EP4026934A1 - Procédé de rattache et dispositif de rattache - Google Patents

Procédé de rattache et dispositif de rattache Download PDF

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Publication number
EP4026934A1
EP4026934A1 EP21215354.8A EP21215354A EP4026934A1 EP 4026934 A1 EP4026934 A1 EP 4026934A1 EP 21215354 A EP21215354 A EP 21215354A EP 4026934 A1 EP4026934 A1 EP 4026934A1
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EP
European Patent Office
Prior art keywords
thread
cop
procedure
piecing
thread end
Prior art date
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Granted
Application number
EP21215354.8A
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German (de)
English (en)
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EP4026934B1 (fr
Inventor
Adalbert Stephan
Gerard Küsters
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Maschinenfabrik Rieter AG
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Maschinenfabrik Rieter AG
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Publication of EP4026934A1 publication Critical patent/EP4026934A1/fr
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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H15/00Piecing arrangements ; Automatic end-finding, e.g. by suction and reverse package rotation; Devices for temporarily storing yarn during piecing
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H15/00Piecing arrangements ; Automatic end-finding, e.g. by suction and reverse package rotation; Devices for temporarily storing yarn during piecing
    • D01H15/013Carriages travelling along the machines
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H69/00Methods of, or devices for, interconnecting successive lengths of material; Knot-tying devices ;Control of the correct working of the interconnecting device
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H1/00Spinning or twisting machines in which the product is wound-up continuously
    • D01H1/02Spinning or twisting machines in which the product is wound-up continuously ring type
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H13/00Other common constructional features, details or accessories
    • D01H13/005Service carriages travelling along the machines

Definitions

  • the present invention relates to a piecing method of a piecing device on a ring spinning machine with a large number of spinning positions at which a roving emerges from delivery rollers of a drafting system and is twisted into a thread with a runner and a rotating cop and wound onto the cop, the piecing device produces Thread breaks automatically a piecing, in which one thread end is connected to the roving emerging from the delivery rollers and the spinning process is then continued, and with the thread end of the broken thread being searched for according to procedure a), the thread end found is recorded and used for piecing to Obtaining a cop without thread interruption or according to procedure b) an auxiliary thread from a thread supply is attached to the cop, then this auxiliary thread is separated in order to obtain a thread end attached to the cop and this thread end is used for attachment to a cop with thread unt to obtain vomiting, as well as a corresponding attachment device.
  • a piecing device which is equipped with devices for carrying out two different piecing methods.
  • the attachment device can look for a thread end on the cop and connect it to the fiber composite in the drafting system.
  • it can also attach the thread with an auxiliary thread, which is placed on the cop and then fed to the drafting system. She primarily tries to carry out the piecing process in which the end of the broken thread is searched on the cop and attached using this thread end. Only if this method cannot be carried out is a thread thrown onto the cop and attached with this thread according to the second procedure described.
  • the disadvantage here is that the procedure described is very time-consuming.
  • the first attempt is always to find the end of the thread on the bobbin. Only when this attempt fails is an auxiliary thread used to repair the thread breakage.
  • the piecing device is tied to the respective spinning position for a very long time. Other spinning stations that needed the piecing device to attach a thread are not productive in the meantime.
  • the object of the present invention is to eliminate the disadvantages known from the prior art, in particular to improve the productivity of a ring spinning machine.
  • Proposed is a piecing method of a piecing device on a ring spinning machine with a large number of spinning positions at which a roving emerges from delivery rollers of a drafting system and is twisted into a thread with a runner and a rotating cop and wound up on the cop.
  • the piecing device automatically generates a piecing in which one thread end is connected to the roving coming out of the delivery rollers. The spinning process is then continued.
  • the thread end of the broken thread is sought, the thread end found is recorded and used for piecing in order to obtain a cop without a thread break.
  • procedure b a thread end of an auxiliary thread from a thread supply is attached to the cop, then this auxiliary thread is separated in order to obtain an additional thread end attached to the cop and this additional thread end is used for piecing.
  • a cop with a thread break is thus obtained.
  • the procedure a) produces a higher-quality cop, since it contains no thread breaks and accordingly the further processing on a winding machine as well can in principle take place without interruption.
