EP3919426A1 - Garnwickelmaschine und spinnsystem - Google Patents

Garnwickelmaschine und spinnsystem Download PDF

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Publication number
EP3919426A1
EP3919426A1 EP21175905.5A EP21175905A EP3919426A1 EP 3919426 A1 EP3919426 A1 EP 3919426A1 EP 21175905 A EP21175905 A EP 21175905A EP 3919426 A1 EP3919426 A1 EP 3919426A1
Authority
EP
European Patent Office
Prior art keywords
yarn
feeding bobbin
bobbin
information
defect information
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
EP21175905.5A
Other languages
English (en)
French (fr)
Other versions
EP3919426B1 (de
Inventor
Kenichi Murayama
Shuichi Fukuhara
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Murata Machinery Ltd
Original Assignee
Murata Machinery Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Murata Machinery Ltd filed Critical Murata Machinery Ltd
Publication of EP3919426A1 publication Critical patent/EP3919426A1/de
Application granted granted Critical
Publication of EP3919426B1 publication Critical patent/EP3919426B1/de
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H67/00Replacing or removing cores, receptacles, or completed packages at paying-out, winding, or depositing stations
    • B65H67/06Supplying cores, receptacles, or packages to, or transporting from, winding or depositing stations
    • B65H67/063Marking or identifying devices for packages
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/40Arrangements for rotating packages
    • B65H54/44Arrangements for rotating packages in which the package, core, or former is engaged with, or secured to, a driven member rotatable about the axis of the package
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H61/00Applications of devices for metering predetermined lengths of running material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H63/00Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H63/00Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package
    • B65H63/006Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package quality control of the package
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H13/00Other common constructional features, details or accessories
    • D01H13/14Warning or safety devices, e.g. automatic fault detectors, stop motions ; Monitoring the entanglement of slivers in drafting arrangements
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H13/00Other common constructional features, details or accessories
    • D01H13/32Counting, measuring, recording or registering devices
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H9/00Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine
    • D01H9/18Arrangements for replacing or removing bobbins, cores, receptacles, or completed packages at paying-out or take-up stations ; Combination of spinning-winding machine for supplying bobbins, cores, receptacles, or completed packages to, or transporting from, paying-out or take-up stations ; Arrangements to prevent unwinding of roving from roving bobbins
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/10Handled articles or webs
    • B65H2701/17Nature of material
    • B65H2701/174Textile; fibres
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments
    • 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

Definitions

  • the present disclosure relates to a yarn winding machine and a spinning system.
  • a spinning system including: a spinning frame configured to form a yarn feeding bobbin onto which yarn has been wound; and a yarn winding machine configured to wind yarn of the yarn feeding bobbin transferred from the spinning frame by a bobbin transfer device to form a package is known (see PCT Publication No. WO2018/212293 , for example).
  • quality information on the quality of a yarn feeding bobbin is acquired. Whether the quality of the yarn feeding bobbin satisfies a quality reference value is determined based on the quality information, and when the quality reference value is not satisfied, yarn of the yarn feeding bobbin is prevented from being wound by the yarn winding machine.
  • a yarn winding machine is a yarn winding machine configured to wind yarn of a yarn feeding bobbin transferred from a spinning frame by a bobbin transfer device to form a package, and the yarn winding machine includes a controller.
  • the controller acquires first yarn-defect information prepared by the spinning frame about the occurrence of the partial defect.
  • the controller causes winding of the yarn from the yarn feeding bobbin to stop upon determining that the yarn has been unwound from the yarn feeding bobbin up to a position corresponding to the partial defect of the first yarn-defect information, based on yarn information of the yarn wound from the yarn feeding bobbin related to the first yarn-defect information acquired and the first yarn-defect information prepared by the spinning frame, when the first yarn-defect information of the yarn feeding bobbin has been acquired.
  • the yarn up to the position corresponding to the partial defect of the yarn feeding bobbin related to the first yarn-defect information i.e., a portion of yarn having normal yarn quality
  • the first yarn-defect information i.e., a portion of yarn having normal yarn quality
  • the controller causes this yarn feeding bobbin to be discharged as a defective bobbin upon determining, based on the yarn information, that the yarn has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information of the yarn feeding bobbin.
  • the yarn having the partial defect of the yarn feeding bobbin can be reliably prevented from being wound. Furthermore, by preventing deletion of a predictable defective portion and successive occurrences of splicing, production efficiency in the yarn winding machine is increased.
  • the first yarn-defect information may be information on yarn breakage in a bottom portion of the yarn feeding bobbin.
  • the yarn up to the bottom portion of the yarn feeding bobbin can be wound without wasting it.
  • the quality of yarn in a bottom portion of a yarn feeding bobbin is more likely to be poor.
  • efficiency decrease when yarn having a partial defect that occurs due to a production problem of the spinning frame is wound by the yarn winding machine can be prevented.
  • the yarn winding machine may further include a yarn-length measuring mechanism configured to acquire, as the yarn information, information on total length of the yarn wound by the yarn winding machine or information on length of the yarn unwound from the yarn feeding bobbin. Based on information on the total length of the yarn wound by the yarn winding machine that the yarn-length measuring mechanism has calculated or information on the length of the yarn unwound from the yarn feeding bobbin that the yarn-length measuring mechanism has measured, the controller may determine that the yarn has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information.
  • the controller determines, with the yarn-length measuring mechanism, that the yarn has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information, and thus can more accurately determine that the yarn has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information. Only the defective portion of the yarn will be discarded.
  • the yarn winding machine may further include a yarn-quality monitoring device configured to monitor a state of the yarn to detect a yarn defect.
  • the controller may manage detection frequency of yarn defects measured by the yarn-quality monitoring device as the yarn information, and when the detection frequency of yarn defects exceeds a predetermined specified frequency, the controller may determine that the yarn has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information. In this case, without adding a special device like the yarn-length measuring mechanism, the controller can determine that the yarn has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information.
  • this aspect of the present disclosure can be achieved without an increase in costs.
  • a spinning system is a spinning system including the yarn winding machine described above and a spinning frame.
  • the yarn feeding bobbin may be transferred by the bobbin transfer device in a manner set on a tray having a storage section, the spinning frame or the bobbin transfer device may include an information writing section configured to write the first yarn-defect information to the storage section, and the yarn winding machine may include an information reading section configured to read the first yarn-defect information written by the information writing section.
