EP2186765A2 - Enrouleur récepteur - Google Patents

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Publication number
EP2186765A2
EP2186765A2 EP09013809A EP09013809A EP2186765A2 EP 2186765 A2 EP2186765 A2 EP 2186765A2 EP 09013809 A EP09013809 A EP 09013809A EP 09013809 A EP09013809 A EP 09013809A EP 2186765 A2 EP2186765 A2 EP 2186765A2
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EP
European Patent Office
Prior art keywords
yarn
feeding roller
take
group
yarn feeding
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
EP09013809A
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German (de)
English (en)
Other versions
EP2186765A3 (fr
EP2186765B1 (fr
Inventor
Osamu Nakagawa
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.)
TMT Machinery Inc
Original Assignee
TMT Machinery Inc
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Filing date
Publication date
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Publication of EP2186765A2 publication Critical patent/EP2186765A2/fr
Publication of EP2186765A3 publication Critical patent/EP2186765A3/fr
Application granted granted Critical
Publication of EP2186765B1 publication Critical patent/EP2186765B1/fr
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
    • B65H51/00Forwarding filamentary material
    • B65H51/015Gathering a plurality of forwarding filamentary materials into a bundle
    • 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
    • B65H51/02Rotary devices, e.g. with helical forwarding surfaces
    • B65H51/04Rollers, pulleys, capstans, or intermeshing rotary elements
    • B65H51/08Rollers, pulleys, capstans, or intermeshing rotary elements arranged to operate in groups or in co-operation with other elements
    • B65H51/12Rollers, pulleys, capstans, or intermeshing rotary elements arranged to operate in groups or in co-operation with other elements in spaced relation to provide a series of independent forwarding surfaces around which material is passed or wound
    • 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
    • B65H54/10Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers
    • B65H54/20Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers for making packages of specified shapes or on specified types of bobbins, tubes, cores, or formers forming multiple 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
    • B65H54/28Traversing devices; Package-shaping arrangements
    • B65H54/2881Traversing devices with a plurality of guides for winding on a plurality of bobbins
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H71/00Moistening, sizing, oiling, waxing, colouring or drying filamentary material as additional measures during package formation
    • B65H71/007Oiling, waxing by applying liquid during spooling
    • 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
    • B65H2701/313Synthetic polymer threads
    • B65H2701/3132Synthetic polymer threads extruded from spinnerets

