EP1979257B1 - Method for spooling a thread on a textile machine which produces crosswound bobbins, and textile machine which produces crosswound bobbins - Google Patents

Abstract

Method for spooling a thread (9) on a textile machine which produces crosswound bobbins (8) and has a multiplicity of work stations (1) of the same kind, wherein each work station (1) comprises a thread traversing device (24) for laying the thread (9) during the normal operation of the textile machine with a nominal stroke on a crosswound bobbin (8) which is driven by a winding shaft (23), and an apparatus (2) for eliminating the interruption of the thread (9), wherein, after the thread interruption has been eliminated, first of all a defined thread length is stored in a thread storage device (12), wherein the nominal stroke of the thread traversing device (24) of the work station (1) is shortened after the elimination of the thread interruption for the duration of spooling of a defined thread length onto the crosswound bobbin (8).

Description

The present invention relates to a method for winding a thread on a textile machine producing cross-wound bobbins according to the preamble of claim 1 and to a textile machine producing cross-wound bobbins according to the preamble of claim 5.

From the DE 103 52 819 A1 a cross-wound textile machine is known which has a plurality of jobs. At the work stations, a thread is produced by means of an open-end spinning device, which thread is laid on a cross-wound bobbin by a single-motor driven thread-changing device. Upon the occurrence of an interruption of the thread, a rematching process is initiated to remedy it. Continuing the laying of the thread on the cheese causes a temporary occurrence of overlength of the thread. This is due to the different acceleration speeds of the individual motor driven components of the workstations. Thus, the lagging of a winding shaft serving to drive the cross-wound bobbin relative to a yarn take-off roll serving for the yarn withdrawal from the spinning device leads to an excess length of the yarn, which is compensated by a temporary intermediate storage in a yarn storage device.

It proves to be disadvantageous that the thread temporarily stored in the thread storage device to compensate for the excess thread length occurring after re-spinning is of a smaller value than normal operation of the textile machine Having winding tension. The lower winding tension of the thread is due to the fact that the winding tension is generated during this phase only by the pending in the pneumatic yarn storage vacuum, with the result that when emptying the yarn storage device, the thread is wound in loose layers on the cheese to be produced. These loose thread layers lead to tees on the coil sides, which leads to lasting drainage problems of the thread in the further processing of the cheeses.

The object of the present invention is to provide a method by which the laying of the yarn temporarily resulting from the yarn excess length is improved with a low winding tension in order to avoid losses of the yarn and the provision of a textile machine for carrying out the process.

This object is achieved with regard to the method by the characterizing features of claim 1. With regard to the textile machine, this object is achieved by the characterizing features of claim 5.

Advantageous embodiments of the invention are the subject of the dependent claims.

According to claim 1 it is provided that the Nennhub the Fadenchangiereinrichtung the work is shortened after the elimination of the thread interruption for the duration of winding a defined thread length on the cheese. By shortening the Nennhubes the Fadenchangiereinrichtung a smaller laying width of the thread is achieved on the cheese, so that in the lower winding tension Wound yarn the occurrence of tees on the cheeses is largely avoided.

Here, the aufzuspulende defined thread length is set so that it is at the earliest with the complete emptying of the storage device. Preferably, the determination is made after reaching the normal operation of the textile machine corresponding speeds of the drives. This ensures the achievement of a stable state of the winding tension for the transition to the normal operation of the textile machine.

Furthermore, beyond the defined thread length additional thread length can be wound to ensure that after emptying the thread storage device and the startup of all drives the job, which were restarted to carry out the process of repairing the interruption of the thread, for switching a stable and slightly increased winding tension is given by the reduced stroke on the nominal stroke of Fadenchangiereinrichtung.

In particular, the Nennhub the Fadenchangiereinrichtung by about 5 mm to 40 mm, in particular by 10 mm to 30 mm, are shortened. The magnitude of the shortening of the stroke depends essentially on the ratio which exists between the ramp-up times of the drives of the components of the job, in particular between the thread take-off roller and the winding shaft. Here, the ramp-up time of the drive shaft driving the turn turn be significantly dependent on the diameter of the cheese at the time the thread interruption, while the ramp-up time of the drive of the thread take-off roller can be regarded as almost constant.