  • the yarn winding machine can acquire the first yarn-defect information of the yarn feeding bobbin, using the information writing section, the information reading section, and the tray having the storage section.
  • the spinning frame when an uneven twist has been formed in the yarn of the yarn feeding bobbin, acquires second yarn-defect information on this uneven twist, and when yarn breakage has occurred in the yarn of the yarn feeding bobbin at a frequency equal to or higher than a first frequency, the spinning frame acquires third yarn-defect information on the yarn breakage at a frequency equal to or higher than the first frequency.
  • the yarn winding machine does not wind the yarn from this yarn feeding bobbin. In this case, in the yarn winding machine, the yarn of the yarn feeding bobbin related to the second yarn-defect information or the third yarn-defect information can be prevented from being wound.
  • the yarn winding machine when having acquired the second yarn-defect information or the third yarn-defect information of the yarn feeding bobbin, the yarn winding machine may discharge this yarn feeding bobbin as a defective bobbin without winding the yarn from the yarn feeding bobbin.
  • the yarn of the yarn feeding bobbin related to the second yarn-defect information or the third yarn-defect information can be reliably prevented from being wound.
  • the spinning frame may acquire second yarn-defect information on this uneven twist, and when yarn breakage has occurred in the yarn of the yarn feeding bobbin at a frequency equal to or higher than a first frequency, the spinning frame may acquire third yarn-defect information on the yarn breakage at a frequency equal to or higher than the first frequency.
  • the yarn winding machine may determine whether quality of this yarn feeding bobbin satisfies a predetermined quality reference value based on the yarn information acquired when the yarn is wound from the yarn feeding bobbin, and when having determined that the quality reference value is not satisfied, the yarn winding machine may stop winding the yarn from the yarn feeding bobbin. Defect information measured by the spinning frame cannot be checked as accurately as the yarn-quality monitoring device, such as a clearer, provided to the yarn winding machine.
  • the defect information measured by the spinning frame can be verified how accurate the quality of the defect information measured by the spinning frame is by checking the defect information measured by the spinning frame with the yarn quality monitoring device, such as a clearer, which is provided to the yarn winding machine. After verification has been performed once, the defect information measured by the spinning frame can be evaluated based on this verification result, and thus the reliability of the defect information measured by the spinning frame is increased.
  • the yarn quality monitoring device such as a clearer
  • the spinning frame may acquire fourth yarn-defect information on yarn breakage at a frequency lower than the first frequency and equal to or higher than the second frequency.
  • the yarn winding machine may determine whether quality of this yarn feeding bobbin satisfies a predetermined quality reference value based on the yarn information acquired when the yarn is wound from the yarn feeding bobbin. When having determined that the quality reference value is not satisfied, the yarn winding machine may stop winding the yarn from the yarn feeding bobbin.
  • the yarn winding machine when having determined that the quality reference value is not satisfied, may discharge this yarn feeding bobbin as a defective bobbin. In this case, in the yarn winding machine, the yarn of the yarn feeding bobbin that does not satisfy the quality reference value can be reliably prevented from being wound.
  • the bobbin transfer device may include a discharge device capable of discharging outside a path the defective bobbin discharged by the yarn winding machine. In this case, in the bobbin transfer device, the defective bobbin can be discharged.
  • the yarn winding machine may acquire the first yarn-defect information via communication or in response to operation input of an operator with an operation part.
  • the yarn winding machine can acquire the first yarn-defect information of the yarn feeding bobbin, using the communication or the operation input.
  • the controller may perform: a first process of grasping the amount of yarn of the yarn feeding bobbin present in the yarn winding machine and the bobbin transfer device; a second process of calculating, for each yarn feeding bobbin, the amount of yarn of the yarn feeding bobbin that has been completely wound at final doffing in the spinning frame; and a third process of supply yarn in an amount needed for full winding to a predetermined winding unit of the yarn winding machine .
  • the controller may, in the yarn feeding bobbin having defective yarn, manage both the length of normal yarn and the length of the defective yarn.
  • the controller may, in the yarn feeding bobbin having defective yarn, calculate the amount of yarn except for the defective yarn and also discharge the defective yarn without winding the defective yarn.
  • the controller may, in the yarn feeding bobbin having defective yarn, calculate the amount of yarn except for the defective yarn and also discharge the defective yarn without winding the defective yarn.
  • a spinning system that can prevent production efficiency from decreasing can be provided.
  • a spinning system 100 includes an automatic winder (yarn winding machine) 1 and a ring spinning frame (spinning frame) 2.
  • the ring spinning frame 2 generates yarn Y from roved yarn, and winds the yarn Y onto an empty bobbin tube E (a bobbin winding tube around which yarn Y is not wound) to form a yarn feeding bobbin B.
  • the automatic winder 1 winds the yarn Y of the yarn feeding bobbin B transferred (conveyed) from the ring spinning frame 2 by a bobbin transfer device 3 to form a package P.
  • the bobbin transfer device 3 transfers the yarn feeding bobbin B from the ring spinning frame 2 to the automatic winder 1, and transfers an empty bobbin tube E from the automatic winder 1 to the ring spinning frame 2.
  • each tray T has a disk-like base portion T1, a pin T2 protruding upward from the base portion T1, and a radio frequency (RF) tag (storage section) T3 provided to the base portion T1.
  • the RF tag T3 may be embedded in the base portion T1, or may be attached to an outer surface of the base portion T1.
  • the shape of the RF tag T3 is not limited to a rectangular shape as illustrated in FIG. 2A , and may be a doughnut shape (ring shape), for example.
  • the RF tag T3 stores therein identification information for identifying a tray T to which this RF tag T3 is provided.
  • a pin T2 is inserted into bottom portion Ea of the bobbin tube E, whereby the yarn feeding bobbin B and the bobbin tube E that is a winding tube thereof are each set on the tray T with the top portion Eb of the bobbin tube E facing upward.
  • the RF tag T3 stores therein yarn-defect information on a defect of yarn Y in the yarn feeding bobbin B set on the tray T.
  • the status of the yarn feeding bobbin B set on the tray T is managed by a radio frequency identification (RFID: individual identification using radio waves) technique.
