EP2573019A2 - Dispositif de stockage de fil, unité de filage et fileuse - Google Patents

Dispositif de stockage de fil, unité de filage et fileuse Download PDF

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Publication number
EP2573019A2
EP2573019A2 EP12184653A EP12184653A EP2573019A2 EP 2573019 A2 EP2573019 A2 EP 2573019A2 EP 12184653 A EP12184653 A EP 12184653A EP 12184653 A EP12184653 A EP 12184653A EP 2573019 A2 EP2573019 A2 EP 2573019A2
Authority
EP
European Patent Office
Prior art keywords
yarn
pooling
spun yarn
section
spun
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
EP12184653A
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German (de)
English (en)
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EP2573019A3 (fr
EP2573019B1 (fr
Inventor
Masaki Oka
Masahiro Akimoto
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
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Filing date
Publication date
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Publication of EP2573019A2 publication Critical patent/EP2573019A2/fr
Publication of EP2573019A3 publication Critical patent/EP2573019A3/fr
Application granted granted Critical
Publication of EP2573019B1 publication Critical patent/EP2573019B1/fr
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H51/00Forwarding filamentary material
    • B65H51/20Devices for temporarily storing filamentary material during forwarding, e.g. for buffer storage
    • B65H51/22Reels or cages, e.g. cylindrical, with storing and forwarding surfaces provided by rollers or bars
    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H4/00Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques
    • D01H4/48Piecing arrangements; Control therefor
    • 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