Definitions

  • the present invention relates to a take-up winding facility in which a winding machine winds a plurality of filament yarns (hereinafter simply referred to as yarns) spun out by a spinning machine, via a plurality of rollers.
  • one yarn feeding roller is located immediately before each take-up winding machine so that all of a plurality of yarns spun out by a spinning machine are guided from the yarn feeding roller to a plurality of bobbins installed in the take-up winding machine (see the Unexamined Japanese Patent Application Publication (Tokkai) No. 2003-285972 ).
  • two yarn feeding rollers are located immediately before each take-up winding machine so that a plurality of yarns spun out by a spinning machine are divisionally guided from the yarn feeding rollers to bobbins installed in the take-up winding machine and the number of which is the same as that of the plurality of yarns (see PCT National Publication No. 2005-534825 ).
  • the distance from the take-up winding machine to the yarn feeding roller located immediately before the take-up winding machine has to be increased in order to set the angle between the yarn path from the yarn feeding roller to the bobbin and the vertical direction to at most the predetermined value.
  • the height of the take-up winding device increases, resulting in a larger take-up winding facility. This disadvantageously increases building costs, degrades the operability of, for example, hooking of yarns on the rollers, and increases costs for air conditioning in the building.
  • the plurality of spun yarns are divisionally guided from the yarn feeding rollers to the bobbins in one take-up winding machine.
  • the angle between the yarn path from the yarn feeding roller to the bobbin and the vertical direction can be set to at most the predetermined value. This eliminates the need to increase the distance from the take-up winding machine to the yarn feeding roller located immediately before the take-up winding machine, thus enabling the take-up winding facility itself to be miniaturized.
  • a separate yarn feeding roller needs to be provided which withdraws the yarns spun out by the spinning machine.
  • the take-up winding device may be complicated.
  • An object of the present invention is to reduce the height of the take-up winding device to miniaturize the take-up winding facility itself, providing a simplified take-up winding facility.
  • a first invention provides a take-up winding facility feeding a plurality of yarns spun out by a spinning machine, from above to below to simultaneously wind the plurality of yarns around respective plural bobbins installed on a bobbin holder shaft in one take-up winding machine, wherein a plurality of yarn feeding rollers are arranged above the take-up winding machine, and one of the plurality of yarn feeding rollers takes off and winds all of the plurality of yarns around the respective bobbins via the yarn feeding roller and other yarn feeding rollers.
  • a second invention corresponds to the first invention wherein the plurality of yarn feeding rollers include at least a first yarn feeding roller and a second yarn feeding roller arranged at a distance from each other in an axial direction of the bobbin holder shaft to feed a first yarn group and a second yarn group including all or a part of the plurality of yarns, to the take-up winding machine, wherein the first yarn feeding roller rotates so as to take off the first yarn group and the second yarn group from the spinning machine to feed out the first yarn group and the second yarn group to the second yarn feeding roller and to take off the second yarn group fed out from the second yarn feeding roller to feed out the second yarn group to the take-up winding machine, wherein the second yarn feeding roller rotates so as to take off the first yarn group and the second yarn group fed out from the first yarn feeding roller to feed out the second yarn group included in the taken-off first yarn group and second yarn group to the first yarn feeding roller, while feeding out the first yarn group to the take-up winding machine, and wherein the take-up winding machine
  • a third invention corresponds to the first invention wherein the plurality of yarn feeding rollers include at least a first yarn feeding roller and a second yarn feeding roller arranged at a distance from each other in an axial direction of the bobbin holder shaft to feed a first yarn group and a second yarn group comprising all or a part of the plurality of yarns, to the take-up winding machine, wherein the first yarn feeding roller rotates so as to take off the first yarn group and the second yarn group from the spinning machine to feed out the second yarn group to the second yarn feeding roller and to take off the first yarn group and the second yarn group fed out from the second yarn feeding roller to feed out the second yarn group to the second yarn feeding roller, while feeding out the first yarn group to the take-up winding machine, wherein the second yarn feeding roller rotates so as to take off the first yarn group and the second yarn group fed out from the first yarn feeding roller to feed out the first yarn group and the second yarn group to the first yarn feeding roller and to take off the second yarn group fed out from the first yarn feeding roller to feed out the
  • a fourth invention corresponds to the first invention wherein the plurality of yarn feeding rollers include at least a first yarn feeding roller and a second yarn feeding roller arranged at a distance from each other in an axial direction of the bobbin holder shaft to feed a first yarn group and a second yarn group comprising all or a part of the plurality of yarns, to the take-up winding machine, wherein the first yarn feeding roller rotates so as to take off the first yarn group and the second yarn group from the spinning machine to feed out the first yarn group and the second yarn group to the second yarn feeding roller and to, after performing one or more operations of taking off and feeding out the first yarn group and the second yarn group between the first yarn feeding roller and the second yarn feeding roller, take off the second yarn group fed out from the second yarn feeding roller to feed out the second yarn group to the take-up winding machine, wherein the second yarn feeding roller rotates so as to, after performing one or more operations of taking off and feeding out the first yarn group and the second yarn group between the first yarn feeding roller and the second yarn feeding roller, feed