  • RFID radio frequency identification
  • the shape of the base portion T1 does not have to be a disk shape, and the method of setting the yarn feeding bobbin B and the empty bobbin tube E does not have to be insertion of the pin T2.
  • the position of placing the RF tag T3 may be any position where reading and writing can be performed with an RF writer (information writing section) 31 and RF readers (information reading sections) 18, 41 described later.
  • the ring spinning frame 2 performs spinning step at a previous step for the automatic winder 1.
  • the ring spinning frame 2 includes a spinning-machine control device 21 configured to control operation of the ring spinning frame 2 and a plurality of spinning units 20 each configured to form a yarn feeding bobbin B.
  • the spinning-machine control device 21 includes an electronic control unit having a central processing unit (CPU), a read only memory (ROM), a random access memory (RAM), an electrically erasable programmable read only memory (EEPROM), a communication device, and storage device, for example.
  • the spinning-machine control device 21 includes a display section 21a such as a display and an operation part 21b such as input keys.
  • the display section 21a displays, for example, an operating status of each spinning unit 20. With the operation part 21b, various types of operation input are performed by an operator, for example.
  • the display section 21a and the operation part 21b may be configured with a touch panel.
  • the spinning unit 20 includes a drafting device 22 and a twisting device 23.
  • the drafting device 22 includes a back roller pair 22a, a middle roller pair 22b, and a front roller pair 22c.
  • Each of the back roller pair 22a, the middle roller pair 22b, and the front roller pair 22c includes a bottom roller and a top roller.
  • apron belts are each wound.
  • the back roller pair 22a, the middle roller pair 22b, and the front roller pair 22c are rotated at a predetermined speed ratio, whereby roved yarn Y1 that has been unwound from a roved yarn bobbin is drafted.
  • the twisting device 23 includes a spindle shaft 24, a ring rail 25, a ring 26, and a traveller 27.
  • the spindle shaft 24 holds the bottom portion Ea of a bobbin tube E with the top portion Eb of the bobbin tube E facing upward, and rotates the bobbin tube E.
  • the ring rail 25 is movable in the axial direction of the bobbin tube E.
  • the ring 26 is fixed to the ring rail 25.
  • the traveller 27 is supported by the ring 26, and is movable along the ring 26.
  • roved yarn Y1 that has been drafted by the drafting device 22. is inserted into a space between the ring 26 and the traveller 27, and an end portion of the roved yarn Y1 is fixed to the bobbin tube E.
  • the traveller 27 moves along the ring 26 in a manner pulled by the roved yarn Y1.
  • the ring rail 25 gradually moves from the bottom portion Ea side to the top portion Eb side while reciprocating within a predetermined range along the axial direction of the bobbin tube E.
  • rotation of the traveller 27 lags behind rotation of the bobbin tube E, whereby the roved yarn Y1 is twisted to form yarn Y, and this yarn Y is wound around the bobbin tube E to form a yarn feeding bobbin B.
  • the ring spinning frame 2 including the spinning units 20 each configured as described above is of what is called a simultaneous doffing type. Specifically, the ring spinning frame 2 stocks a plurality of empty bobbin tubes E transferred from the automatic winder 1 by the bobbin transfer device 3, simultaneously sets the bobbin tubes E on the respective spinning units 20, and simultaneously starts winding of yarn Y. When winding of yarn Y has been completed in the respective spinning units 20 and yarn feeding bobbins B have been formed, the ring spinning frame 2 simultaneously doffs all of the yarn feeding bobbins B.
  • the ring spinning frame 2 pulls out empty bobbin tubes E that have been stocked during the above processes from trays T and simultaneously sets the empty bobbin tubes E on the respective spinning units 20 again and, instead, simultaneously sets the doffed yarn feeding bobbins B on the trays T.
  • the doffed yarn feeding bobbins B are transferred to the automatic winder 1 by the bobbin transfer device 3.
  • each of the spinning units 20 included in the ring spinning frame 2 includes a defect-information acquisition section 28.
  • the defect-information acquisition section 28 acquires yarn-defect information of a yarn feeding bobbin B formed by the corresponding spinning unit 20.
  • the defect-information acquisition section 28 may be each provided for every two or more spinning units 20, or may be provided in plurality for each spinning unit 20.
  • a known sensor or device may be used as the defect-information acquisition section 28 a known sensor or device may be used.
  • Examples of the defect-information acquisition section 28 include a sensor configured to detect the state (presence/absence of yarn breakage, thickness abnormality, etc.) of yarn Y formed by each spinning unit 20, a sensor configured to detect the state (defective installation, wearing of equipment or a component, etc.) of each part of the spinning unit 20, and a sensor configured to detect the operating state (the formation rate of a yarn feeding bobbin B, etc.) of the spinning unit 20.
  • the defect-information acquisition section 28 acquires, as the yarn-defect information, first yarn-defect information on this partial defect.
  • the first yarn-defect information is information prepared by the ring spinning frame 2 about the occurrence of the partial defect.
  • the partial defect of yarn Y in the first yarn-defect information is yarn breakage that has occurred in a bottom portion (portion onto which yarn Y is to be wound first by the ring spinning frame 2) of the yarn feeding bobbin B at a frequency equal to or higher than a certain frequency.
  • the first yarn-defect information is information on yarn breakage in the bottom portion of the yarn feeding bobbin B.
  • the frequency at which yarn breakage occurs is the number of occurrences of yarn breakage per unit time or unit length for winding of yarn Y.
  • the certain frequency is a predetermined value.
  • the certain frequency may be input or be changeable by an operator with the operation part 21b.
  • the first yarn-defect information is not' limited to particular one, and may be any information if it is related to a defect of one portion of the yarn feeding bobbin B.
  • the defect-information acquisition section 28 acquires, as the yarn-defect information, second yarn-defect information on this uneven twist.
  • the second yarn-defect information is information prepared by the ring spinning frame 2 about the occurrence of the uneven twist. Whether an uneven twist is formed can be determined by a known method.
  • the defect-information acquisition section 28 acquires, as the yarn-defect information, third yarn-defect information on the yarn breakage at a frequency equal to or higher than the first frequency.
  • the third yarn-defect information is information prepared by the ring spinning frame 2 about the occurrence of the yarn breakage at a frequency equal to or higher than the first frequency.