Definitions

  • the present invention relates to a yarn pooling device that is arranged between a yarn supplying device and a winding device and that pools a spun yarn, and to a spinning unit and a spinning machine that include such a yarn pooling device.
  • Spinning units that include a yarn supplying device that supplies a spun yarn, a winding device that winds the spun yarn to form a package, and a yarn pooling device that is arranged between the yarn supplying device and the winding device and that pools the spun yarn by winding the spun yarn around a yarn pooling roller are known in the art (for example, see Japanese Patent Application Laid-open No. 2010-174421 ).
  • Various arrangements have been suggested for a yarn pooling roller of a yarn pooling device of such spinning units. For example, in one arrangement, an inclination angle of a yarn pooling section of the yarn pooling roller, where a spun yarn is wound, can be changed in a plurality of levels (see, for example, Japanese Patent Application Laid-open No. 2010-89908 ).
  • the yarn pooling roller is provided with a tapering section that widens from a base end section of the yarn pooling section where the winding starts towards the yarn supplying device side, by an inclination angle larger than or equal to 45 degrees (see, for example, Japanese Patent Application Laid-open No. 2010-76889 ).
  • a yarn pooling device is arranged between a yarn supplying device that supplies the spun yarn and a winding device that winds the spun yarn to form a package, and pools a spun yarn.
  • the yarn pooling device includes a yarn pooling roller around which the spun yarn is wound.
  • the yarn pooling roller includes a yarn pooling section around which the yarn is wound, a first tapering section that widens from a base end section on a winding start side of the yarn pooling section towards the yarn supplying device by a first inclination angle, and a second tapering section that widens from the first tapering section towards the yarn supplying device by a second inclination angle that is smaller than the first inclination angle.
  • the second tapering section has a function of receiving the spun yarn that is guided to the yarn pooling roller, and a function of preventing, when the yarn is broken on the yarn supplying device side, the end of the spun yarn that sways around on the base end section side from moving towards a tip end section side of the yarn pooling section.
  • the first tapering section has a function of guiding the spun yarn received by the second tapering section to the base end section.
  • the spinning unit according to the present invention includes the above yarn pooling device, the yarn supplying device that supplies the spun yarn that is guided to the yarn pooling device, and the winding device that winds the spun yarn guided from the yarn pooling device to form a package.
  • the spinning machine according to the present invention includes a plurality of the above spinning units. Because the spinning machine includes the spinning units that can realize smooth operations during the winding of the spun yarn, when the spun yarn is broken, and the like, such a spinning machine can efficiently produce high quality packages.
  • a spinning machine 1 includes a plurality of spinning units 2, a yarn joining carrier 3, a blower box 4, and a motor box 5.
  • the spinning units 2 are arranged side-by-side. Each spinning unit 2 forms a spun yarn Y and winds the spun yarn Y to form a package P.
  • the yarn joining carrier 3 performs a yarn joining operation in the spinning unit 2 where a breakage of the spun yarn Y has occurred.
  • the blower box 4 houses an air supplying source, and suchlike, that produces a suction flow, a swirling airflow, etc., in various parts of the spinning unit 2.
  • the motor box 5 houses a motor, and suchlike, that supplies power to various parts of the spinning unit 2.
  • upstream side refers to the side where the spun yarn Y is formed and the term “downstream side” refers to the side where the spun yarn Y is wound in a route in which the spun yarn Y runs (that is, a yarn path).
  • front side is used for the side relative to the yarn joining carrier 3 where the yarn path is present, and the term “backside” is used for the opposite side relative to the yarn joining carrier 3.
  • each of the spinning units 2 includes, sequentially from the upstream side, a drafting device (yarn supplying device) 6, a spinning device (yarn supplying device) 7, a yarn clearer (yarn-defect detecting device) 8, a tension sensor (tension measuring device) 9, a yarn pooling device 50, a waxing device 11, and a winding device 12.
  • a drafting device yarn supplying device
  • a spinning device yarn supplying device
  • yarn clearer yarn clearer
  • tension sensor tension measuring device
  • the yarn processing module 80 that is detachably mounted on the frame 13.
  • the drafting device 6 drafts a sliver S to form a fiber bundle F (that is, drafts the fiber bundle F).
  • the drafting device 6 includes a pair of back rollers 14, a pair of third rollers 15, a pair of middle rollers 17 with an apron belt 16 stretched over them, and a pair of front rollers 18.
  • the bottom roller of each of the pairs of the rollers 14, 15, 17, and 18 is driven at different rotational speed by the power from the motor box 5 or a not shown electric motor arranged in each of the spinning units 2. Because of the rotation of the rollers 14, 15, 17, and 18, the drafting device 6 drafts the sliver S supplied from the upstream side to form the fiber bundle F, and supplies the fiber bundle F to the spinning device 7 located on the downstream side.
  • the spinning device 7 is an air spinning device that twists the fiber bundle F using a swirling airflow to form the spun yarn Y. More specifically, the spinning device 7 includes the following not shown components: a spinning chamber, a fiber guiding section, a swirling-airflow producing nozzle, and a hollow guide shaft.
  • the fiber guiding section guides the fiber bundle F supplied from the drafting device 6 on the upstream side into the spinning chamber.
  • the swirling-airflow producing nozzle is arranged in the periphery of the route in which the fiber bundle F runs and produces the swirling airflow inside the spinning chamber.
  • the swirling airflow causes yarn ends of the fiber bundle F guided into the spinning chamber to be reversed and whirled.
  • the hollow guide shaft guides the spun yarn Y from inside the spinning chamber to outside of the spinning device 7.
  • the yarn clearer 8 monitors the running spun yarn Y between the spinning device 7 and the yarn pooling device 50 for any yarn defect, and sends a yarn-defect detection signal to a unit controller 10 upon detection of the yarn defect. For example, an abnormality in a thickness of the spun yarn Y or a foreign matter that is included in the spun yarn Y is detected as a yarn defect by the yarn clearer 8.
  • the tension sensor 9 measures a tension of the running spun yarn Y between the spinning device 7 and the yarn pooling device 50, and sends a tension signal indicative of the measured tension to the unit controller 10.