  • piecing according to procedure a) is more time-consuming for the piecing device, since the end of the thread has to be sought and found somewhere on the cop.
  • the success rate with procedure a) is also lower than with procedure b), since it can happen that the end of the thread on the cop is only found after a long time or not at all.
  • procedure a) a selection is made accordingly as to whether the thread end is provided according to procedure a) or b). If it is assumed that procedure a) takes more time than procedure b), the piecing device can be operated particularly effectively with the method according to the invention. A compromise is thus obtained between the productivity of the ring spinning machine and the quality of the cops. It is assumed that a cop of higher quality is a cop without a yarn break. In principle, attempts are therefore made to obtain the best possible quality of the bobbins.
  • the piecing device is heavily used, i. H. if, for example, there are already requests from a number of other spinning positions at which a thread breakage is to be repaired, an attempt is made to select procedure b) if possible in order to increase the productivity of the ring spinning machine, since this allows the piecing device to complete the pending work in a shorter time. Accordingly, the individual spinning stations are also idle for a shorter time than if the more time-consuming procedure a) were carried out at each spinning station and the piecing device required a longer time until all the work to be carried out beforehand was completed. However, the bobbins produced on the ring spinning machine with a piecing according to procedure b) will have a thread interruption in the region of the piecing with the auxiliary thread.
  • procedure a) is selected immediately, at least until the faulty device required for locating the thread end has been repaired.
  • procedure b) is selected immediately, at least until the faulty device required for locating the thread end has been repaired.
  • the method according to the invention accordingly has the advantage that the productivity of the ring spinning machine can be significantly increased because the piecing device is able to select either procedure a) or procedure b) as the preferred procedure for eliminating a piecing.
  • This selection takes into account which procedure a) or b) the ring spinning machine uses to achieve the highest possible productivity with the highest possible quality of the bobbins or as high a number of bobbins as possible without thread interruption.
  • an attempt is made to obtain a particularly high-quality piecing, as is possible with procedure a), when sufficient time is available, for example because the piecing device is not required at any other spinning station.
  • procedure a) is very time-consuming compared to procedure b), it is attempted in favor of the productivity of the ring spinning machine that downtimes at the individual spinning positions are kept as short as possible and accordingly the piecing device tries to move the individual spinning positions as quickly as possible at the expense of the quality of the bobbin to be productive again.
  • the procedure b) for attaching a new thread to the requesting spinning position of the ring spinning machine is accordingly selected without previous procedure a) immediately.
  • procedure a) is chosen when the cop is to be produced without thread breaks or when a predetermined number of thread breaks are already present on the cop. So if, if possible, particularly high-quality cops are to be produced without a thread break, procedure a) for preparing a thread break is tried first. Regardless of the longer processing time, attention is paid to the quality of the bobbin. The same can also be advantageous if the required quality of the cop allows a predetermined number of thread breaks on the cop, but a number which exceeds this predetermined number is no longer accepted. In this case, the optional method of the present invention is operated until this predetermined number of thread breaks is allowed. Subsequently, the first attempt is always to use procedure a) successfully.
  • procedure b) is chosen when the number of spinning stations waiting for the piecing device exceeds a predetermined number. If there are thread breaks at this predetermined number of spinning positions and the corresponding spinning position can therefore not produce any more thread, the faster procedure b) is then selected until the limit value of the predetermined number of spinning positions is fallen below again. After that will worked again with the optional procedure a) or b) according to the invention.
  • procedure b) is chosen when the thread spun on the spinning station exceeds a predetermined yarn count. If the predetermined yarn count is exceeded, i.e. the yarn is very fine, experience has shown that it is more difficult to find the end of the yarn on the cop. Longer times must therefore be allowed for before the end of the thread is usually found, or it can even be assumed that the end of the thread very often cannot be found at all. In this case, it is advantageous to choose the safer procedure b), so that the piecing device is not held up too long at the individual spinning positions.
  • procedure b) is selected if the elimination of the thread breakage using procedure a) was not successful.
  • procedure a) is tried first.
  • Procedure b) is only used if procedure a) is unsuccessful.