  • a fifth invention corresponds to the first invention wherein the plurality of yarn feeding rollers include at least a first yarn feeding roller and a second yarn feeding roller arranged at a distance from each other in an axial direction of the bobbin holder shaft to feed a first yarn group and a second yarn group comprising all or a part of the plurality of yarns, to the take-up winding machine, wherein the first yarn feeding roller rotates so as to take off the first yarn group and the second yarn group from the spinning machine to feed out the first yarn group and the second yarn group to the second yarn feeding roller and to, after performing a plurality of operations of taking off and feeding out the first yarn group and the second yarn group between the first yarn feeding roller and the second yarn feeding roller, take off the first yarn group and the second yarn group fed out from the second yarn feeding roller to feed out the second yarn group to the second yarn feeding roller, while feeding out the first yarn group to the take-up winding machine, wherein the second yarn feeding roller rotates so as to, after performing a plurality of operations of taking off and feeding out
  • a sixth invention corresponds to the take-up winding facility according to any one of the second to fifth inventions wherein each of the first yarn feeding roller and the second yarn feeding roller has areas formed thereon and corresponding to yarn contact portions each brought into contact with at least one of the first yarn group and the second yarn group, the yarn contact portions exhibiting different friction coefficients.
  • a seventh invention corresponds to the take-up winding facility according to any one of the second to sixth inventions, wherein each of the first yarn feeding roller and the second yarn feeding roller has areas formed thereon and corresponding to yarn contact portions each brought into contact with at least one of the first yarn group and the second yarn group, the yarn contact portions having different roller diameters.
  • An eighth invention corresponds to the take-up winding facility according to any one of the second to seventh inventions, wherein an interlace is located between the first yarn feeding roller and the second yarn feeding roller.
  • a ninth invention corresponds to the take-up winding facility according to any one of the second to seventh inventions, wherein an interlace is located between the first yarn feeding roller and the take-up winding machine, and between the second yarn feeding roller and the take-up winding machine.
  • a tenth invention corresponds to the take-up winding facility according to any one of the first to ninth inventions, wherein a yarn hooking assisting guide is provided close to each of the first yarn feeding roller and the second yarn feeding roller so that during yarn hooking, the yarns are temporarily placed on the yarn hooking assisting guide.
  • An eleventh invention corresponds to the take-up winding facility according to any one of the first to tenth inventions, wherein an oiling device is provided below a spin-out section of the spinning machine to apply lubricant to the yarns.
  • a twelfth invention corresponds to the take-up winding facility according to the eleventh invention, wherein a migration nozzle is provided below the spin-out section of the spinning machine to uniformly attach the lubricant applied by the oiling device, to the yarns.
  • a thirteenth invention corresponds to the take-up winding facility according to any one of the first to twelfth inventions, wherein a shutter is provided below the spin-out section of the spinning machine so that when any yarn is broken, the yarn is prevented from falling.
  • a fourteenth invention corresponds to the take-up winding facility according to any one of the first to thirteenth inventions, wherein a common inverter is used to drive the yarn feeding rollers.
  • the present invention exerts the following effects.
  • the yarns are fed from the yarn feeding rollers arranged at the positions appropriate to the bobbins installed in the take-up winding machine.
  • the angle between a yarn path from the yarn feeding roller to the bobbin and the vertical direction can be set to at most a predetermined value. Consequently, appropriate yarn quality can be ensured, and yarn winding can be stably carried out.
  • the angle between the yarn path from the yarn feeding roller to the bobbin and the vertical direction can be set to at most the predetermined value. This ensures appropriate yarn quality, and eliminates the need to increase the distance from the take-up winding machine to the yarn feeding roller located immediately before the take-up winding machine.
  • take-up winding device height can be reduced, resulting in a smaller take-up winding facility.
  • the second invention can therefore reduce building costs, improve the operability of yarn hooking and the like, and reduce costs for air conditioning in the building.
  • a separate yarn feeding roller need not be provided which takes off the yarns spun out by the spinning machine. Consequently, the structure of the take-up winding facility can be simplified.
  • the angle between the yarn path from the yarn feeding roller to the bobbin and the vertical direction can be set to at most the predetermined value.
  • tension applied to the yarns between the yarn feeding rollers is optimized, ensuring appropriate yarn quality and enabling stable yarn winding.
  • This configuration further eliminates the need to increase the distance from the take-up winding machine to the yarn feeding roller located immediately before the take-up winding machine. Consequently, the take-up winding device height can be reduced, resulting in a smaller take-up facility.
  • the third invention can therefore reduce building costs, improve the operability of yarn hooking and the like, and reduce costs for air conditioning in the building. Furthermore, a separate yarn feeding roller need not be provided which takes off the yarns spun out by the spinning machine. Consequently, the structure of the take-up winding facility can be simplified.
  • the angle between the yarn path from the yarn feeding roller to the bobbin and the vertical direction can be set to at most the predetermined value.
  • the tension applied to the yarns between the yarn feeding rollers is optimized, ensuring the appropriate yarn quality and enabling stable yarn winding.