  • the defect-information acquisition section 28 acquires, as the yarn-defect information, fourth yarn-defect information on the yarn breakage at a frequency lower than the first frequency and equal to or higher than the second frequency.
  • the fourth yarn-defect information is information prepared by the ring spinning frame 2 about the occurrence of the yarn breakage at a frequency lower than the first frequency and equal to or higher than the second frequency.
  • the third yarn-defect information and the fourth yarn-defect information relate to yarn breakage in one entire yarn feeding bobbin B.
  • the first frequency and the second frequency are predetermined values.
  • the first frequency and the second frequency may be input or be changeable by the operator with the operation part 21b. For example, setting can be made such that the third yarn-defect information is acquired when yarn breakage has occurred at a frequency equal to or higher than Y times within a yarn length of Xm as the first frequency, and such that the fourth yarn-defect information is acquired when yarn breakage has occurred at a frequency lower than Y times and equal to or higher than Z (Y>Z) times within the yarn length of Xm.
  • the ring spinning frame 2 includes a quality control controller 29.
  • the quality control controller 29 manages yarn-defect information acquired by the defect-information acquisition section 28.
  • the quality control controller 29 outputs the managed yarn-defect information to the RF writer 31 of the bobbin transfer device 3.
  • the ring spinning frame 2 includes a path L2 for transferring a tray T and a conveyor C2.
  • the path L2 includes a path L21 for transferring a tray T on which a yarn feeding bobbin B formed by each spinning unit 20 is set to the bobbin transfer device 3 and a path L22 for receiving a tray T on which an empty bobbin tube E is set from the bobbin transfer device 3.
  • the conveyor C2 transfers a tray T on which a yarn feeding bobbin B or an empty bobbin tube E along the path L2.
  • the automatic winder 1 includes a plurality of winding units 10 each configured to form a package P from a yarn feeding bobbin B, a doffer 19 configured to doff the package P, a winding-machine control device 11 configured to control each winding unit 10 and the doffer 19, and a clearer management device 51.
  • the automatic winder 1 includes a path L1 for transferring a tray T and a conveyor C1.
  • the path L1 includes: a path L11 for transferring, to each winding unit 10, a tray T on which a yarn feeding bobbin B transferred from the bobbin transfer device 3 is set; and a path L12 for transferring a tray T on which an empty bobbin tube E, from which yarn Y has been wound by the winding unit 10, is set to the bobbin transfer device 3.
  • the conveyor C1 transfers a tray T on which a yarn feeding bobbin B or an empty bobbin tube E is set along the path L1.
  • each winding unit 10 includes, in the order from the upstream side toward the downstream side along the yarn path, a yarn feeder 12, a tension applying device 13, a splicing device 14, a yarn clearer 15 (hereinafter, simply called “clearer”), and a winding device 16 including a traverse drum configured to apply rotational force to a package P and traverse yarn Y from side to side.
  • each winding unit 10- includes a unit controller 17 and the RF reader (information reading section) 18 as illustrated in FIG. 4 .
  • the RF reader 18 an RF reader/writer having also a writing function may be used.
  • the yarn feeder 12 supports a yarn feeding bobbin B transferred through the path L11 and also assists unwinding of yarn Y from the yarn feeding bobbin B.
  • the yarn feeder 12 discharges an empty bobbin tube E from which the yarn Y has been completely unwound to the path L12.
  • the tension applying device 13 applies a predetermined tension to the yarn Y travelling from the yarn feeder 12 toward the winding device 16.
  • the splicing device 14 is a device configured to splice together ends of yarn Y that has been divided for some reason such as a situation in which a yarn defect has been detected and the yarn Y has been cut accordingly.
  • the clearer 15 monitors the state of yarn Y travelling from the yarn feeder 12 toward the winding device 16 to detect a yarn defect between the yarn feeder 12 and the winding device 16. A result that has been detected by the clearer 15 of each winding unit 10 is sent to the clearer management device 51, and is managed therein. The clearer 15 determines whether to remove a detected yarn defect on the basis of a set clearing condition. If it has been determined that the yarn defect should be removed, the yarn Y is cut by a cutter to remove the yarn defect.
  • the cutter is provided to the clearer 15. Herein, the cutter may be provided separately from the clearer 15.
  • the clearer management device 51 Based on the result detected by the clearer 15, the clearer management device 51 records and manages yarn quality information about information on defects that have occurred, the number of yarn breakages (the number of times yarn Y has been cut to remove the defects), and variation and irregularity in yarn thickness or the length of fluff, for example.
  • the winding device 16 unwinds yarn Y from a yarn feeding bobbin B supported by the yarn feeder 12, and winds the unwound yarn Y to form a package P.
  • the RF reader 18 reads, in a non-contact manner, yarn-defect information of a yarn feeding bobbin B transferred to the winding unit 10 from the RF tag T3 of a tray T on which the transferred yarn feeding bobbin B is set.
  • the unit controller 17 includes an electronic control unit having a CPU, a ROM, a RAM, an EEPROM, a communication device, and a storage device, for example.
  • the unit controller 17 controls operations of the respective components of the winding unit 10 on the basis of instructions from the winding-machine control device 11.
  • the unit controller 17 recognizes yarn information acquired when yarn Y is wound from a yarn feeding bobbin B on the basis of a detection result detected by the clearer 15.
  • the yarn information includes at least one of an amount of time elapsed from the start of winding the yarn Y of the yarn feeding bobbin B, a piece of information on the frequency of yarn breakage, a piece of specific defect information, and a piece of yarn quality information.
  • Information on the length of wound yarn Y is measured by the winding device 16 or a dedicated yarn length sensor (not illustrated) provided additionally, and is sent to the unit controller 17.
  • the information on the length of yarn Y sent to the unit controller 17 is sent to the clearer 15 by the unit controller 17.
  • the unit controller 17 controls operation of the winding unit 10 on the basis of the yarn-defect information and the yarn information. Specifically, when having acquired first yarn-defect information, if the unit controller 17 has determined, based on the yarn information acquired when the yarn Y is wound from the yarn feeding bobbin B and the first yarn-defect information, that the yarn Y is unwound from the yarn feeding bobbin B up to a position corresponding to a partial defect of the first yarn-defect information, the unit controller 17 causes winding of the yarn Y from the yarn feeding bobbin B to stop, and causes the yarn feeding bobbin B to be forcibly discharged as a defective bobbin B1 to the path L12. The unit controller 17 transmits, as information for identifying this defective bobbin B1, identification information of a tray T on which the defective bobbin B1 is set to a discharge controller 42 described later.