  • procedure b) is chosen when a device for searching for the thread for procedure a) is not functional.
  • a device for searching for the thread can be, for example, a suction nozzle which searches the surface of the cop for the end of the thread.
  • suction nozzles are usually also designed to be movable. If, for example, the drive of the suction nozzle has failed, the piecing device can still be used because it can continue to carry out piecing operations using procedure b) and the productivity of the ring spinning machine does not decrease and the quality of the cops produced decreases only slightly.
  • procedure a) or b) is made by a control device of the spinning machine or by an operator.
  • the control devices can process information from the status of all spinning positions of the ring spinning machine and the most productive procedure a) or b) for the Select attachment device.
  • a manual setting of the preferred procedure a) or b) by an operator can also be advantageous, in particular if the operator determines that certain devices of the attachment device are not functional.
  • the thread end of the broken thread is sought on the cop or at a predetermined location on the spinning station.
  • a predetermined location can also be provided at the spinning station in order to find the thread end as quickly as possible. For example, if the spinning process is deliberately interrupted, the thread end can be stopped at the spinning station before it reaches the bobbin and picked up again at this point by the piecing device.
  • the attachment device is preferably able to thread the thread end from the drafting system or from the auxiliary thread supply, which carries the auxiliary thread, through the runner and/or the thread guide of the spinning station.
  • the cop is marked as to whether it has piecings according to procedure a) and/or b) and/or what length of thread is wound on the cop between two thread breaks.
  • a marking can be done, for example, by a data carrier which is connected to the cop. Whether or how many piecings according to procedure a) or procedure b) are contained on the cop can be recorded on the data medium.
  • the information about the length of the thread between two thread interruptions on the cop can be recorded on the data carrier. This is advantageous for the further processing of the bobbin on the following winding machines.
  • the data carrier can be designed to be electronically or optically readable, for example with labels that can be read by an operator, but it is also possible to connect the data carrier to the cop.
  • the identification can be done directly or indirectly on the cop.
  • the data can also be recorded directly or indirectly on the data carrier. It is thus possible, on the one hand, for the data carrier to have the corresponding information directly, ie itself. Indirectly, however, it is also possible for the cop to have a fixed, consistent identification, for example a number, and for this number to be linked in a database with the corresponding information on procedures a) or b) or the lengths of the individual thread sections.
  • the selection of the procedure a) or b) is based on empirical values in a further processing of comparable threads and/or bobbins on a subsequent preparation station and/or winding machine. For example, during further processing it can be determined that there is a maximum of a certain number of thread breaks on the bobbin or in the batch (e.g. max. 3 thread breaks or foreign threads per bobbin or max. 120 thread breaks or foreign threads per batch). allowed, otherwise the efficiency of the winding machine is significantly reduced.
  • the maximum number of permissible thread breaks, i. H. piecing according to procedure b).
  • the efficiency of the winding machine can be reduced, for example, by the fact that the preparation of the thread end takes too much time.
  • procedure a) and/or b) is stored in a data memory and the probable prospect of success of procedure a), in particular with regard to a specific lot, is determined from this, then the selection of the procedure can also be made in this way a) or b) are specified. If there is a high prospect of success of procedure a) with the thread of the corresponding lot, procedure a) is used more often and procedure b) is avoided.
  • the probable prospect of success of the procedure a) of this lot is advantageously used as a start parameter and/or updated while the lot is running and saved in an updated form at the end of the lot, then the experiences that have already been made with regard to this lot or this thread with other spinnings can be used were used first. arise in the course the further plays new knowledge and experiences regarding the chances of success of the procedure a), this empirical value is also updated and saved and can be used again as a starting parameter for the next game.
  • the efficiency of the ring spinning machine can thus be optimized. For example, dynamic optimization can be carried out during ongoing production. If the preparation station/winding machine was able to process the bobbins well despite a relatively large number of foreign threads, the number of permissible foreign threads can be increased and vice versa.
  • the device a) has a search and handling device to search for the thread end of the broken thread, to detect the thread end found and to use it for attachment in order to obtain a cop without a thread break.
  • the device b) has a fastening and handling device to fasten an auxiliary thread from a thread supply on a cop, then separate this auxiliary thread to obtain a thread end attached to the cop and use this thread end for attachment to a cop obtained with a thread break.