  • This configuration further eliminates the need to increase the distance from the take-up winding machine to the yarn feeding roller located immediately before the take-up winding machine. Consequently, the take-up winding device height can be reduced, resulting in a smaller take-up winding facility.
  • the fourth invention can therefore reduce building costs, improve the operability of yarn hooking and the like, and reduce costs for air conditioning in the building. Furthermore, a separate yarn feeding roller need not be provided which takes off the yarns spun out by the spinning machine. Consequently, the structure of the take-up winding facility can be simplified.
  • the angle between the yarn path from the yarn feeding roller to the bobbin and the vertical direction can be set to at most the predetermined value.
  • the tension applied to the yarns between the yarn feeding rollers is optimized, ensuring the appropriate yarn quality and enabling stable yarn winding.
  • This configuration further eliminates the need to increase the distance from the take-up winding machine to the yarn feeding roller located immediately before the take-up winding machine. Consequently, the take-up winding device height can be reduced, resulting in a smaller take-up winding facility.
  • the fifth invention can therefore reduce building costs, improve the operability of yarn hooking and the like, and reduce costs for air conditioning in the building. Furthermore, a separate yarn feeding roller need not be provided which takes off the yarns spun out by the spinning machine. Consequently, the structure of the take-up winding facility can be simplified.
  • the friction coefficient varies among the yarn contact portions of each of the yarn feeding rollers brought into contact with the yarn group.
  • the tension applied to the yarns is optimized, ensuring the appropriate yarn quality and enabling stable yarn winding.
  • the roller diameter varies among the yarn contact portions of each of the yarn feeding rollers brought into contact with the yarn group.
  • peripheral speed varies among the yarn contact portions. Consequently, the tension applied to the yarns is optimized, ensuring the appropriate yarn quality and enabling stable yarn winding.
  • the interlace located between the yarn feeding rollers allows the yarn path to be fixed.
  • the yarns can be stably wound.
  • the interlace located between each of the yarn feeding rollers and the take-up winding machine allows the yarn path to be fixed.
  • the yarns can be stably wound.
  • the yarns before hooked on each of the yarn feeding rollers, the yarns can be temporarily held. Thus, the yarn hooking operation is facilitated.
  • the vicinity of the take-up winding machine can be simplified.
  • the yarn hooking operation is facilitated.
  • the vicinity of the take-up winding machine can be simplified.
  • the yarn hooking operation is facilitated.
  • the vicinity of the take-up winding machine can be simplified. This prevents a broken yarn from getting entangled with other yarns, the take-up winding machine, or the like.
  • the yarn feeding rollers can be easily controlled. This enables a reduction in the number of parts required and thus in costs.
  • Other features, elements, processes, steps, characteristics and advantages of the present invention will become more apparent from the following detailed description of preferred embodiments of the present invention with reference to the attached drawings.
  • Figure 1A is a front view of the take-up winding facility 100.
  • Figure 1B is a side view of the take-up winding facility 100.
  • the direction in which gravity acts is defined as the vertical direction.
  • the axial direction of a bobbin holder shaft 23 provided in a take-up winding machine 21 is defined as a front-back direction.
  • a side of the bobbin holder shaft 23 coupled to a driving device 26 is defined as a back side.
  • the other side of the bobbin holder shaft 23 is defined as a front side.
  • a direction orthogonal to the vertical direction and the front-back direction is defined as a lateral direction.
  • the take-up winding facility 100 is composed mainly of a spinning machine 10 spinning a plurality of yarns 1 and a take-up winding device 20 winding the yarns 1 spun out by the spinning machine 10.
  • the spinning machine 10 feeds an introduced synthetic yarn material to a spin-out section 11 via an extruder (not shown in the drawings) and a prefilter (not shown in the drawings).
  • a spinning head 12 included in the spin-out section 11 spins out and feeds a plurality of yarns 1 to a take-up winding device 20.
  • the take-up winding device 20 is composed mainly of the take-up winding machine 21 winding the plurality of yarns 1, a first yarn feeding roller 31, and a second yarn feeding roller 32.
  • the take-up winding machine 21 includes a bobbin holder shaft 23 on which a plurality of bobbins 22 are installed, a contact roller rotating in contact with packages 24 formed on the respective bobbins 22, a traverse device 25 traversing the yarns 1 wound around the respective bobbins 22, and the driving device 26 driving the bobbin holder shaft 23 and the traverse device 25.
  • the yarn feeding rollers 31, 32 are arranged above the take-up winding machine 21 at a distance from each other in the axial direction of the bobbin holder shaft 23.
  • the yarn feeding rollers 31, 32 feed out a first yarn group 1a and a second yarn group 1b forming the plurality of yarns 1 spun out by the spinning head 12, to the take-up winding machine 21.
  • each of the spinning machine 10 and the take-up winding machine 20 will be described along the direction in which the yarns 1 are fed.
  • the spinning machine 10 is located above the take-up winding device 20.
  • An oiling device 40, a migration nozzle 50, and a shutter 60 are provided below the spin-out section 11 included in the spinning machine 10.
  • the oiling device 40 supplies the yarns 1 with lubricant, which reduces friction with guides and the like to prevent possible charging and provide the yarns 1 with flexibility and the like.
  • the migration nozzle 50 appropriately disturbs the flow of the yarns 1 in order to uniformly migrate the lubricant applied to the yarns 1 by the oiling device 40.
  • the shutter 60 is moved to prevent any broken yarn 1 from falling.