  • the unit controller 17 determines whether the yarn Y has been unwound from the yarn feeding bobbin B up to the bottom portion or the vicinity thereof on the basis of the yarn information. As one example, when the total length of yarn Y unwound from a supplied yarn feeding bobbin B and wound around a package P has reached a predetermined specified length (e.g., 1200 m), the unit controller 17 determines that the yarn Y has been unwound from the yarn feeding bobbin B up to the bottom portion or the vicinity thereof.
  • a predetermined specified length e.g. 1200 m
  • the unit controller 17 determines that the yarn Y has been unwound from the yarn feeding bobbin B up to the bottom portion or the vicinity thereof. Still alternatively, when the frequency of yarn breakage (detection of yarn defects) during winding of the yarn feeding bobbin B has exceeded a predetermined specified frequency, the unit controller 17 determines that the yarn Y has been unwound from the yarn feeding bobbin B up to the bottom portion or the vicinity thereof.
  • the unit controller 17 causes winding of the yarn Y to stop, and causes the defective bobbin B1 having residual yarn on the bottom portion thereof to be forcibly discharged to the path L12.
  • the unit controller 17 When having acquired second yarn-defect information or third yarn-defect information, the unit controller 17 causes the yarn feeding bobbin B to be discharged as a defective bobbin B1 directly to the path L12 without winding the yarn Y from the yarn feeding bobbin B.
  • the unit controller 17 transmits, as information for identifying this defective bobbin B1, identification information of a tray T on which the defective bobbin B1 is set to the discharge controller 42 described later.
  • the unit controller 17 determines whether the quality of the yarn feeding bobbin B satisfies a predetermined quality reference value on the basis of yarn information acquired when the yarn Y is wound from the yarn feeding bobbin B. When having determined that the quality reference value is not satisfied, the unit controller 17 causes winding of the yarn Y from the yarn feeding bobbin B to stop, and causes the yarn feeding bobbin B to be discharged as a defective bobbin B1 to the path L12.
  • the quality reference value may be changed by the operator with an operation part 11b. Whether the quality of the yarn feeding bobbin B satisfies the quality reference value can be determined by a known determination method.
  • the unit controller 17 transmits, as information for identifying this defective bobbin B1, identification information of a tray T on which the defective bobbin B1 is set to the discharge controller 42 described later.
  • the unit controller 17 controls operations of the respective components of the winding unit 10, and causes the winding device 16 to supply yarn Y of a yarn feeding bobbin B set on the yarn feeder 12.
  • the doffer 19 doffs a package P formed by each winding unit 10.
  • the single doffer 19 is provided to the winding units 10.
  • the doffer 19 sends a doffed package P to a predetermined position (e.g., a conveyor provided behind the machine).
  • the winding-machine control device 11 includes an electronic control unit having a CPU, a ROM, a RAM, an EEPROM, a communication device, and a storage device, for example.
  • the winding-machine control device 11 includes a display section 11a and the operation part 11b as illustrated in FIG. 4 and FIG. 6 .
  • the display section 11a displays at least a winding condition and operation data in each winding unit 10. With the operation part 11b, various types of operation input are performed by an operator, for example.
  • the display section 11a and the operation part 11b may be configured with a touch panel.
  • the winding-machine control device 11 is connected to the clearer management device 51 and a bobbin-transfer-device controller 39.
  • the bobbin transfer device 3 transfers a yarn feeding bobbin B from the ring spinning frame 2 to the automatic winder 1, and transfers an empty bobbin tube E from the automatic winder 1 to the ring spinning frame 2 as described above.
  • the bobbin transfer device 3 includes a path L3 for transferring a tray T and a conveyor C3.
  • the path L3 includes: a path L31 for transferring, to the automatic winder 1, a tray T on which a yarn feeding bobbin B transferred from the ring spinning frame 2 is set; and a path L32 for transferring, to the ring spinning frame 2, a tray T on which an empty bobbin tube E, from which yarn Y has been wound in the automatic winder 1, is set.
  • the path L3 includes bypass paths L33 and L34 each connecting between the path L31 and the path L32.
  • the bypass path L33 is provided closer to the automatic winder 1 than the bypass path L34 is.
  • the path L2 provided to the ring spinning frame 2, the path L3 provided to the bobbin transfer device 3, and the path L1 provided to the automatic winder 1 constitute a path for transferring yarn feeding bobbins B and empty bobbin tubes E between the automatic winder 1 and the ring spinning frame 2.
  • the bobbin transfer device 3 includes the bobbin-transfer-device controller 39, the RF writer (information writing section) 31, a residual-yarn-amount detection sensor 32, a yarn-end preparation device 33, a yarn presence/absence detection sensor 34, a residual-yarn removal device 35, and a defective-bobbin discharge device (discharge device) 4.
  • the RF writer 31 is provided near the path L31 for transferring a yarn feeding bobbin B formed by the ring spinning frame 2 to the automatic winder 1.
  • the bobbin-transfer-device controller 39 When a yarn feeding bobbin B is transferred from the ring spinning frame 2 to the automatic winder 1, the bobbin-transfer-device controller 39 writes with the RF writer 31, in a noncontact manner, yarn-defect information (any one of first yarn-defect information to fourth yarn-defect information) in the yarn feeding bobbin B to the RF tag T3 of a tray T on which the yarn feeding bobbin B is set.
  • the bobbin-transfer-device controller 39 is connected to the winding-machine control device 11 of the automatic winder 1.
  • the RF writer 31 does not necessarily have to be provided to the bobbin transfer device 3.
  • the RF writer 31 may be provided to an exit of the ring spinning frame 2 in a direction in which a yarn feeding bobbin B is transferred. Alternatively, the RF writer 31 may be provided for each spinning unit 20.
  • the bobbin transfer device 3 may further include a transfer section, and at the transfer section, a yarn feeding bobbin B may be transferred from a tray for the ring spinning frame 2 to a tray for the automatic winder 1.
  • the RF writer 31 may be provided at the transfer section or at a downstream position slightly apart from the transfer section in the direction in which a yarn feeding bobbin B is transferred, and information on a yarn feeding bobbin B may be written to an RF tag attached to a tray for the automatic winder 1.