  • the search and handling device and the fastening and handling device can be implemented in a single structural unit or else in different structural units.
  • the piecing device comprises a control device which is suitable for selecting, depending on the capacity utilization of the piecing device and/or depending on the probable prospect of success of device a), whether the thread end is provided with device a) or device b).
  • the attachment device can be operated as effectively as possible, it being assumed that device a) requires more time for attachment than device b).
  • the piecing device according to the invention thus contributes significantly to the fact that the efficiency of the ring spinning machine is high and is not reduced by spinning positions that are idle for a long time and have to wait for the piecing device.
  • either device a) or device b) of the piecing device is used to carry out the piecing process.
  • the ring spinning machine is equipped with a large number of spinning positions at which a roving emerges from the delivery rollers of a drafting system and is twisted into a thread with a runner and a rotating cop and wound up on the cop. If the piecing is connected according to procedure a) or b) or with device a) or b), the spinning process can then be continued again.
  • the control device can work both automatically according to the specified rules and can also be influenced and switched manually by an operator.
  • the device a) has at least one suction device.
  • the suction device With the suction device, the device a) is able to suck up a thread end on the surface of the cop and to continue to handle it for the piecing process.
  • the suction device can be designed to be movable, for example, in which case it can be moved toward or away from the cop.
  • the device b) has an auxiliary spool for the thread supply.
  • the auxiliary thread is stored on the auxiliary spool and is used by device b) for the piecing process as required.
  • the auxiliary thread can be of the same type as the thread itself. However, it can also differ from the thread so that, for example, attachment is simplified or that it can be better distinguished from the normal thread.
  • control device is suitable for evaluating information about the number of requests from the piecing device on the spinning machine. This makes it possible, based on the upcoming piecing processes that the piecing device has to carry out, to decide whether the device a) that works slower but of higher quality or the device b) that works faster but has a lower quality or works differently can be used in order to obtain the desired and permissible relationship between productivity and quality.
  • the piecing device and/or the control device works together with a marking device for marking the cop, whether it has attachments of device a) and/or device b).
  • the marking device marks the cop directly or indirectly, for example by means of its transport carrier.
  • the information can be passed on to a system control in order to be able to transport the corresponding cop to a suitable further processing point.
  • piecing robots for ring spinning machines that look for the end of the thread on the cop if possible and thus carry out a piecing. If it is not possible to find the end of the thread, start spinning with an auxiliary thread that is carried along. However, since piecing with auxiliary thread can generally be realized much faster, with general piecing with auxiliary thread significantly more thread breaks can be carried out per unit of time and piecing robot. In a simple embodiment, the operator can choose in which mode (mixed or only with auxiliary thread) the piecing robot is to be operated. However, it is particularly advantageous if, based on the thread breakage position (or utilization of the piecing robot), the machine itself decides in terms of automatic efficiency optimization when the search process for the thread end should be increased or completely dispensed with.
  • the device is designed in accordance with the preceding description, it being possible for the features mentioned to be present individually or in any combination.
  • the piecing device can be manufactured and sold together with a ring spinning machine. However, it is also possible for the piecing device to be manufactured and sold as a separate structural unit and to be attached to an existing ring spinning machine.
  • figure 1 shows a side view of a ring spinning machine 1 and a piecing device 2.
  • the piecing device 2 is arranged in a mobile robot 3, which can be moved along the ring spinning machine 1 on rollers 4.
  • the ring spinning machine 1 has a drafting system 5, which draws a roving 6 with pairs of rollers running at different speeds and leaves the drafting system 5 at delivery rollers 7.
  • the drawn roving 6 then runs in a known manner through a thread guide 8 and a runner 9 to finally be wound up as thread 10 on a cop 11 .
  • the cop 11 is set in rotation by a drive 12, as a result of which the rotor 9 orbits the cop 11 and thus introduces a rotation into the thread 10.
  • figure 1 represents a spinning station 13 at which the thread 10 is broken and must be attached to the roving 6 again.
  • a thread end 14, which is the end of the thread 10 that is wound onto the cop 11, is sucked into a search and handling device 15 of the attachment device 2 according to this illustration.