  • the shutter 60 may push the broken yarn away to an admission port formed close to the shutter 60 for removal or the opening of the shutter may be adjusted according to a variation in outside air temperature to control the temperature of the spin-out section 11.
  • the arrangement of the oiling device 40, the migration nozzle 50, and the shutter 60 along the feeding direction of the yarns I is not limited to this order. For functional reasons, it is only necessary that the migration nozzle 50 is located after the oiling device 40. Furthermore, not all of the oiling device 40, the migration nozzle 50, and the shutter 60 are provided below the spin-out section 11. For example, with only the shutter 60 located below the spin-out section 11, the remaining oiling device 40 and migration nozzle 50 may be arranged immediately before the first yarn feeding roller 31.
  • the first yarn group 1a is composed of a predetermined number of yarns 1 included in the plurality of yarns 1 spun out by the spinning head 12, and the second yarn group 1b is composed of the remaining yarns 1.
  • the first yarn group 1a and the second yarn group 1b are arranged in a line in the lateral direction (see Figures 1 and 4 ).
  • the arrangement of the yarn groups depends on the shape and arrangement of the spinning head 12 (spin-out section 11).
  • the first yarn group 1a and the second yarn group 1b are taken off by the first yarn feeding roller 31.
  • first yarn group 1a and the second group 1b are spun out by the spinning head 12 (spin-out section 11) and then guided in a line in the lateral direction and along the rotating direction of the first yarn feeding roller 31 with the distances between the yarns 1 gradually reduced (see Figures 3 and 4 ).
  • the first yarn feeding roller 31 and the second yarn feeding roller 32 are provided such that the axes thereof are arranged parallel or perpendicular to each other or inclined in a direction corresponding to the synthesis of the parallel direction and the perpendicular direction.
  • the first yarn feeding roller 31 is provided perpendicularly to the bobbin holder shaft 23 and in the horizontal direction.
  • the second yarn feeding roller 32 is located behind the first yarn feeding roller 31 so that the right end side thereof is inclined slightly upward from the horizontal direction.
  • each of the yarns 1 is shifted toward the right end side of each of the yarn feeding rollers 31, 32 during each of a plurality of operations in which the first yarn feeding roller 31 receives and feeds out the yarn to the second yarn feeding roller 32, so that the yarn avoids passing through the same yarn path.
  • first yarn feeding roller 31 and the second yarn feeding roller 32 rotate in the opposite directions.
  • the first yarn feeding roller 31 rotates counterclockwise as viewed in a right side view.
  • the second yarn feeding roller 32 rotates clockwise as viewed in a right side view.
  • a common inverter is used to supply power to driving motor units 35, 36 driving the yarn feeding rollers 31, 32, respectively.
  • the yarn feeding rollers 31, 32 rotate at the same rotation speed.
  • Figures 5 , 6 , 7 , and 8 focus on the yarn feeding rollers 31, 32 and the yarn groups 1a, 1b in the first, second, third, and fourth embodiments.
  • the first yarn group 1a and the second yarn group 1b each composed of a plurality of the yarns 1 spun put by the spinning head 12 first travel around substantially a quarter of the circumference of the left end side (driving motor unit 35 side) of the first yarn feeding roller 31 along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in the figure).
  • the first yarn group 1a and the second yarn group 1b are then fed out to the second yarn feeding roller 32.
  • the first yarn group 1a is fed out to the bobbins 22 in the take-up winding machine 21 via interlaces 70 described below, along the rotating direction of the second yarn feeding roller 32 (the clockwise direction in the figure).
  • the second yarn group 1b travels around substantially a half of the circumference of the second yarn feeding roller 32 along the rotating direction of the second yarn feeding roller 32 (the clockwise direction in the figure).
  • the second yarn group 1b is then fed out along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in the figure).
  • the second yarn group 1b is then fed out from the first yarn feeding roller 31 to the bobbins 22 in the take-up winding machine 21 via the interlaces 70 described below.
  • the first yarn group 1a and the second yarn group 1b first travel around substantially a quarter of the circumference of the left end side (driving motor unit 35 side) of the first yarn feeding roller 31 along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in the figure).
  • the first yarn group 1a and the second yarn group 1b are then fed out to the second yarn feeding roller 32.
  • the first yarn group 1a and the second yarn group 1b then travel around substantially a half of the circumference of the second yarn feeding roller 32 along the rotating direction of the second yarn feeding roller 32 (the clockwise direction in the figure).
  • the first yarn group 1a and the second yarn group 1b are then fed out along the rotating direction of the first yarn feeding roller 31 again.
  • the first yarn group 1a is fed out to the bobbins 22 in the take-up winding machine 21 via the interlaces 70 described below, along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in the figure).
  • the second yarn group 1b travels around substantially a half of the circumference of the first yarn feeding roller 31 along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in the figure).
  • the second yarn group 1b is then fed out along the rotating direction of the second yarn feeding roller 32 (the clockwise direction in the figure) again.
  • the second yarn group is fed out from the second yarn feeding roller 32 to the bobbins 22 in the take-up winding machine 21 via the interlaces 70 described below.
  • the first yarn group 1a and the second yarn group 1b first travel around substantially a quarter of the circumference of the left end side (driving motor unit 35 side) of the first yarn feeding roller 31 along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in Figure 5 ).
  • the first yarn group 1a and the second yarn group 1b are then fed out to the second yarn feeding roller 32.