  • the waxing device 11 applies wax to the running spun yarn Y between the yarn pooling device 50 and the winding device 12.
  • One unit controller 10 is arranged in each of the spinning units 2 and controls operations of the spinning unit 2.
  • the yarn pooling device 50 pools the running spun yarn Y between the spinning device 7 and the winding device 12.
  • the yarn pooling device 50 has functions of stably drawing the spun yarn Y from the spinning device 7, preventing the spun yarn Y from slacking by pooling the spun yarn Y that is coming out of the spinning device 7 during the yarn joining operation by the yarn joining carrier 3, and preventing any variation in the tension of the spun yarn Y on the winding device 12 side from being conveyed to the spinning device 7 side by appropriately controlling the tension on the spun yarn Y on the winding device 12 side.
  • the winding device 12 forms a fully wound package P by winding the spun yarn Y into a package P.
  • the winding device 12 includes a cradle arm 21, a winding drum 22, and a traverse device 23.
  • the cradle arm 21 is swingably supported by a support shaft 24.
  • the cradle arm 21 causes a surface of a rotatably supported bobbin B and/or package P (i.e., the spun yarn Y wound on the bobbin B) to be in contact with a surface of the winding drum 22 with an appropriate pressure.
  • the winding drum 22 is driven by the not shown electric motor included in each of the spinning units 2.
  • the bobbin B and/or the package P that is in contact with the winding drum 22 also rotates.
  • the traverse device 23 is driven by a shaft 25 that is common to a plurality of the spinning units 2, and causes the spun yarn Y to traverse a predetermined width on the rotating bobbin B and/or package P.
  • the yarn joining carrier 3 moves to the spinning unit 2 where a breakage of the spun yarn Y has occurred and performs the yarn joining operation at the particular spinning unit 2.
  • the yarn joining carrier 3 includes a splicer (yarn joining device) 26, a suction pipe 27, and a suction mouth 28.
  • the suction pipe 27 is pivotably supported by a support shaft 31.
  • the suction pipe 27 holds the end of the spun yarn Y on the spinning device 7 side by suction and guides it to the splicer 26.
  • the suction mouth 28 is pivotably supported by a support shaft 32.
  • the suction mouth 28 holds the end of the spun yarn Y on the winding device 12 side by suction and guides it to the splicer 26.
  • the splicer 26 joins two ends of the spun yarns Y that have been guided.
  • the yarn pooling device 50 includes a yarn pooling roller 51, an electric motor (driving motor) 55, a pooled-yarn-amount lower limit sensor 56, a pooled-yarn-amount upper limit sensor 57, a yarn hooking member 61, a yarn taking-off member 64, a suction mechanism 65, and a regulating member 71.
  • a first guiding member 78 and a yarn operation control member 75 are arranged sequentially from the upstream side between the spinning device 7 and the yarn pooling roller 51.
  • a second guiding member 79 is arranged between the yarn pooling roller 51 and the winding device 12.
  • the yarn pooling roller 51 is fixed to a drive shaft of the electric motor 55 and is driven by the electric motor 55.
  • the yarn pooling roller 51 includes a yarn pooling section 52, a base-end side tapering section 53, and a tip-end side tapering section 54.
  • the yarn pooling section 52 is a cylindrical component around which the spun yarn Y is wound and tapers slightly towards the tip end.
  • the base-end side tapering section 53 widens from a base end section 52a of the yarn pooling section 52 where winding starts towards the upstream side.
  • the tip-end side tapering section 54 widens from a tip end section 52b of the yarn pooling section 52 towards the downstream side.
  • the base-end side tapering section 53 receives the spun yarn Y being guided from the upstream side to the yarn pooling roller 51 and smoothly guides it to the base end section 52a of the yarn pooling section 52.
  • the spun yarn Y is wound systematically from the base end side to the tip end side of the yarn pooling section 52.
  • the tip-end side tapering section 54 avoids sloughing that is a phenomenon in which the spun yarn Y wound around the yarn pooling section 52 comes off all at once when the spun yarn Y is unwound from the yarn pooling roller 51, and the tip-end side tapering section 54 also smoothly guides the spun yarn Y from the yarn pooling roller 51 to the downstream side.
  • the pooled-yarn-amount lower limit sensor 56 is a non-contact sensor that detects presence or absence of the spun yarn Y on the yarn pooling roller 51, and is arranged on the rear side of the yarn pooling roller 51 and facing the yarn pooling section 52.
  • the pooled-yarn-amount lower limit sensor 56 sends a pooled-amount lower limit detection signal to the unit controller 10 when an amount of the spun yarn Y wound around the yarn pooling roller 51 reaches a lower limit.
  • the pooled-yarn-amount upper limit sensor 57 is a non-contact sensor that detects presence or absence of the spun yarn Y on the yarn pooling roller 51, and is arranged by the side of the yarn pooling roller 51 and facing the tip end section 52b of the yarn pooling section 52.
  • the pooled-yarn-amount upper limit sensor 57 sends a pooled-amount upper limit detection signal to the unit controller 10 when an amount of the spun yarn Y wound around the yarn pooling roller 51 reaches an upper limit.
  • the yarn hooking member 61 is arranged on the winding device 12 side with respect to the yarn pooling roller 51, and engages with the spun yarn Y and winds it around the yarn pooling roller 51.
  • the yarn hooking member 61 includes a flier shaft 62 and a flier 63.
  • the flier shaft 62 is supported on the tip end side of the yarn pooling roller 51 so as to rotate relative to and coaxially with the yarn pooling roller 51.
  • the flier 63 is fixed to the tip end of the flier shaft 62 and is bent over the tip-end side tapering section 54 of the yarn pooling roller 51 so as to be able to engage with the spun yarn Y.
  • a magnetic force is caused to act between the yarn pooling roller 51 and the flier shaft 62.
  • the yarn hooking member 61 produces a torque greater than or equal to a predetermined value.
  • the yarn taking-off member 64 takes off the spun yarn Y from the yarn hooking member 61, and is arranged near the tip-end side tapering section 54 of the yarn pooling roller 51.
  • the yarn taking-off member 64 is supported so as to be swingable between a descent position and an ascent position.
  • the descent position is a position that is retracted from the yarn path.
  • the ascent position is a position at which the spun yarn Y is pushed up in the yarn path and taken off from the yarn hooking member 61.
  • the yarn taking-off member 64 is urged towards the descent position side by a not shown spring.