According to claim 5, it is proposed that each workstation comprises a control device that reduces the shortening of the Nennhubes the Fadenchangiereinrichtung after the elimination of the thread interruption for the duration of winding a defined thread length controls the cross-wound bobbin.

For this purpose, the control device will reduce the nominal stroke of the thread-changing device for the duration of at least the emptying of the thread storage device.

Advantageously, the textile machine may comprise a device for determining the length of the thread wound up with a shortened stroke. For this purpose, the thread length on the speed or the step increments of the drive of the winding shaft whose speed or step increments is monitored by the control device, as well as from the respective current diameter of the cheese to be produced are derived.

The present invention will be explained in more detail below with reference to a schematically illustrated workstation of a textile machine producing cross-wound bobbins.

FIG. 1 shows a perspective view of a job 1 an open-end rotor spinning machine, which, as known and therefore shown only schematically, has an open-end spinning device 2 for producing a thread 9 and a downstream in the direction of yarn F winding device 3. On this winding device 3, the thread 9 is wound into a package 8.

The thread 9 produced in the open-end spinning device 2 is, as indicated, by a thread withdrawal device 27, the one driven by a single motor thread take-off roller 10 and an engageable with the thread take-off roll 10, from this frictionally entrained pressure roller 14, withdrawn from the open-end spinning device 2.

As in FIG. 1 further indicated, leaves the thread 9, the open-end spinning device 2 by a so-called thread withdrawal tube 21, in the area also a pivotally mounted Anspinnhilfsorgan 16 is arranged, which takes after a thread interruption by a suction nozzle 4 from the cheese 8 back retrieved thread 9 and the Thread end prepared for thread connection.

Furthermore, a thread monitor 26, a mechanical thread storage device 7, a pneumatic thread storage device 12 and a waxing device 5 are arranged in the area of the thread running path. The pneumatic thread storage device 12 is formed as a discontinuous working memory, that is, the thread storage device 12 is completely emptied after each thread connecting operation. During operation of the open-end spinning device 2, the yarn storage device 12 is acted upon by a vacuum source, not shown, with suction air.

The winding device 3 consists, as usual, from a creel 22 for rotatably supporting a cross-wound bobbin 8, a preferably via a reversible single drive 19 driven winding shaft 23 and a Fadenchangiereinrichtung 24, which is driven for example via a stepping motor 20.

Furthermore, such work stations 1 have, as already mentioned, a suction nozzle 4 which, by means of a stepping motor 6, is defined between a thread take-up position lying in the region of the winding device 3 and one in the region of Spinning device 2 lying thread transfer position is adjustable.

As usual, the individual stepper motors of the components of the workstation 1 are connected via various control lines to a control device, in the present exemplary embodiment to a workstations computer 25. As a result, the individual motor drives of the components of the workstations 1 are independently controllable. Alternatively, the control device may be designed as a central computer of the textile machine.

The inventive method will be described below with reference to the illustrated embodiment of the open-end rotor spinning machine. When a thread interruption occurs, first the drive of the thread take-off roll 10 and the drives 19 and 20 of the thread-changing device 24 and the winding shaft 23 are stopped and the cross-wound bobbin 8 to be produced is lifted off the winding shaft 23 by means of the creel 22. Subsequently, a yarn joining process is initiated, wherein at the affected workstation 1, the drives of the thread take-off roll 10, the Fadenchangiereinrichtung 24 and the winding shaft 23 are put into operation synchronously to initiate the yarn joining process again. The commissioning of the thread take-off roller 10, the Fadenchangiereinrichtung 24 and the winding shaft 23 is carried out taking into account temporally coordinated acceleration processes of the individual drives, which should take into account in particular the different moments of inertia and the traction of the operating components to be taken into account.

Due to the different moments of inertia of the individual components to be driven, it comes in particular in the Acceleration of the thread take-off roll 10 and the winding shaft 23 to a difference in the time-up behavior, which can reach a ratio of 1:10 or above, depending on the respective spinning conditions. Since the moment of inertia of the winding shaft 23 increases with increasing diameter of the cheese 8, while the moment of inertia of the thread take-off roll 10 always remains constant and also the drive slip is to be considered in the winding shaft 23, the thread take-off roll 10 always before the winding shaft 23 their operating speed in normal spinning operation to reach.

