DE1774713A1 - Unwinding device for thread-like goods - Google Patents

Description

Dr.lng.WaherRetaiefS 405 MöndwneWb · * _Λ _, "".

S4 I // UU August 19, 1968

Unwinding device for thread-like material

The invention relates to an unwinding device for thread-like material. Unwinding devices of this type are used, for example, in rewinding devices in which the thread is wound from a pay-off bobbin onto a take-up bobbin, or in machines in which the running thread is to be treated or processed, as is the case, for example, when the weft thread is inserted in a Pail's Raschel machine is.

It is known that the thread tension during an unwinding process is subject to fluctuations for a variety of reasons. Exceed here the occurring If the maximum tension is a certain size, it can either cause thread breaks or permanent ones Bring structural distortions of the thread, which later noticeable in the processed thread in the woven or knitted fabric. As the voltage fluctuations occurring maximum voltages are the greater, the the thread speed is higher, one was therefore forced to reduce the thread

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to keep the speed so low that the occurring Maximum tensions do not cause excessive stress on the thread. TJm higher thread speeds reach, therefore the endeavor went to the maximum stresses as far as possible through appropriate measures. For example, refer to the so-called Balloon breakers referenced, which occur during the unwinding process overhead withdrawn coils Destroy the thread balloon and thereby reduce the tension of the thread running off. Although numerous measures have become known to keep the maximum thread tensions occurring during the unwinding process as low as possible, a complete elimination of fluctuating thread tensions during the unwinding process cannot be completely avoided, so that the highest possible thread speed continues to be limited by the maximum thread tensions occurring is.

The invention is based on the object of finding new ways to control the thread speed in unwinding devices to be able to increase and thus to increase the profitability of these devices. The solution to this task is according to the invention that the speed of the thread to be unwound as a function of the

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Coil fullness of the pay-off bobbin is automatically controllable. The invention makes use of the knowledge that particularly high thread tensions generally only occur within certain, relatively small areas of the unwinding process depending on the fullness of the reel appear. With the help of the invention it is therefore possible to control the thread speed over the vast majority of the time of the unwinding process to increase significantly and only in that area of the bobbin filling which causes higher pay-off voltages, to be reduced, that the permissible limit of the thread tension is not exceeded *.

As already mentioned, the tensions are particularly high in the running thread, generally at certain points on the pay-off bobbin, if it is overhead Withdrawn bobbins, for example cross bobbins or Kötzer, the highest thread tensions then occur when the reel has almost run out.For unwinding devices loaded with such reels a considerable simplification can be achieved in that the speed of the thread running off when it falls below a predetermined bobbin capacity of the pay-off bobbin is automatically reduced, so that the unwinding device practically works at two speeds, one

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high speed, which is considerably higher than that of speed is, with the corresponding .Abspulvorrichtungen have been operated up to now and one that is set automatically when the bobbins fall below a specified level reduced winding speed, which corresponds to the previously usual winding speed.

In order to enable the uninterrupted operation of the uninterrupted devices for as long as possible, it is known to provide several pay-off bobbins, the end of one bobbin being connected to the beginning of a new bobbin before the old bobbin has expired. When changing the thread run from the empty bobbin to the full bobbin, however, there is a particularly increased risk of thread breakage, since considerably excessive thread tensions occur due to the transition to a different balloon shape and the difficult unwinding of the last layers of the idle bobbin. Since these could hardly be eliminated by the aforementioned known device for reducing the thread tension, such unwinding devices had to be operated at such low thread speeds that they hardly had any advantage over other Abßpulvorrichtungen in which the payoff bobbin after the Abspulvorgan '¹;

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has been replaced by a new pay-off spool. The invention makes it possible to have such unwinding devices operate at higher thread speeds, in which several flow channels are provided and in each case the end of one bobbin is connected to the beginning of the other bobbin. The invention can; be carried out in a particularly simple form in such a way that the winding speed is automatically reduced during the delivery bobbin change as a function of the bobbin full. Delay means known per se can ensure that the reduced winding speed is maintained for a predetermined time even at the beginning of the run of the new bobbin, in order to avoid the difficulties at the beginning of the unwinding process due to the reduced speed. 1 speed to close aijs.