  • the yarn taking-off member 64 is normally positioned at the descent position and is moved to the ascent position by a not shown air pressure cylinder provided in the yarn joining carrier 3 during the yarn joining operation, and suchlike.
  • the suction mechanism 65 produces a suction airflow in a suction vent 66a arranged facing the base-end side tapering section 53 of the yarn pooling roller 51.
  • the suction vent 66a is provided at one end of a pipe-shaped member 66.
  • the other end of the pipe-shaped member 66 is connected via a not shown pipe to a not shown fiber-waste collecting chamber, which is common to the suction pipe 27 and the suction mouth 28.
  • the end of the spun yarn Y sways about on the base end section 52a side of the yarn pooling section 52.
  • the swaying end is subjected to the action of the suction airflow produced at the suction vent 66a.
  • most fiber waste from the yarn end is removed by the suction mechanism 65 and is prevented from being scattered.
  • the regulating member 71 is a plate member that is arranged to the side of the yarn pooling roller 51 (facing the yarn pooling section 52), and includes a first regulating section 72, a second regulating section 73, and a third regulating section 74.
  • the first regulating section 72 is located at the upstream of the suction vent 66a in a rotation direction of the yarn pooling roller 51 during winding of the spun yarn Y.
  • the second regulating section 73 is located at the downstream of the suction vent 66a in the above rotation direction.
  • the first regulating section 72 and the second regulating section 73 are arranged facing the base end section 52a of the yarn pooling section 52.
  • the first regulating section 72 and the second regulating section 73 regulate the movement of the end of the spun yarn Y that sways about on the base end section 52a side of the yarn pooling section 52 when a breakage of the spun yarn Y occurs on the spinning device 7 side, such that the swaying end of the spun yarn Y is prevented from being moved to the tip end section 52b side of the yarn pooling section 52 before the spun yarn Y is orderly unwound from the tip end section 52b of the yarn pooling section 52.
  • the third regulating section 74 is arranged facing the yarn pooling section 52.
  • the third regulating section 74 regulates the movement of the end of the spun yarn Y that sways about on the tip end section 52b side of the yarn pooling section 52 when a breakage of the spun yarn Y occurs on the winding device 12 side, such that the swaying end of the spun yarn Y is prevented from being moved to the base end section 52a side of the yarn pooling section 52 before the spun yarn Y is orderly unwound from the base end section 52a of the yarn pooling section 52.
  • the pooled-yarn-amount upper limit sensor 57 is mounted at a bottom end of the regulating member 71.
  • the yarn operation control member 75 is a plate member mounted at the upstream of the yarn pooling roller 51 (in the present embodiment, on the bottom surface (end face on the downstream side) of the tension sensor 9), and includes a guiding component 76 and a regulating component 77.
  • the guiding component 76 applies tension to the spun yarn Y and guides the spun yarn Y to the base-end side tapering section 53 of the yarn pooling roller 51, and prevents the twisting of the spun yarn Y coming from the spinning device 7 from being conveyed further downstream of the guiding component 76.
  • the regulating component 77 prevents the end of the spun yarn Y from being displaced from the yarn path of the spun yarn Y guided to the yarn pooling device 50 and from moving to the yarn hooking member 61 side by passing over the yarn pooling roller 51.
  • the first guiding member 78 is a plate member mounted at the upstream of the yarn pooling roller 51 (in the present embodiment, on the bottom surface (end face on the downstream side) of the tension sensor 9), and guides the spun yarn Y from a slit formed on a casing of the tension sensor 9 to a designated detection position inside the casing.
  • the second guiding member 79 is a plate member mounted on the downstream side of the yarn pooling roller 51 (in the present embodiment, on a module frame 81 of the yarn processing module 80).
  • the second guiding member 79 guides the spun yarn Y to a designated position of the waxing device 11 and regulates a track of the spun yarn Y being swayed about by the rotating yarn hooking member 61, stabilizing the running of the spun yarn Y further downstream of the second guiding member 79.
  • the electric motor 55 drives the yarn pooling roller 51 at a substantially constant rotational speed.
  • the yarn hooking member 61 rotates integrally with the yarn pooling roller 51, and the flier 63 engages with the spun yarn Y.
  • the yarn hooking member 61 which is rotating with the spun yarn Y engaged thereon, winds the spun yarn Y around the rotating yarn pooling roller 51.
  • the unit controller 10 exerts control over the operation of the spinning unit 2.
  • the unit controller 10 exerts this control based on the pooled-amount lower limit detection signal received from the pooled-yarn-amount lower limit sensor 56 and the pooled-amount upper limit detection signal received from the pooled-yarn-amount upper limit sensor 57, so that the pooled amount of the spun yarn Y that is wound around the yarn pooling roller 51 is greater than or equal to the lower limit and less than or equal to the upper limit.
  • the yarn pooling device 50 can draw the spun yarn Y stably (that is, while maintaining a substantially constant quality and speed) from the spinning device 7 by the rotation of the yarn pooling roller 51.
  • a force that causes the yarn hooking member 61 to rotate relative to the yarn pooling roller 51 acts on the flier 63.
  • the torque produced in the yarn hooking member 61 increases to a value greater than or equal to a predetermined value as a consequence of the force, the yarn hooking member 61 rotates relative to the yarn pooling roller 51. Consequently, the spun yarn Y is unwound from the yarn pooling roller 51.
  • the yarn hooking member 61 rotates integrally with the yarn pooling roller 51. Consequently, the spun yarn Y is wound around the yarn pooling roller 51. In this manner, the yarn pooling device 50 adjusts the tension on the spun yarn Y on the winding device 12 side and thereby prevents the variation in the tension on the spun yarn Y that occurs on the winding device 12 side from being conveyed to the spinning device 7 side.
  • the yarn clearer 8 detects a defect while the spinning unit 2 is operating normally by forming the spun yarn Y and winding the spun yarn Y to form the package P, the yarn clearer 8 sends the yarn-defect detection signal to the unit controller 10.
  • the unit controller 10 stops the operation of the drafting device 6, the spinning device 7, etc., immediately upon receiving the yarn-defect detection signal. Consequently, the fiber bundle F is not subjected to twisting, and the spun yarn Y is broken on the spinning device 7 side.