  • the thread end 14 was searched for by the search and handling device 15 on the surface of the cop 11 with a suction device, threaded through the runner 9 and the thread guide 8 and is now ready to be attached to the roving 6 .
  • the search and handling device 15 is this according to the shown double arrow pivoted and otherwise, for example, linear, movable.
  • the search and handling device 15 or the piecing device 2 may have further handling elements (not shown) in order to be able to grip the thread end 14 on the cop 11, thread it through the runner 9 and the thread guide 8 and in the drafting system 5 to the roving 6 to create.
  • the attachment device 2 also includes a fastening and handling device 35 with a supply of thread 16.
  • the supply of thread 16 is arranged in the robot 3 in the form of an auxiliary spool.
  • the thread supply 16 has an auxiliary thread 17 which can be drawn off the auxiliary spool with feed rollers 18 .
  • the feed rollers 18 make a thread end 14 ′ available to the fastening and handling device 35 . It moves in the direction of the thread end 14' and grasps this thread end 14' in order to carry out a piecing operation.
  • the feed rollers 18 are set in rotation by a control device 19 and remove the required length of the auxiliary thread 17 from the thread store 16.
  • the control device 19 also ensures that the search and handling device 15 and the fastening and handling device 35 move accordingly or other handling devices, not shown, of the piecing device 2 in order to be able to carry out a piecing properly.
  • the thread end 14' of the auxiliary thread 17 is placed on the cop 11 and fixed there, for example by a few twists on the cop 11 (see FIG figure 2 ).
  • the auxiliary thread 17 runs through the runner 9 and the thread guide 8, is brought into contact with the roving 6 and cut off before or afterward, so that this thread end, which is no longer visible later, forms a piecing together with the roving 6 in the drafting system 5.
  • the control device 19 supplies signals to the piecing device 2 as to whether the thread end 14 or the thread end 14' should be used for the piecing. This decision is made depending on the capacity utilization of the piecing device 2 and/or on the probable prospect of success when using the thread end 14 for the piecing.
  • the thread end 14 preferably serves for the piecing as there is no thread break on the cop 11 when directly connected to the thread 10 of the cop 11 and the thread end 14 is spun. The disadvantage here, however, is that finding the thread end 14 on the cop 11 is time-consuming and not always successful.
  • the piecing device 2 selects the faster and safer piecing process with the auxiliary thread 17.
  • the thread end 14 ′ of the auxiliary thread 17 is gripped at the predefined location of the feed rollers 18 and placed on the cop 11 .
  • This thread end 14' forms an interruption in the thread 10 on the cop 11.
  • This interruption in the thread 10 on the cop 11 leads to an interruption in the winding process during further processing, for example on a winding machine, and can there possibly lead to a deterioration in the efficiency of the winding machine effect.
  • a marking device 20 is provided.
  • the marking device 20 marks the cop 11, for example by a corresponding marking or labeling of a data carrier 21 (see FIG figure 2 ) .
  • the cop 11 can be subjected to special treatment during further processing, for example, if it has thread interruptions.
  • Such a special treatment can lead to the following machine, for example a winding machine, being able to work as productively as possible despite these thread interruptions.
  • FIG 2 shows the cop 11 connected to a peg tray 22.
  • the peg tray 22 is a transport element with which the cop 11 can be transported in the spinning plant.
  • the cop 11 is connected via a sleeve 23, on which the thread 10 is wound up, attached to the peg tray 22.
  • the data carrier 21 is provided to indicate whether or how many thread breaks are on the cop 11 .
  • the data carrier 21, which is shown here as a bar code, for example, can be recognized at corresponding recognition points in the spinning plant and evaluated with regard to the further processing of the cop 11.
  • the data carrier 21 can be attached to the sleeve 23, for example. However, it could also be arranged on the peg tray 22 .
  • the data carrier 21 can also provide information about the length of at least one wound thread section on the cop.
  • a thread end 14" can also be seen, which rests on the surface of the cop 11.
  • This thread end 14" forms the end of the complete thread 10 wound onto the cop 11.
