CS258567B1 - Thread Feeder Coupling for Textile Machines - Google Patents

Abstract

The solution relates to a coupling for a thread feeding device in textile machines, comprising an axially adjustable disc and a friction member mounted against it. The friction member is formed as a clamping ring, provided with a thread on the inner cylindrical surface, with the help of which it is mounted on an external thread formed on the driving member or on the adjustable disc.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a coupling for a yarn feeding device in textile machines.

The transmission of the torque from the drive member to the driven member in the known yarn feeding devices of textile, in particular annular twisting machines, is effected by means of friction clutches which comprise an axially adjustable disc and a friction member disposed against it. In this case, for example, the friction member is rigidly connected to the drive member and the adjustable disc is mounted on the driven member so that it rotates at the same time. During the service life of the clutch, the lining affixed to either the adjusting disc or the friction member is worn, thereby increasing the air gap between the friction member and the adjusting disc.

Increasing this gap is disadvantageous in the case of electromagnetic couplings in which the adjusting disc is made of a magnetically conductive material and is attracted by means of an electromagnet to a brake lining mounted on a friction member. If the lining is worn, the gap can increase to such an extent that the adjusting disc may not be attracted by the electromagnet.

This problem is even more pronounced in magnetoelectric couplings in which a combination of an electromagnet ‘and a permanent magnet is used to control it. Here, the width of the air gap must be adjusted to a much smaller extent, since the small width of the air gap can cause the adjusting disc to self-tighten and the large width can cause the adjusting disc to not be pulled by the electromagnet.

1 of known thread-coupling couplings used, for example, on annular twisting machines, the friction member is fixedly mounted on the body of the drive or driven member by means of screws or fastening disks and screws. When adjusting the air gap width, loosen the screws, adjust the gap width and retighten the friction member by tightening the screws.

The disadvantage of the coupling according to this solution is the complicated and time-consuming adjustment and the more complex construction of the electromagnet.

In another known device, for example, in the case of the annular twisting machine feed, when adjusting the width of the air gap between the adjusting disc and the friction member, the drive member is moved along the bearing housing by means of a wedge clamp.

The disadvantage of this solution is, on the one hand, the adjustment of the drive member in the axial direction and, on the other hand, the complicated wedge clamp.

The aforementioned disadvantages are eliminated by the coupling of the thread-feeding device of the textile, in particular of the annular twisting machines according to the invention, characterized in that the friction member is designed as a clamping ring provided with a thread on the inner cylindrical surface on the drive member or on the adjustable disc.

The advantage of the thread feeder coupling according to the invention is to simplify the operation of adjusting the gap width between the adjustable disc and the friction member, further minimizing the dimensions and reducing the manufacturing effort.

An exemplary embodiment of a yarn feeder coupling according to the invention is schematically shown in the accompanying drawings, in which: Fig. 1 shows a section through the feed roller and Fig. 2 shows a section through the unwinding spindle.

The feed roller coupling, shown schematically in FIG. 1, comprises a drive member 4 rotatably mounted on bearings mounted on the driven shaft 6 on which the roller housing (not shown) is supported. A thread 7 is formed on the drive member 6 on the outer cylindrical surface, on which the adjustable friction member 2, which is configured as a clamping ring, is mounted, on whose inner cylindrical surface a thread is also formed.

The clamping ring is formed in a known manner, for example by cutting a ring-shaped body provided with a thread on the outer cylindrical part.

After the clamping ring has been fitted to the drive member 6, the clamping ring is secured against rotation and axial displacement in a known manner by tightening its circumference.

One face of the friction member is designed as a friction surface intended to abut the liner 4 of the adjusting disc 5, which is axially adjustable on the driven shaft 6 with which it rotates.

The torque is transmitted from the drive member 6 to the driven shaft 6 when the adjusting disc 5 is pressed against the friction surface. When adjusting the width of the air gap between the liner 4 on the adjusting disc 4 and the friction member 2, the clamping ring is released and by rotating it on the drive member 6 the air gap width can be precisely adjusted while the wiping member 2 moves along the thread 6. After adjusting the air gap width, the operator re-fixes the clamping ring by pulling it.

The unwinding spindle coupling schematically shown in FIG. 2 comprises a drive member 4 rotatably mounted on a drive member 6 rotatably mounted on the driven shaft 4 by bearings. The spindle of the unwinding spindle (not shown) is mounted on the driven shaft. The drive member 6 is provided with a flange, on the front surface of which a friction surface lining 6 is fixed, intended to abut the friction member 2, which is adjustable on a movable disc 5 provided on the outer cylindrical surface on which the friction member 2 is mounted. thread £. The friction member 6 is designed as a clamping ring which is also threaded on the inner cylindrical surface. The clamping ring is formed similarly to the previous exemplary embodiment. The adjustable disc 6 is axially adjustable on the driven shaft 6 with which it rotates.

The adjustment of the air gap width between the friction member 6 and the liner 6 mounted on the drive member 6 is carried out after releasing the clamping ring, as in the previous exemplary embodiment.

Claims (1)

SUBJECT OF THE INVENTION A thread-coupling device for textile machines, in particular annular twisting machines, comprising an axially adjustable disc and a friction member disposed thereon, characterized in that the friction member (2) is formed as a clamping ring provided with a thread on the inner cylindrical surface (3) by means of which it is mounted on an external thread formed on the clutch drive member (4) or on an adjustable disc (5).