  • the unit controller 10 causes the rotation of the yarn pooling roller 51 and the winding by the winding device 12 to be continued. Consequently, as shown in FIG. 4 , the cut end of the spun yarn Y is wound around the yarn pooling roller 51. While the spun yarn Y is unwound from the yarn pooling roller 51 to the winding device 12, the cut end of the spun yarn Y sways about on the base end section 52a side of the yarn pooling section 52. The swaying end is prevented from moving toward the tip end section 52b side of the yarn pooling section 52 by the first regulating section 72 of the regulating member 71, and is subjected to the suction airflow produced by the suction vent 66a.
  • the spun yarn Y is smoothly unwound from the yarn pooling roller 51 to the winding device 12 side. While the unwinding of the spun yarn Y is taking place, the fiber waste from the yarn end on the upstream side is removed by the suction mechanism 65 and is prevented from being scattered.
  • the unit controller 10 sends a control signal that specifies the spinning unit 2 in which the spun yarn Y has been cut to the yarn joining carrier 3. Consequently, the yarn joining carrier 3 moves to a position in front of the specified spinning unit 2, and commences the yarn joining operation.
  • the suction mouth 28 turns to a position near the surface of the package P and produces the suction airflow while the winding device 12 causes a reverse rotation of the package P. Consequently, the suction mouth 28 draws and holds by suction the end of the spun yarn Y from the surface of the package P. Thereafter, as shown in FIG. 6 , the suction mouth 28 turns to its original position (standby position) and guides the end of the spun yarn Y on the winding device 12 side to the splicer 26. The winding device 12 stops the rotation of the package P.
  • the suction pipe 27 pivots to a position at the downstream of the spinning device 7 and produces the suction airflow. Because during this operation the unit controller 10 restarts the operations of the drafting device 6, the spinning device 7, etc., the suction pipe 27 holds the end of the spun yarn Y that is formed. Thereafter, as shown in FIG. 6 , the suction pipe 27 pivots to the original position (standby position), and guides the end of the spun yarn Y on the spinning device 7 side to the splicer 26.
  • the yarn hooking member 61 in the yarn pooling device 50 engages with the spun yarn Y on the spinning device 7 side and winds the spun yarn Y around the yarn pooling roller 51 with which the yarn hooking member 61 is integrally rotating. Consequently, almost no slack occurs in the spun yarn Y coming out of the spinning device 7, even if the winding by the winding device 12 is stopped.
  • the yarn pooling device 50 pools the spun yarn Y coming out of the spinning device 7, thereby preventing the spun yarn Y from slacking.
  • the unit controller 10 causes the yarn taking-off member 64 to move from the descent position to the ascent position where the yarn taking-off member 64 takes off the spun yarn Y from the yarn hooking member 61.
  • the unit controller 10 causes the yarn taking-off member 64 to move from the ascent position to the descent position. Consequently, the spun yarn Y on the spinning device 7 side is engaged by the yarn hooking member 61, and no unwinding of the spun yarn Y at the downstream of the yarn pooling roller 51 occurs.
  • the splicer 26 joins the end of the spun yarn Y on the winding device 12 side and the end of the spun yarn Y on the spinning device 7 side. Unnecessary yarn ends cut by the splicer 26 are removed by the suction pipe 27 and the suction mouth 28. Once the yarn joining operation by the splicer 26 is completed, the unit controller 10 causes the winding operation by the winding device 12 to restart.
  • the unit controller 10 causes the rotation of the yarn pooling roller 51 and the winding by the winding device 12 to be continued. Consequently, the cut end of the spun yarn Y is wound around the yarn pooling roller 51 and sways about on the base end section 52a side of the yarn pooling section 52. This end of the spun yarn Y is prevented from moving to the tip end section 52b side of the yarn pooling section 52 by the first regulating section 72 of the regulating member 71, and is subjected to the suction airflow produced by the suction vent 66a. Consequently, the fiber waste from the yarn end on the upstream side is removed by the suction mechanism 65 and is prevented from being scattered.
  • the unit controller 10 causes the yarn pooling roller 51 to stop positive rotation (rotation in the normal direction) and start reverse rotation.
  • the upstream end of the spun yarn Y wound around the yarn pooling roller 51 is prevented from moving to the tip end section 52b side of the yarn pooling section 52 by the second regulating section 73 of the regulating member 71. Consequently, as shown in FIG. 8 , the upstream yarn end is reliably held by suction by the suction vent 66a of the suction mechanism 65.
  • the downstream end of the spun yarn Y wound around the yarn pooling roller 51 is prevented from moving to the base end section 52a side of the yarn pooling section 52 by the third regulating section 74 of the regulating member 71. Therefore, the spun yarn Y wound around the yarn pooling roller 51 is smoothly unwound from the base end section 52a side of the yarn pooling section 52 and sucked in by the suction mechanism 65.
  • the unit controller 10 causes the yarn pooling roller 51 to stop the reverse rotation and start the positive rotation.
  • the unit controller 10 sends a control signal that specifies the spinning unit 2 in which the spun yarn Y has been cut to the yarn joining carrier 3. Consequently, the yarn joining carrier 3 moves to a position in front of the specified spinning unit 2, and performs the yarn joining operation.
  • the base-end side tapering section 53 of the yarn pooling roller 51 which widens from the base end section 52a on the winding start side of the yarn pooling section 52 towards the upstream side, has the following structure.
  • the base-end side tapering section 53 includes a first tapering section 58 and a second tapering section 59.
  • the first tapering section 58 widens from the base end section 52a of the yarn pooling section 52 towards the spinning device 7 side (that is, towards the spun yarn Y introducing side along a direction substantially parallel to the center line of the rotation of the yarn pooling roller 51) by a first inclination angle ⁇ 1.
  • the second tapering section 59 widens from the first tapering section 58 towards the spinning device 7 side by a second inclination angle ⁇ 2 that is smaller than the first inclination angle ⁇ 1.
  • the surface of the yarn pooling section 52 and the surface of the first tapering section 58 are continuously formed.
  • the surface of the first tapering section 58 and the surface of the second tapering section 59 are at the same level without a step. It is preferable that the first inclination angle ⁇ 1 be between 40 degrees and 80 degrees, or more preferably, between 50 degrees and 70 degrees. It is preferable that the second inclination angle ⁇ 2 be between 10 degrees and 35 degrees, or more preferably, between 15 degrees and 30 degrees.