Accordingly, for the period from the start of the winding shaft 23 to reach the operating speed in the normal spinning operation, the excess length of the thread 9 produced by the open-end spinning device 2, which can not be wound by the cheese 8 due to the slow speed of the winding shaft 23, are first cached, which is realized via the thread storage device 12. The problem occurring here is the reduced winding tension, which is present during the emptying of the thread storage device 12 after the yarn joining operation, since the winding tension of the thread 9 is generated during this period only by the upcoming in the thread storage device 12 negative pressure.

The reduced winding tension leads to a winding of loose thread layers on the cheese 8 over this period. Moreover, since the laying stroke on the cheese 8 of the Nennhub the Fadenchangiereinrichtung 24, their speed and the winding tension is dependent, arises at a constant Nennhub larger laying stroke on the cheese 8 a. This has the consequence that when laying the thread 9 with the nominal stroke of the thread-switching device 24 to tees on the coil edges of the on the cross-wound bobbin. 8 misplaced thread 9 is coming. These deductions inevitably lead to problems in the flow behavior in the further processing of the cheese 8.

In order to compensate for the effects of the reduction of the winding tension after the thread connecting operation, the nominal stroke of the thread switching device 24 is shortened, at least for the duration of the complete emptying of the thread storage device 12. As a result, deductions at the coil edges due to the lower winding tension of the thread to be laid 9 can be largely avoided. In addition, beyond the defined thread length beyond additional thread length can be wound to ensure that after emptying the thread storage device 12 and the startup of all drives the job 1, which were restarted to carry out the process of repairing the interruption of the thread for the Switching from the reduced stroke to the nominal stroke of the thread-switching device a stable and slightly increased winding tension is given. The length of additionally wound with shortened nominal stroke thread 9 is between 1 and 10 m. The shortening of the nominal stroke can be between 5 and 40 mm, in particular between 10 mm and 30 mm.

The implementation of the method according to the invention is equally feasible on winding machines, which also have single motor driven components and a thread storage device, since at these due to the much higher processing speed, the problem described occurs even more.

Claims (5)

1. Method for winding a thread (9) on a textile machine producing cross-wound bobbins (8), which has a plurality of similar workstations (1),

   - wherein each workstation (1) comprises a thread traversing device (24) for displacing the thread (9) during normal operation of the textile machine with a nominal stroke on a cross-wound bobbin (8) driven by a winding shaft (23),

   - a mechanism (2) for eliminating the interruption of the thread (9) is present,

   - and wherein after the elimination of the thread interruption a defined thread length is firstly stored in a thread storage device (12),

   characterised in that
   the nominal stroke of the thread traversing device (24) of the workstation (1) is shortened after the elimination of the thread interruption for the duration of the winding of a defined thread length onto the cross-wound bobbin (8), which period corresponds at least to the duration of the complete emptying of the thread storage device (12).
2. Method according to claim 1, characterised in that the defined thread length to be wound on is established in such a way that it is achieved at the earliest on reaching the speeds of the driven components corresponding to the normal operation of the textile machine.
3. Method according to either of claims 1 or 2, characterised in that an additional thread length going beyond the defined thread length is wound on with a reduced stroke.
4. Method according to either of claims 1 or 2, characterised in that the nominal stroke of the thread traversing device (24) is shortened by approximately 5 mm to 40 mm, in particular by 10 mm to 30 mm.
5. Textile machine producing cross-wound bobbins with a plurality of similar workstations (1) for carrying out a method according to any one of claims 1 to 4, which comprise a thread traversing device (24), which is driven by a single motor, and a thread storage device (12), and in that a mechanism (2) for eliminating the interruption of the thread (9) is provided, characterised in that each workstation (1) has a control mechanism (25), which controls the shortening of the nominal stroke of the thread traversing device (24) after the elimination of the thread interruption for the duration of winding a defined thread length onto the cross-wound bobbin (8), whereby the control mechanism reduces the nominal stroke of the thread traversing device (24) for the duration of at least the emptying of the thread storage mechanism (12).

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