  • the first yarn group 1a and the second yarn group 1b then travel around substantially a half of the circumference of the second yarn feeding roller 32 along the rotating direction of the second yarn feeding roller 32 (the clockwise direction in the figure).
  • the first yarn group 1a and the second yarn group 1b are then fed out along the rotating direction of the first yarn feeding roller 31 again.
  • first yarn group 1a is fed out to the bobbins 22 in the take-up winding machine 21 via the interlaces 70 described below, along the rotating direction of the second yarn feeding roller 32 (the clockwise direction in the figure).
  • the second yarn group is fed out from the first yarn feeding roller 31 to the bobbins 22 in the take-up winding machine 21 via the interlaces 70 described below.
  • the first yarn group 1a and the second yarn group 1b first travel around substantially a quarter of the circumference of the left end side (driving motor unit 35 side) of the first yarn feeding roller 31 along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in the figure).
  • the first yarn group 1a and the second yarn group 1b are then fed out to the second yarn feeding roller 32.
  • the first yarn group 1a and the second yarn group 1b then travel around substantially a half of the circumference of the second yarn feeding roller 32 along the rotating direction of the second yarn feeding roller 32 (the clockwise direction in the figure).
  • the first yarn group 1a and the second yarn group 1b are then fed out along the rotating direction of the first yarn feeding roller 31 again.
  • first yarn group 1a is fed out to the bobbins 22 in the take-up winding machine 21 via the interlaces 70 described below, along the rotating direction of the first yarn feeding roller 31 (the counterclockwise direction in figure).
  • the second yarn group is fed out from the second yarn feeding roller 32 to the bobbins 22 in the take-up winding machine 21 via the interlaces 70 described below.
  • the yarns 1 are prevented from interfering with one another by means of the inclined second yarn feeding roller 32 as described above. That is, the yarns 1 fed from the spinning head 12 to the left end side (driving motor unit 35 side) of the first yarn feeding roller 31 shifts naturally toward the right end side (the right side of the figure) every time a taking-off and feeding out operation is performed. This prevents the yarns 1 from interfering with one another.
  • the total number of times that the first yarn group 1a comes into contact with the yarn feeding rollers 31, 32 is two; the first yarn group 1a comes into contact with each of the yarn feeding rollers 31, 32 once.
  • the total number of times that the second yarn group 1b comes into contact with the yarn feeding rollers 31, 32 is three; the first yarn group 1a comes into contact with the first yarn feeding roller 31 twice and with the second yarn feeding roller 32 once.
  • the ratio of the number of times the first yarn group 1a comes into contact with the yarn feeding rollers 31, 32 to the number of times the second yarn group 1b comes into contact with the yarn feeding rollers 31, 32 is 2:3.
  • the ratio of the number of times the first yarn group 1a comes into contact with the yarn feeding rollers 31, 32 to the number of times the second yarn group 1b comes into contact with the yarn feeding rollers 31, 32 is at least 5:6. That is, an increase in the number of times the yarns are passed around the yarn feeding rollers 31, 32 reduces the rate of the difference in the number of contacts between the first yarn group 1a and the second yarn group 1b. This enables a reduction in variations in yarn quality.
  • the interlaces 70 are arranged between both the yarn feeding rollers 31, 32 and the take-up winding machine 21 in the vertical direction.
  • Each of the yarns 1 is provided in the yarn path extending from the corresponding yarn feeding roller 31, 32 to the corresponding bobbin 22.
  • Each of the interlaces 70 uses a liquid ejecting nozzle to entangle yarns forming the yarn 1 with one another so as to converge the yarns.
  • the interlace 70 thus inhibits the yarns from being spread or separated from one another.
  • Processing with the interlaces 70 is carried out after the yarn 1 is tensed.
  • the yarn 1 instead of being provided in the yarn path extending from the corresponding yarn feeding roller 31, 32 to the corresponding bobbin 22, the yarn 1 can be provided in a yarn path extending from the first yarn feeding roller 31 to the second yarn feeding roller 32 or a yarn path extending from the second yarn feeding roller 32 to the first yarn feeding roller 31.
  • the reason for the availability of these yarn paths is as follows.
  • the yarns 1 can be tensed during earlier ones of the plurality of operations of taking off and feeding out the yarns 1 between the spinning head 12 and the first yarn feeding roller 31 and between the yarn feeding rollers 31 and 32.
  • the processing with the interlaces 70 can be carried out without posing any problem.
  • the interlaces 70 can be utilized as yarn path guides.
  • the yarn paths are thus fixed to enable the yarns 1 to be stably wound.
  • the take-up winding machine 21 is located below the yarn feeding rollers 31, 32.
  • the take-up winding machine 21 uses the driving device 26 to rotate the bobbin holder shaft 23 on which the bobbins 22 are installed, to wind the yarns 1.
  • a plurality of the bobbins 22 are installed on the bobbin holder shaft 23.
  • each of the yarns 1 is traversed by a traverse support point guide 25a included in the traverse device 25, as described above. The yarn 1 is thus wound without being biased.
  • the angle A (see Figure 3 ) between the vertical direction and the yarn path of the outermost yarn 1 fed out from each of the yarn feeding rollers 31, 32 can be maintained at, for example, at most 20 degrees. This eliminates the need to increase the distance from the take-up winding machine to the yarn feeding roller located immediately before the take-up winding machine.
  • the take-up winding facility itself can thus be miniaturized.
  • this configuration enables a reduction in building costs, improvement of the operability of yarn hooking and the like, and a reduction in costs for air conditioning in the building. Furthermore, the present embodiment requires only two yarn feeding rollers, allowing the structure of the take-up winding facility to be simplified. This results in a cost reduction and the improved operability of yarn hooking and the like.