  • Dashed lines indicate that there is a thread interruption on the cop 11 is located. Accordingly, the thread end 14, which has arisen from the started winding of the cop 11 with the thread 10 due to a thread breakage, is shown.
  • the auxiliary thread 17 arises on the cop 11 another thread end 14 ', which is also shown in broken lines because not visible. Since, after attaching the auxiliary thread 17, another thread 10 was wound onto the cop 11, this thread end 14' is now located inside the cop 11.
  • This thread end 14' could also be visible under certain circumstances, for example if it is at a defined position the sleeve 23 has been fixed. As a rule, the thread end 14' and thus the thread break is invisible in the cop 11. It is therefore advantageous if the data carrier 21 notes whether or how many thread breaks, ie thread ends 14 and 14', are inside the cop 11 located.
  • FIG 3 shows the sketch of a side view of a winding machine 25.
  • the thread 10 is wound onto a cross-wound bobbin 26 from the cop 11a arranged on a peg tray 22.
  • a suction tube 27 that can be pivoted according to the double arrow and a gripper 28 that can also be pivoted and optionally moved linearly. Only one of a large number of winding units 29 of the winding machine 25 is shown.
  • the suction tube 27 can be used to search for and detect a thread end that has been wound up on the cross-wound bobbin 26 .
  • the sketched gripper 28 is also in the situation after a thread breakage to seek and detect a thread end 14 from the cop 11a.
  • the two thread ends can then be introduced into a splicing device 30 and connected to one another in a known manner.
  • Yarn breaks can occur during the normal winding process.
  • a thread break also occurs when there is a thread break with two thread ends 14 and 14' on the cop 11a.
  • these two thread ends 14 and 14′ were created when an auxiliary thread 17 was attached to the upstream ring spinning machine 1 .
  • this thread interruption was wound over with the thread 10.
  • this interruption in the yarn inevitably leads to an interruption in the winding process.
  • the thread end 14' With this thread interruption, the thread end 14' is wound onto the cross-wound bobbin 26 and the thread end 14 remains on the cop 11a. However, the position of the thread end 14 on the cop 11a is undetermined. The cop 11a is therefore removed from the spinning station 29 and replaced by the cop 11b. In the case of the cop 11b, the thread end 14" lying on the outside of the cop 11b has been placed in a defined position in a preparation station and can therefore be picked up quickly by the gripper 28.
  • the figure 3 shows different variants of Kopsen 11a to 11d. While the cop 11a is currently being unwound and the two thread ends 14 and 14' are still inside, the following cop 11b has the thread end 14" in a defined position on its outer circumference. Inside the cop 11b are two thread interruptions Accordingly, there are two thread ends 14 and two thread ends 14' inside the cop 11b. In contrast, the cop 11c has no thread breaks whatsoever the cross-wound bobbin 26. Finally, in the cop 11d there is again a thread interruption with a thread end 14 and a thread end 14'.
  • FIG 4 a sketch of a plan view of a spinning plant 40 is shown.
  • a ring spinning machine 1 is shown in the spinning plant 40 .
  • the ring spinning machine 1 has a Variety of spinning positions 13 on.
  • the robot 3 with its attachment device 2 patrols along the ring spinning machine 1 and, if necessary, carries out piecing processes at the corresponding spinning positions 13.
  • the finished cop 11 produced on the spinning station 13 is then transferred to a transport device 41 which transports the cop 11, optionally on a peg tray 22, to a preparation station 42.
  • the exposed thread end is searched for with a thread search device 43 and deposited at a defined point on the cop 11.
  • the cop 11 is then transported further on the transport device 41 to one of several winding machines 25 .
  • the cop 11 is removed from the winding unit 29 and fed back to the preparation station 42.
  • the thread end 14" of the thread break that is now exposed can be searched for again and laid down again at the defined point on the cop 11. This now only partially wound cop 11 is again fed to a winding station 29 of one of the winding machines 25.
  • the cops 11, which are transported on the transport device 41, are marked in order to record the number of known thread interruptions, which have arisen on the ring spinning machine 1 by piecing processes with auxiliary thread 17.
  • This identification of the cop 11 is read with a detection device 44 and communicated to a system controller 45 .