  • the first inclination angle ⁇ 1 is an average of inclination of an intersection line (a straight line or a curve) defined by a plane including the center line of the rotation of the yarn pooling roller 51 and the surface of the first tapering section 58.
  • the second inclination angle ⁇ 2 is an average of inclination of an intersection line (a straight line or a curve) defined by the plane including the center line of the rotation of the yarn pooling roller 51 and the surface of the second tapering section 59.
  • the second tapering section 59 has a function of receiving the spun yarn Y that is guided to the yarn pooling roller 51, and a function of preventing, when the spun yarn Y is broken on the spinning device 7 side, the end of the spun yarn Y that sways around and becomes out of control on the base end section 52a of the yarn pooling section 52 from moving towards the tip end section 52b of the yarn pooling section 52.
  • the first tapering section 58 has a function of guiding the spun yarn Y received by the second tapering section 59 to the base end section 52a of the yarn pooling section 52.
  • the suction vent 66a of the suction mechanism 65 is arranged facing at least the second tapering section 59 (the base-end side tapering section 53 and the base end section 52a of the yarn pooling section 52 in this example).
  • the second tapering section 59 receives the spun yarn Y guided to the yarn pooling roller 51, and the first tapering section 58 guides the spun yarn Y received by the second tapering section 59 to the base end section 52a of the yarn pooling section 52. Because the second tapering section 59 has the second inclination angle ⁇ 2 that is smaller than the first inclination angle ⁇ 1, the second tapering section 59 can stably receive the spun yarn Y. Because the first tapering section 58 has the first inclination angle ⁇ 1 that is larger than the second inclination angle ⁇ 2, the first tapering section 58 can stably guide the spun yarn Y. Consequently, the spun yarn Y can be systematically wound around the yarn pooling roller 51.
  • the second tapering section 59 prevents the end of the spun yarn Y that sways around on the base end section 52a side of the yarn pooling section 52 from moving towards the tip end section 52b side of the yarn pooling section 52. Because the second tapering section 59 has the second inclination angle ⁇ 2 that is smaller than the first inclination angle ⁇ 1, the second tapering section 59 can reliably control movement of the yarn end of the spun yarn Y. Accordingly, the movement of the end of the spun yarn Y can be controlled when a breakage of the spun yarn Y occurs.
  • the yarn pooling device 50 can systematically wind the spun yarn Y around the yarn pooling roller 51 and also control the movement of the spun yarn Y when a breakage of the spun yarn Y occurs.
  • the suction vent 66a of the suction mechanism 65 is arranged facing the second tapering section 59.
  • the second tapering section 59 regulates the movement of the end of the spun yarn Y, which sways around on the base end section 52a side of the yarn pooling section 52, towards the tip end section 52b side of the yarn pooling section 52, and the swaying end of the spun yarn Y is fully subjected to the action of the suction airflow. Therefore, the fiber waste can be reliably removed from the end of the spun yarn Y.
  • the regulating component 77 is arranged on the spinning device 7 side with respect to the yarn pooling roller 51.
  • the regulating component 77 regulates the movement of the end of the spun yarn Y beyond the yarn pooling roller 51 towards the yarn hooking member 61 side when the spun yarn Y is broken on the spinning device 7 side.
  • Each of the spinning units 2 includes the yarn pooling device 50 that can systematically wind the spun yarn Y around the yarn pooling roller 51 and control the movement of the end of the spun yarn Y when a breakage of the spun yarn Y occurs. Consequently, the spinning units 2 can realize a smooth operation during the winding of the spun yarn Y, when the spun yarn Y is broken, and the like.
  • the spinning unit 2 includes the splicer 26 between the yarn pooling device 50 and the winding device 12 to join the ends of the cut spun yarn Y together (in the present embodiment, one splicer 26 is shared by a plurality of spinning units 2).
  • the yarn pooling device 50 smoothly performs the operation when the spun yarn Y is broken, and therefore the spinning unit 2 can reliably and efficiently join the ends of the cut spun yarn Y together.
  • the yarn supplying device that supplies the spun yarn Y includes the drafting device 6 and the spinning device 7.
  • the spinning device 7 is an air spinning device that twists the fiber bundle F using a swirling airflow to form the spun yarn Y. By using these devices, a high quality spun yarn Y can be effectively supplied.
  • the spinning machine 1 includes the spinning unit 2 that can realize a smooth operation during the winding of the spun yarn Y, when the spun yarn Y is broken, and the like. Therefore, the spinning machine 1 can efficiently produce a high quality package P.
  • the present invention is not limited to this embodiment alone.
  • the drafting device 6 and the spinning device 7 serve as the yarn supplying devices for supplying the spun yarn.
  • any other yarn supplying device such as, a yarn supplying device that supplies a spun yarn from a bobbin having the spun yarn wound thereon, can be used.
  • the spinning device is an air spinning device
  • a needle that is held by a fiber guiding section to project into the spinning chamber can be further provided to prevent the twisting of the fiber bundle to be conveyed upstream of the spinning device.
  • the twisting of the fiber bundle can be prevented from being conveyed upstream of the spinning device by a downstream end of a fiber guiding section instead of by the needle.
  • the spinning device can include a pair of air-jet nozzles that produce airflows in mutually opposite directions, and can thus spin the fiber bundle in opposite directions at the same time.
  • the yarn pooling device 50 has a function of drawing the spun yarn Y from the spinning device 7.
  • the spun yarn can be drawn from a yarn supplying device that supplies the spun yarn by a delivery roller and a nip roller.
  • the spun yarn Y is broken by a stoppage of the swirling airflow in the spinning device 7 during the yarn-defect detection operation.
  • the spun yarn can be cut by a cutter during the yarn-defect detection operation.
  • the devices are arranged so that the spun yarn Y supplied from above is wound below.
  • the devices can be arranged so that the spun yarn supplied from below is wound above.
  • the bottom rollers of the drafting device 6 and a traverse mechanism of the traverse device 23 are driven by the power of the motor box 5 (that is, concurrently driven in a plurality of the spinning units 2).