Based on the embodiment shown in the figures a Raschel machine with weft insertion, the invention will be explained in more detail.

It shows:

Fig. 1 schematically shows a section through a Raschel machine
Figure 2 is a plan view of the cross pillars.

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The partial warp beams 1, 2 can be seen in FIG. 1, of which the warp threads 3, 4 are guided via spring rockers 5, 6 through the perforated needles 7, 8 to the latch needles 9. The finished knitted fabric 10 is fed to the building via feed rollers 11, 12. In addition, the cross-wound bobbins 15, 16 can be seen on the boom 14, from which the weft thread 17 to be inserted into the knitted fabric is withdrawn. In order to keep the figure as clear as possible, various details that are not relevant to the essence of the present invention have been shown. All movements of the Raschel machine are derived in a known manner from the main shaft 18, which in turn is connected via a drive 19 to an adjusting gear 20 which is driven by a motor 21. An adjustment motor 22 is used to adjust the transmission 20, which is arranged in a known manner on the adjustment shaft of the variable transmission 20 and is electrically connected to a switching device 25. The power supply for the lamps 24, 25, which can act on the photocells 26, continues from this switching device 23 as soon as the fullness of one of the coils 15 'falls below a level given by the direction of the light beam. If, for example, the cross-wound bobbin I5 has fallen below a predetermined target diameter, the beam from the lamp 24 reaches the photocell 26, which passes over

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the switch box 23 the adjusting motor 22 of the transmission 20 controls so that the speed of the main shaft 18 is reduced to df.c desired low speed. With known per se, arranged in the control unit 2 * electrical switching elements is then achieved that the adjusting motor 22 the originally selected speed adjusts again when the cheese 15 has run empty, the thread to the cheese 16 has jumped over and the package 16 runs off properly. Repeated this game in the same way if the cheese 16 has run empty and in the meantime in the place of the previous one Cross bobbin 15 a new filled cheese bobbin is attached is, the beginning of the thread with the thread end of the cheese 16 was connected.

Since the speed of the main drive shaft 18 is the speed all links of the Raschel machine are determined by their speed the speed of the running from the cross-wound bobbins 15 »16 Thread 1? addicted. On the other hand, since the speed of the main drive shaft 18, as explained below, during the bobbin change, i.e. during the transition of thread 1? from spool 15 to spool 16 automatically depending on the fullness of the coil 15

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is reduced, while after the transition has taken place the increased working speed is automatically set again, can with the help of this arrangement actually a higher average speed of the Raschel machine can be achieved.

The invention is not limited to the illustrated embodiment. For example, a wide variety of means can be used to determine the bobbin fullness, for example, instead of electro-optical scanning with the aid of the photocells 26, 27, a mechanical scanning of the bobbin diameter or a determination of the bobbin weight. The invention should also not be limited to the particularly advantageous application on the Raschel machine shown in the exemplary embodiment , but should extend to all unwinding devices for thread-like material in which the problems underlying the invention can occur. The invention can also be used not only in those areas in which the speed of the unwinding thread is reduced after falling below a predetermined bobbin fullness or in which during the bobbin change shown in the exemplary embodiment

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but can also be used in all other cases in which disturbances in the thread run-off can occur as a function of the bobbin fullness, as is the case, for example, with picture windings.

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Claims (3)

Dr.lng.Walterllelnen * »* · ίο σι * Hä / ταΜ. ^ MaKhyaj «*« !. 19> 8. 196 * 774713 claims 1. Unwinding device for thread-like material, characterized in that that the speed of the running thread (17) as a function of the bobbin fullness the reel spool (15, 16) is automatically controllable. 2. From the winding device according to claim 1, characterized in that that the speed of the running thread when falling below a predetermined bobbin size the pay-off spool is automatically reduced. 3. Unwinding device for thread-like material with several Sequence bobbins, wherein the end of one bobbin is connected to the end of the other bobbin according to claim 1, characterized in that the speed of the unwinding thread during the change of the bobbin is automatically reduced depending on the bobbin fullness. 109845/0415 BATH ORIGINAL