  • the first yarn feeding roller 31 is subjected to surface treatment such that the first yarn feeding roller 31 includes yarn contact portions 31a, 31b, ... each brought into contact with at least one of the first yarn group 1a and the second yarn group 1b.
  • the second yarn feeding roller 32 is subjected to surface treatment such that the second yarn feeding roller 32 includes yarn contact portions 32a, 32b, ... each brought into contact with at least one of the first yarn group 1a and the second yarn group 1b.
  • Figure 9A is a plan view focusing on the yarn feeding rollers 31, 32 and the yarns 1.
  • Figure 9B is a side view of the yarn feeding rollers 31, 32 and the yarns 1.
  • the surface treatment of the yarn contact portions 31a, ... of the first yarn feeding roller 31 and the yarn contact portions 32a, ... of the second yarn feeding roller 32 is normally a chromium plating treatment or formation of a ceramic film.
  • the present invention does not limit the treatment method. Any treatment method may be used provided that the method allows the yarn contact portions of each of the yarn feeding rollers 31, 32 to have different friction coefficients. Consequently, the appropriate treatment can also be achieved by varying a polishing process or a polishing duration.
  • the take-up winding facility according to the present invention has no withdraw roller as provided in conventional take-up winding facilities to withdraw the yarns 1 from the spinning head 12.
  • the first yarn feeding roller 31 can serve as a yarn withdrawing roller.
  • the appropriate tension can be applied to the yarns 1 even while the taken-off yarns 1 are being fed out from the first yarn feeding roller 31 to the second yarn feeding roller 32 or from the second yarn feeding roller 32 to the first yarn feeding roller 31.
  • the yarns 1 can be stably wound.
  • the yarn contact portion 31a of the first yarn feeding roller 31, serving as a yarn withdrawing roller exhibits the greatest friction coefficient.
  • the friction coefficient of the yarn contact portions 31a, ..., 32a, ... decreases sequentially in conjunction with each operation of taking off and feeding out the yarns 1.
  • the friction coefficients of the yarn contact portions have the following relationship. Friction coefficient: 31a > 32a > 31b > 32b ...
  • applicable optimum values are determined depending on the desired yarn quality or the like.
  • the numerical values of the friction coefficient are not limited. However, the friction coefficient may be sequentially increased depending on the yarn type.
  • the first yarn feeding roller 31 has yarn contact portions each brought into contact with at least one of the first yarn group 1a and the second yarn group 1b and having different roller diameters 31A, ...
  • the second yarn feeding roller 32 has yarn contact portions each brought into contact with at least one of the first yarn group 1a and the second yarn group 1b and having different roller diameters 32A, ...
  • Figure 10A is a plan view focusing on the yarn feeding rollers 31, 32 and the yarns 1.
  • Figure 10B is a side view of the yarn feed i ng rollers 31, 32 and the yarns 1.
  • the appropriate tension can be applied to the yarns 1 even while the taken-off yarns 1 are being fed out from the first yarn feeding roller 31 to the second yarn feeding roller 32 or from the second yarn feeding roller 32 to the first yarn feeding roller 31.
  • the yarns 1 can be stably wound.
  • the roller diameter 31A of the first yarn feeding roller 31, to which the yarns 1 are first fed from the spinning head 12, is smallest.
  • the roller diameters 31A, .., and 32A, ... of the yarn contact portions, brought into contact with the yarns 1, increase sequentially in conjunction with each operation of taking off and feeding out the yarns.
  • the roller diameters have the following relationship. Roller diameter: 31A ⁇ 32A ⁇ 31B ⁇ 32B ...
  • applicable optimum values are determined depending on the desired yarn quality or the like.
  • the numerical values of the friction coefficient are not limited.
  • the operator holds all of the plurality of yarns 1 spun out by the spinning head 12 while simultaneously using a suction device to suck the yarns 1. The operator thus hooks the yarns 1 on each of the yarn feeding rollers 31, 32 and the like.
  • the operator stands on a working step 28.
  • the operator operates the suction device holding the plurality of yarns 1 spun out by the spinning head 12, to hook the yarns 1 on the first yarn feeding roller 31.
  • the operator then passes the yarns 1 directly to the second yarn feeding roller 32 so that the yarns 1 extend in S form.
  • the operator temporarily places the yarn 1 group on a yarn hooking assisting guide 95 provided on a frame 90 located behind the second yarn feeding roller 32.
  • the operator sucks and holds the yarns 1 and passes the yarns 1 from the second yarn feeding roller 32 to the first yarn feeding roller 31 so that the yarns 1 extend in S form.
  • the operator places the yarns 1 on a yarn hooking assisting guide 95 positioned in front of the first yarn feeding roller 31.
  • the operator similarly passes the yarns 1 of the first yarn group 1a around the yarn feeding rollers 31, 32 so that the yarns 1 are guided from the first yarn feeding roller 31 to the traverse support point guides 25a, included in the traverse device 25, via the interlaces 70.
  • the second yarn group 1b is passed around the second yarn feeding roller 32 again and then guided to the traverse support point guides 25a via the interlaces 70.
  • the take-up winding facility 100 includes the yarn hooking assisting guides 95
  • the first yarn group 1a or the second yarn group 1b can be temporarily hooked on the yarn hooking assisting guides 95. This facilitates the yarn hooking operation even when each of the yarn feeding rollers 31, 32 feeds out the yarns 1 as is the case with the embodiments according to the present invention.
  • Each of the yarn hooking assisting guides 95 is desirably located close to one of the yarn feeding rollers 31, 32.
  • the positions of the yarn hooking assisting guides 95 are determined depending on the shape of the suction device and the like.
  • the specific positions of the yarn hooking assisting guides 95 are not limited. Therefore, the yarn hooking assisting guides 95 may be arranged in front of and behind the yarn feeding rollers 31, 32, respectively, as is the case with the present embodiment, or between the yarn feeding rollers 31, 32.