  • each section (for example, the drafting device, the spinning device, the winding device, etc.) of the spinning unit can be driven independently in each spinning unit 2.
  • the tension sensor 9 can be arranged at the upstream of the yarn clearer 8 in the running direction of the spun yarn Y.
  • a common unit controller 10 can be provided for a plurality of the spinning units 2 instead of one unit controller 10 per spinning unit 2.
  • the waxing device 11, the tension sensor 9, and the yarn clearer 8 need not be provided in the spinning unit 2.
  • the winding device 12 can be driven by a common drive source provided for a plurality of the spinning units 2 instead of by a separate driving motor provided for each spinning unit 2. In this case, during the reverse rotation of the package P, the cradle arm 21 is moved by a not shown air cylinder so that the package P is separated from the winding drum 22, and thereafter the package P is reverse-rotated by a not shown reverse roller provided in the yarn joining carrier 3.
  • the yarn clearer 8, the tension sensor 9, the yarn pooling device 50, and the waxing device 11 can be individually mounted on the frame 13 directly or indirectly.
  • a yarn pooling device is arranged between a yarn supplying device that supplies the spun yarn and a winding device that winds the spun yarn to form a package, and pools a spun yarn.
  • the yarn pooling device includes a yarn pooling roller around which the spun yarn is wound.
  • the yarn pooling roller includes a yarn pooling section around which the yarn is wound, a first tapering section that widens from a base end section on the winding start side of the yarn pooling section towards the yarn supplying device by a first inclination angle, and a second tapering section that widens from the first tapering section towards the yarn supplying device by a second inclination angle that is smaller than the first inclination angle.
  • the second tapering section has a function of receiving the spun yarn that is guided to the yarn pooling roller, and a function of preventing, when the yarn is broken on the yarn supplying device side, the end of the spun yarn that sways around on the base end section side from moving towards the tip end section side of the yarn pooling section.
  • the first tapering section has a function of guiding the spun yarn received by the second tapering section to the base end section.
  • the second tapering section receives the spun yarn guided to the yarn pooling roller, and the first tapering section guides the spun yarn received by the second tapering section to the base end section of the yarn pooling section. Because the second tapering section has the second inclination angle that is smaller than the first inclination angle, the spun yarn can be stably received by the second tapering section. Because the first tapering section has the first inclination angle that is larger than the second inclination angle, the spun yarn can be stably guided by the first tapering section. Therefore, the spun yarn can be wound systematically around the yarn pooling roller.
  • the second tapering section prevents the end of the spun yarn that sways around on the base end section side of the yarn pooling section from moving towards the tip end section side of the yarn pooling section. Because the second tapering section has the second inclination angle that is smaller than the first inclination angle, the yarn end can be reliably prevented from moving by the second tapering section. Consequently, the movement of the end of the spun yarn when a breakage of the spun yarn occurs can be controlled. With this yarn pooling device, the spun yarn can be wound systematically around the yarn pooling roller, and the movement of the end of the spun yarn when a breakage of the spun yarn occurs can be controlled.
  • the yarn pooling device can further include a suction mechanism that produces a suction airflow at a suction vent that is arranged facing at least the second tapering section. While the second tapering section is preventing the end of the spun yarn swaying around on the base end section side of the yarn pooling section from moving towards the tip end section side of the yarn pooling section, the swaying end of the spun yarn can be fully subjected to the action of the suction airflow. Therefore, fiber waste produced from the end of the spun yarn can be reliably removed.
  • the yarn pooling device can further include a yarn hooking member and a regulating component.
  • the yarn hooking member is arranged on the winding device side with respect to the yarn pooling roller.
  • the yarn hooking member hooks the spun yarn and winds the hooked spun yarn around the yarn pooling roller.
  • the regulating component is arranged on the yarn supplying device side with respect to the yarn pooling roller. When the spun yarn is broken on the yarn supplying device side, the regulating component regulates the end of the spun yarn from moving beyond the yarn pooling roller towards the yarn hooking member side. When the spun yarn is broken on the yarn supplying device side, the end of the spun yarn can be regulated from moving beyond the yarn pooling roller towards the yarn hooking member side, and the end of the spun yarn is prevented from being entangled with the yarn hooking member.
  • the spinning unit according to the present invention includes the above yarn pooling device, the yarn supplying device that supplies the spun yarn that is guided to the yarn pooling device, and the winding device that winds the spun yarn guided from the yarn pooling device to form a package.
  • the spinning unit includes the yarn pooling device that can systematically wind the spun yarn around the yarn pooling roller and control the movement of the end of the spun yarn when the spun yarn is broken.
  • the spinning unit can therefore realize a smooth operation during the winding of the spun yarn, at a breakage of the spun yarn, and the like.
  • the spinning unit can further include a yarn joining device that is arranged between the yarn pooling device and the winding device, and that joins ends of the cut spun yarn.
  • a yarn joining device that is arranged between the yarn pooling device and the winding device, and that joins ends of the cut spun yarn.
  • the yarn supplying device includes a drafting device that drafts a fiber bundle and a spinning device that twists the fiber bundle to form the spun yarn.
  • a high quality spun yarn can be efficiently supplied.
  • the spinning device be an air spinning device that twists the fiber bundle using a swirling airflow to form the spun yarn.
  • a further higher quality spun yarn can be efficiently supplied.
  • the spinning machine according to the present invention includes a plurality of the above spinning units. Because the spinning machine includes the spinning units that can realize smooth operations during the winding of the spun yarn, when the spun yarn is broken, and the like, such a spinning machine can efficiently produce high quality packages.

