit displacement of the ball (8) relative to the rotor rotation axis (5). (1). A twisting member according to claim 2, characterized in that the limiter (11) is a recess (12) formed along the axis of rotation (5) of the rotor (1). The twisting member according to claim 2, characterized in that the limiter (11) is a ring (13) which is open on the side of the outlet opening of the channel (3) and coaxial with the rotor (1). A twisting member according to claim 2, characterized in that the restrictor (11) comprises projections (14) which are arranged concentrically to the axis of rotation (5) of the rotor (1). 1 sheet of drawings