  • the residual-yarn-amount detection sensor 32 detects the amount of residual yarn in a bobbin (each of a yarn feeding bobbin B and an empty bobbin tube E) to be transferred along the path L31.
  • a bobbin each of a yarn feeding bobbin B and an empty bobbin tube E
  • the yarn-end preparation device 33 performs processing of yarn ends for the yarn feeding bobbin B so as to be able to catch the yarn ends in the automatic winder 1.
  • the yarn-end preparation device 33 does not perform the processing of yarn ends.
  • the conveyor C3 transfers a yarn feeding bobbin B for which processing of yarn ends has been performed by the yarn-end preparation device 33 along the path L31 to the automatic winder 1.
  • the conveyor C3 transfers the empty bobbin tube E from the path L31 to the path L32 through the bypass path L33.
  • the yarn presence/absence detection sensor 34 detects whether yarn Y remains on a bobbin (a yarn feeding bobbin B or an empty bobbin tube E) to be transferred along the path L32. If the bobbin to be transferred along the path L32 is a yarn feeding bobbin B on which yarn Y remains, the conveyor C3 transfers the yarn feeding bobbin B on which yarn Y remains from the path L32 to the residual-yarn removal device 35 through the bypass path L34. The residual-yarn removal device 35 removes the yarn Y from the yarn feeding bobbin B on which the yarn Y remains and that has been transferred along the bypass path L34, thereby obtaining an empty bobbin tube E. The empty bobbin tube E from which the yarn Y has been removed by the residual-yarn removal device 35 is transferred from the bypass path L34 to the path L31 by the conveyor C3.
  • the defective-bobbin discharge device 4 is a device capable of discharging a defective bobbin B1 outside the path L3, and the defective-bobbin discharge device 4 includes the RF reader 41, the discharge controller 42, a defective-bobbin discharge path L4, and a conveyor C4.
  • the defective-bobbin discharge path L4 is provided in a manner branching off from a halfway portion of the path L32 for transferring a tray T from the automatic winder 1 to the ring spinning frame 2.
  • the conveyor C4 takes a tray T on which a defective bobbin B1 is set from the path L32 into the defective-bobbin discharge path L4.
  • an automatic extracting device configured to pick up and discharge a defective bobbin B1 may be used.
  • the RF reader 41 is provided near the path L32 at a position that is closer to the automatic winder 1 than a junction between the path L32 and the defective-bobbin discharge path L4 is.
  • the RF reader 41 reads, in a noncontact manner, an identification information stored in the RF tag T3 of a tray T transferred along the path L32.
  • the discharge controller 42 acquires identification information of a tray T on which a defective bobbin B1 is set from the unit controller 17. Based on the identification information read by the RF reader 41 and the identification information acquired from the unit controller 17, the discharge controller 42 controls the conveyor C4 such that the defective bobbin B1 is discharged from the path L32 to the defective-bobbin discharge path L4.
  • the automatic winder 1 configured as described above, yarn Y of a yarn feeding bobbin B transferred from the ring spinning frame 2 by the bobbin transfer device 3 is wound to form a package P.
  • the corresponding unit controller (controller) 17 of the automatic winder 1 acquires first yarn-defect information prepared by the ring spinning frame 2 about the occurrence of the partial defect.
  • the automatic winder 1 when the first yarn-defect information of the yarn feeding bobbin B has been acquired, if it has been determined, based on yarn information acquired when the yarn Y is wound from the yarn feeding bobbin B related to the acquired first yarn-defect information and the first yarn-defect information prepared by the ring spinning frame 2, that the yarn has been unwound from the yarn feeding bobbin B up to a position corresponding to the partial defect of the first yarn-defect information, winding of the yarn Y from the yarn feeding bobbin B is stopped.
  • the yarn Y up to the position corresponding to the partial defect of the yarn feeding bobbin B related to the first yarn-defect information i.e., a portion of yarn Y having normal yarn quality
  • the yarn feeding bobbin B related to the first yarn-defect information is not limited to the yarn feeding bobbin itself for which the first yarn-defect information has been acquired.
  • this other yarn feeding bobbin B in the same lot as the yarn feeding bobbin B for which the first yarn-defect information has been measured may be included in the yarn feeding bobbin B related to the first yarn-defect information to be processed.
  • the unit controller 17 causes this yarn feeding bobbin B to be discharged as a defective bobbin B1 upon determining, based on the yarn information, that the yarn Y has been unwound from the yarn feeding bobbin B up to the position corresponding to the partial defect of the first yarn-defect information of the yarn feeding bobbin B.
  • the yarn Y having the partial defect of the yarn feeding bobbin B can be reliably prevented frombeing wound. Furthermore, by preventing deletion of a predictable defective portion and successive occurrences of splicing, production efficiency in the automatic winder 1 is increased.
  • the first yarn-defect information is information on yarn breakage in a bottom portion of the yarn feeding bobbin B.
  • the yarn Y up to the bottom portion of the yarn feeding bobbin B can be wound without wasting it.
  • the quality of yarn Y in a bottom portion of a yarn feeding bobbin B is more likely to be poor.
  • the information on yarn breakage in the bottom portion is considered, and, thus, an efficiency decrease can be prevented when yarn Y having a partial defect that occurs due to a production problem of the ring spinning frame 2 is wound by the automatic winder 1.
  • the yarn information includes at least one of pieces of information on the total length of yarn Y wound by the automatic winder 1, information on the length of yarn Y unwound from the yarn feeding bobbin B, and information on the frequency of yarn breakage that has occurred in the automatic winder 1. In this case, it can be specifically determined that the yarn Y has been unwound from the yarn feeding bobbin B up to the position corresponding to the partial defect.
  • the information on the total length of yarn Y wound by the automatic winder 1 or information on the length of yarn Y unwound from the yarn feeding bobbin B is obtained by a yarn-length measuring mechanism.
  • the yarn-length measuring mechanism includes the traverse drum provided to each winding device 16 or a dedicated yarn length sensor (not illustrated) provided additionally and the corresponding unit controller 17.
  • the yarn-length measuring mechanism calculates the information on the total length of yarn Y wound by the automatic winder 1 or the information on the length of yarn Y unwound from the yarn feeding bobbin B on the basis of the number of rotations of the traverse drum provided to the winding device 16.