Landscapes

  • Chemical & Material Sciences (AREA)
  • Oil, Petroleum & Natural Gas (AREA)
  • Spinning Methods And Devices For Manufacturing Artificial Fibers (AREA)
  • Winding Filamentary Materials (AREA)
  • Tension Adjustment In Filamentary Materials (AREA)
EP09013809.0A 2008-11-13 2009-11-03 Enrouleur récepteur Active EP2186765B1 (fr)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
JP2008291546A JP5368061B2 (ja) 2008-11-13 2008-11-13 紡糸巻取設備

Publications (3)

Publication Number Publication Date
EP2186765A2 true EP2186765A2 (fr) 2010-05-19
EP2186765A3 EP2186765A3 (fr) 2011-03-30
EP2186765B1 EP2186765B1 (fr) 2013-09-11

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EP (1) EP2186765B1 (fr)
JP (1) JP5368061B2 (fr)
CN (1) CN101736421B (fr)

Cited By (3)

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CN103465714A (zh) * 2013-09-10 2013-12-25 马朋飞 工艺须头加工机
EP2636625A3 (fr) * 2012-03-08 2014-09-17 TMT Machinery, Inc. Appareil de rattrapage de fil fin
CN107285136A (zh) * 2017-06-22 2017-10-24 兰州蓝星纤维有限公司 一种大丝束碳纤维原丝上丝装置及其使用方法

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JP5519435B2 (ja) * 2010-07-13 2014-06-11 Tmtマシナリー株式会社 紡糸巻取装置
JP2013184781A (ja) 2012-03-07 2013-09-19 Tmt Machinery Inc 紡糸巻取設備
CN109607178B (zh) * 2019-01-17 2020-07-17 闽江学院 一种纺丝丝饼取运检测系统
CN110282495A (zh) * 2019-07-17 2019-09-27 佛山市高明区金帏纺织有限公司 节省成本的纺织方法以及经线扩幅分纱机
CN111962173B (zh) * 2020-08-18 2021-04-09 山东华纶新材料有限公司 一种聚酯纤维长丝制备工艺
CN113638084B (zh) * 2021-10-15 2021-12-10 南通凌通纺织机械制造有限公司 一种包芯纱的生产装置

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JP2003285972A (ja) 2002-03-28 2003-10-07 Murata Mach Ltd 糸条巻取機の巻取制御監視装置
JP2005534825A (ja) 2002-08-06 2005-11-17 ザウラー ゲゼルシャフト ミット ベシュレンクテル ハフツング ウント コンパニー コマンディートゲゼルシャフト 紡糸兼巻取り装置

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Publication number Priority date Publication date Assignee Title
EP2636625A3 (fr) * 2012-03-08 2014-09-17 TMT Machinery, Inc. Appareil de rattrapage de fil fin
CN103465714A (zh) * 2013-09-10 2013-12-25 马朋飞 工艺须头加工机
CN103465714B (zh) * 2013-09-10 2015-12-23 马朋飞 工艺须头加工机
CN107285136A (zh) * 2017-06-22 2017-10-24 兰州蓝星纤维有限公司 一种大丝束碳纤维原丝上丝装置及其使用方法

Also Published As

Publication number Publication date
JP5368061B2 (ja) 2013-12-18
EP2186765A3 (fr) 2011-03-30
EP2186765B1 (fr) 2013-09-11
CN101736421B (zh) 2014-01-22
CN101736421A (zh) 2010-06-16
JP2010116648A (ja) 2010-05-27

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