Landscapes

  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
  • Forwarding And Storing Of Filamentary Material (AREA)
EP12184653.9A 2011-09-20 2012-09-17 Unité de filage avec un dispositif de stockage de fil, et fileuse Active EP2573019B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2011205330A JP2013067447A (ja) 2011-09-20 2011-09-20 糸貯留装置、紡績ユニット及び紡績機

Publications (3)

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EP2573019A2 true EP2573019A2 (fr) 2013-03-27
EP2573019A3 EP2573019A3 (fr) 2014-07-23
EP2573019B1 EP2573019B1 (fr) 2017-01-18

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JP (1) JP2013067447A (fr)
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Cited By (1)

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EP2565307A3 (fr) * 2011-08-31 2015-05-13 Murata Machinery, Ltd. Fileuse

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JP2016023391A (ja) * 2014-07-24 2016-02-08 村田機械株式会社 紡績機及び紡績方法
JP2017065898A (ja) * 2015-09-30 2017-04-06 村田機械株式会社 糸掛け部材、糸貯留装置、及び糸巻取機
JP2017071870A (ja) * 2015-10-06 2017-04-13 村田機械株式会社 ドラフト装置、紡績機及び紡績方法

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JP2010089908A (ja) 2008-10-08 2010-04-22 Murata Machinery Ltd 糸弛み取り装置及びこれを備える繊維機械
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EP2565307A3 (fr) * 2011-08-31 2015-05-13 Murata Machinery, Ltd. Fileuse
EP3269852A1 (fr) * 2011-08-31 2018-01-17 Murata Machinery, Ltd. Métier à filer

Also Published As

Publication number Publication date
EP2573019A3 (fr) 2014-07-23
CN103014957A (zh) 2013-04-03
CN103014957B (zh) 2016-11-02
EP2573019B1 (fr) 2017-01-18
JP2013067447A (ja) 2013-04-18

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