  • the yarn-length measuring mechanism measures the information on the total length of yarn Y wound by the automatic winder 1 or the information on the length of yarn Y unwound from the yarn feeding bobbin B.
  • a result calculated from the number of rotations of the traverse drum or a result measured by the yarn length sensor is sent to the unit controller 17, and is managed as the total length of yarn Y wound by the automatic winder 1 or the length of yarn Y unwound from the yarn feeding bobbin B.
  • the information on the length of yarn Y sent to the unit controller 17 is sent to the clearer 15 by the unit controller 17.
  • the information on the total length of yarn Y wound by the automatic winder 1 and the information on the length of yarn Y unwound from the yarn feeding bobbin B may be managed based on the travelling speed of yarn Y and a period of time for which the yarn Y has travelled.
  • a controller for the management may be provided to the dedicated yarn length sensor.
  • the automatic winder 1 further includes a clearer 15 (yarn-quality monitoring device) configured to monitor the state of yarn Y to detect a yarn defect.
  • the unit controller 17 manages the detection frequency of yarn defects measured by the clearer 15 as the yarn information. When the detection frequency of yarn defects exceeds a predetermined specified frequency, the unit controller 17 determines that the yarn Y has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information. In this case, without adding a special device like the yarn-length measuring mechanism, the unit controller 17 can determine that the yarn Y has been unwound from the yarn feeding bobbin up to the position corresponding to the partial defect of the first yarn-defect information. Thus, the automatic winder 1 can be built without cost increase.
  • the spinning system 100 includes the automatic winder 1 and the ring spinning frame 2.
  • Each yarn feeding bobbin B is transferred by the bobbin transfer device 3 in a manner set on a tray T having an RF tag T3.
  • the bobbin transfer device 3 includes the RF writer 31 configured to write yarn-defect information to the RF tag T3.
  • the automatic winder 1 includes the RF readers 18 each configured to read the yarn-defect information written by the RF writer 31. In this case, the automatic winder 1 can acquire the yarn-defect information of each yarn feeding bobbin B, using the corresponding tray T having the RF tag T3, the RF writer 31, and the RF readers 18.
  • the ring spinning frame 2 acquires second yarn-defect information on this uneven twist, and when yarn breakage has occurred in yarn Y of a yarn feeding bobbin B at a frequency equal to or higher than the first frequency, the ring spinning frame 2 acquires third yarn-defect information on the yarn breakage at a frequency equal to or higher than the first frequency.
  • the automatic winder 1 does not wind yarn Y from this yarn feeding bobbin B.
  • the yarn Y of the yarn feeding bobbin B related to the second yarn-defect information or the third yarn-defect information can be prevented from being wound.
  • the automatic winder 1 when having acquired the second yarn-defect information or the third yarn-defect information of the yarn feeding bobbin B, the automatic winder 1 discharges this yarn feeding bobbin B as a defective bobbin B1 without winding the yarn Y from the yarn feeding bobbin B.
  • the yarn Y of the yarn feeding bobbin B related to the second yarn-defect information or the third yarn-defect information can be reliably prevented from being wound.
  • the ring spinning frame 2 acquires fourth yarn-defect information (yarn-defect information) on yarn breakage at a frequency lower than the first frequency and equal to or higher than the second frequency.
  • the automatic winder 1 determines (checks) whether the quality of the yarn feeding bobbin B satisfies the quality reference value on the basis of the yarn information acquired when the yarn Y is wound from the yarn feeding bobbin B.
  • the yarn quality of the yarn feeding bobbin B related to the fourth yarn-defect information can be accurately determined (the determined yarn quality can be reliable).
  • the automatic winder 1 stops winding the yarn Y from the yarn feeding bobbin B.
  • the yarn Y can be prevented from being wound.
  • winding of yarn Y in the automatic winder 1 is not always stopped, and if the automatic winder 1 has determined that the quality reference value is satisfied, the yarn Y can be wound by the automatic winder 1 as usual to form a package P.
  • production efficiency can be further prevented from decreasing.
  • the automatic winder 1 determines whether the quality of the yarn feeding bobbin B satisfies the quality reference value on the basis of the yarn information acquired when the yarn Y is wound from the yarn feeding bobbin B, and when having determined that the quality reference value is not satisfied, the automatic winder 1 discharges this yarn feeding bobbin B as a defective bobbin. In this case, in the automatic winder 1, the yarn Y of the yarn feeding bobbin B that does not satisfy the quality reference value can be reliably prevented from being wound.
  • the automatic winder 1 when having acquired the second yarn-defect information or the third yarn-defect information of the yarn feeding bobbin B, the automatic winder 1 may determine whether the quality of the yarn feeding bobbin B satisfies the quality reference value on the basis of the yarn information acquired when the yarn Y is wound from the yarn feeding bobbin B, and when having determined that the quality reference value is not satisfied, the automatic winder 1 may discharge this yarn feeding bobbin B as a defective bobbin.
  • Defect information measured by the ring spinning frame 2 cannot be checked as accurately as each clearer 15 provided to the automatic winder 1. Thus, how accurate the quality of the defect information measured by the ring spinning frame 2 is can be verified by checking the defect information measured by the ring spinning frame 2 with the clearer 15. After verification has been performed once, the defect information measured by the ring spinning frame 2 can be evaluated based on this verification result, and thus the reliability of the defect information measured by the ring spinning frame 2 is increased.
  • the bobbin transfer device 3 includes the defective-bobbin discharge device 4 capable of discharging outside the path L3 a defective bobbin B1 discharged by the automatic winder 1. In this case, in the bobbin transfer device 3, the defective bobbin B1 can be discharged.
  • the automatic winder 1 may acquire yarn-defect information via communication, or may acquire the yarn-defect information in response to operation input of an operator with the operation part 11b. In this case, the automatic winder 1 can acquire the yarn-defect information of a yarn feeding bobbin B, using the communication and the operation input.
  • the embodiment may be configured such that ring spinning frames 2 the number of which is larger than that of automatic winders 1 are provided and a yarn feeding bobbin B is transferred to one automatic winder 1 from more than one ring spinning frame 2.
  • a defective bobbin B1 is discharged outside the path L3 by the defective-bobbin discharge device 4.