  • the system control 45 is connected to all the essential facilities of the spinning system 40 .
  • the cop 11 can be identified, for example, in the form of an optically readable code, for example a bar code or pixel code, or in the form of a data carrier connected to the cop 11, which has been correspondingly electronically inscribed and is readable.
  • the identification of the cop can also take place in that the auxiliary thread 17, with which the piecing was made inside the cop 11, is different from the normal thread 10 for the rest of the winding. It is also possible that a consistent identification of the cop 11, for example a number of the cop 11, is linked to data in a database, for example in the system controller 45, in which the information about this cop 11 is stored.
  • a transport controller 46 is instructed via the system controller 45 that the correspondingly recognized cop 11 of a specific winding machine 25 or a specific winding station 29 is fed via a transport track 47.
  • a cop 11, which contains one or even several known thread breaks, is preferably fed to a winding machine 25 or winding station 29, which is in the vicinity of the preparation station 42. Since with such cops 11 with known yarn breaks it can be safely assumed that they have to be fed back to the preparatory station 42, this control of the cop 11 has the effect that the return transport path from the winding unit 29 to the preparatory station 42 can be kept as short as possible .
  • bobbins 11 with at least one additional, known thread interruption can be fed to a parking position 48 or treated with priority over other bobbins 11.
  • all winding positions 29 of the winding machine 25 must be supplied with cops 11 as quickly as possible.
  • Such cops 11 are therefore preferably fed to the parking position 48 in order not to impede the other cops 11 .
  • the plant controller 45 after recognizing the number of thread breaks in a cop 11, can determine to which preparation station 42 the cop 11 is preferably to be transported. It can be provided, for example, that certain preparation stations 42 are particularly specialized in the search for thread ends 14', which were originally inside the cop 11 and are therefore more difficult to find than the thread end 14", which is on the outer circumference of the finished cop 11 is located after leaving the ring spinning machine 1. Such a special treatment can consist, for example, in stronger or longer suction of the cop 11 in order to be able to find this more difficult thread end 14′′ better.
  • the preparation station 42 specialized in this way does not block cops 11 whose thread end 14" can be found more quickly and easily. Cops 11 with known thread breaks can thus be fed to predetermined preparation stations 42 and/or predetermined winding machines 25 or winding stations 29.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
EP21215354.8A 2021-01-06 2021-12-17 Procédé de rattache et dispositif de rattache Active EP4026934B1 (fr)

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CH00008/21A CH718245A1 (de) 2021-01-06 2021-01-06 Verfahren zum Ansetzen und Ansetzvorrichtung an einer Ringspinnmaschine.

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2351312A1 (de) 1973-10-12 1975-04-24 Zinser Textilmaschinen Gmbh Vorrichtung zum selbsttaetigen ansetzen von faeden an spinnmaschinen
DE4304962A1 (de) * 1992-02-18 1993-10-07 Rieter Ag Maschf Produktionsanlage für textiles Gut mit Fehlerbehebung in der jeweils folgenden Bearbeitungsstufe
WO2020058775A1 (fr) * 2018-09-19 2020-03-26 Maschinenfabrik Rieter Ag Procédé de fonctionnement d'un robot d'entretien d'un métier à filer à anneaux

Family Cites Families (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH715390A1 (de) * 2018-09-27 2020-03-31 Rieter Ag Maschf Verfahren zum Betreiben einer Ringspinnmaschine.

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2351312A1 (de) 1973-10-12 1975-04-24 Zinser Textilmaschinen Gmbh Vorrichtung zum selbsttaetigen ansetzen von faeden an spinnmaschinen
DE4304962A1 (de) * 1992-02-18 1993-10-07 Rieter Ag Maschf Produktionsanlage für textiles Gut mit Fehlerbehebung in der jeweils folgenden Bearbeitungsstufe
WO2020058775A1 (fr) * 2018-09-19 2020-03-26 Maschinenfabrik Rieter Ag Procédé de fonctionnement d'un robot d'entretien d'un métier à filer à anneaux

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EP4026934B1 (fr) 2024-06-26
CH718245A1 (de) 2022-07-15
CN114717697A (zh) 2022-07-08

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