  • the defective bobbin B1 may be used as an empty bobbin tube E after removing yarn Y therefrom by the residual-yarn removal device 35.
  • the automatic winder 1 may acquire yarn-defect information from the ring spinning frame 2 via communication.
  • the bobbin transfer device 3 includes the residual-yarn-amount detection sensor 32, the yarn-end preparation device 33, the yarn presence/absence detection sensor 34, the residual-yarn removal device 35, and the bypass paths L33, L34, however, these may be appropriately omitted.
  • the RF readers 18, 41 do not necessarily have to read information from the RF tag T3 in a noncontact manner, and may read the information in a contact manner.
  • steps 1 to 3 may be performed.
  • Step 1 Grasp the yarn amount of a yarn feeding bobbin B that is present in the automatic winder (yarn winding machine) 1 and the bobbin transfer device 3 (the total amount of yarn that has not yet been wound).
  • Step 2 Calculate the amount of yarn of a yarn feeding bobbin B that has been completely wound at final doffing (final doffing in the ring spinning frame 2). At this time, the amount of yarn is grasped for each yarn feeding bobbin B (for a yarn feeding bobbin B having a defective portion, both the normal yarn length and the yarn length of a defective portion thereof are managed).
  • Step 3 Supply yarn in an amount needed for full winding to a predetermined winding unit 10.
  • the amount of yarn except for the defective portion is calculated (the defective yarn is discharged without being wound).
  • the controller may perform: a first process of grasping the amount of yarn of a yarn feeding bobbin present in the yarn winding machine and the bobbin transfer device; a second process of calculating, for each yarn feeding bobbin, the amount of yarn of the yarn feeding bobbin that has been completely wound at final doffing in the spinning frame; and a third process of supplying yarn in an amount needed for full winding to a predetermined winding unit of the yarn winding machine.
  • the controller may, in the yarn feeding bobbin having defective yarn, manage both the length of normal yarn and the length of the defective yarn.
  • the controller may, in the yarn feeding bobbin having defective yarn, calculate the amount of yarn except for the defective yarn and also discharge the defective yarn without winding it.
  • the controller can be configured with at least a part of the winding-machine control device 11, the spinning-machine control device 21, and the bobbin-transfer-device controller 39.
  • yarn in an amount needed for full winding can be supplied to the predetermined winding unit 10, whereby the lot can be prevented from ending up with an incompletely wound package .
  • the yarn feeding bobbin B becomes depleted at the time when five 1/2-packages have been formed as packages P.
  • two fully wound packages and one 1/2-package can be completed as packages P.
  • the amount (length) of yarn for each yarn feeding bobbin B may be managed as information. This management may be performed by the automatic winder (yarn winding machine) 1, or may be performed by the quality control controller 29. Specifically, in the management, the following processes are performed. After a package P has been wound in a predetermined winding unit 10, the clearer management device 51 calculates the ratio of defective yarn per bobbin on the basis of a measurement result of the clearer 15. For example, when the yarn length in a bobbin is 2489 meters and the length of defective yarn removed therefrom is 2.5 meters, the defective yarn length ratio is calculated to be 0.1%.
  • the defective yarn length ratio is calculated to be 0.4%.
  • the quality control controller 29, the automatic winder 1, or each spinning unit 20 this defective yarn length ratio is accumulated at each doffing.
  • an alarm index using the length as an index can be included.
  • each configuration in the embodiment or the modifications may be optionally used for each configuration in another embodiment or modification.
  • a part of each configuration in the embodiment or the modifications may be appropriately omitted within the scope not departing from the gist of one aspect of the present disclosure.

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  • Engineering & Computer Science (AREA)
  • Quality & Reliability (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Replacing, Conveying, And Pick-Finding For Filamentary Materials (AREA)
  • Filamentary Materials, Packages, And Safety Devices Therefor (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
EP21175905.5A 2020-06-05 2021-05-26 Garnwickelmaschine und spinnsystem Active EP3919426B1 (de)

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JP2020098396A JP2021191704A (ja) 2020-06-05 2020-06-05 糸巻取機及び紡績システム

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EP3919426B1 EP3919426B1 (de) 2024-04-10

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5287692A (en) * 1989-07-26 1994-02-22 Murata Kikai Kabushiki Kaisha Transport medium for yarn or the like
EP2455318A1 (de) * 2009-07-17 2012-05-23 Murata Machinery, Ltd. Verwaltungssystem für einen automatischen wickler und automatischer wickler
EP2455317A1 (de) * 2009-07-17 2012-05-23 Murata Machinery, Ltd. Verwaltungssystem für einen feindrahtwickler und feindrahtwickler
EP3305953A1 (de) * 2015-06-05 2018-04-11 Murata Machinery, Ltd. Garnwickelsystem, spinnmaschine, automatischer wickler und garnwickelverfahren
WO2018212293A1 (ja) 2017-05-19 2018-11-22 村田機械株式会社 紡績システム、及び巻取阻止方法
WO2019111090A1 (de) * 2017-12-08 2019-06-13 Maschinenfabrik Rieter Ag Verfahren zum betreiben einer spulmaschine zum umspulen von kopsen einer vorangehenden ringspinnmaschine

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US5287692A (en) * 1989-07-26 1994-02-22 Murata Kikai Kabushiki Kaisha Transport medium for yarn or the like
EP2455318A1 (de) * 2009-07-17 2012-05-23 Murata Machinery, Ltd. Verwaltungssystem für einen automatischen wickler und automatischer wickler
EP2455317A1 (de) * 2009-07-17 2012-05-23 Murata Machinery, Ltd. Verwaltungssystem für einen feindrahtwickler und feindrahtwickler
EP3305953A1 (de) * 2015-06-05 2018-04-11 Murata Machinery, Ltd. Garnwickelsystem, spinnmaschine, automatischer wickler und garnwickelverfahren
WO2018212293A1 (ja) 2017-05-19 2018-11-22 村田機械株式会社 紡績システム、及び巻取阻止方法
WO2019111090A1 (de) * 2017-12-08 2019-06-13 Maschinenfabrik Rieter Ag Verfahren zum betreiben einer spulmaschine zum umspulen von kopsen einer vorangehenden ringspinnmaschine

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EP3919426B1 (de) 2024-04-10
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