WO2011040546A1 - 糸巻取装置 - Google Patents
糸巻取装置 Download PDFInfo
- Publication number
- WO2011040546A1 WO2011040546A1 PCT/JP2010/067117 JP2010067117W WO2011040546A1 WO 2011040546 A1 WO2011040546 A1 WO 2011040546A1 JP 2010067117 W JP2010067117 W JP 2010067117W WO 2011040546 A1 WO2011040546 A1 WO 2011040546A1
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- WIPO (PCT)
- Prior art keywords
- yarn
- winding
- spun yarn
- unit
- spun
- Prior art date
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H51/00—Forwarding filamentary material
- B65H51/20—Devices for temporarily storing filamentary material during forwarding, e.g. for buffer storage
- B65H51/22—Reels or cages, e.g. cylindrical, with storing and forwarding surfaces provided by rollers or bars
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H57/00—Guides for filamentary materials; Supports therefor
- B65H57/22—Guides for filamentary materials; Supports therefor adapted to prevent excessive ballooning of material
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H2701/00—Handled material; Storage means
- B65H2701/30—Handled filamentary material
- B65H2701/31—Textiles threads or artificial strands of filaments
Definitions
- the present invention relates to a yarn winding device.
- Patent Document 1 a yarn feeding unit that unwinds a yarn from a yarn feeding bobbin, a winding unit that winds the unwound yarn as a package, and a yarn feeding unit that is disposed between the yarn feeding unit and the winding unit.
- a thread breakage occurs, when a yarn defect is detected, or when the yarn in the yarn feeding bobbin runs out, the yarn joining part that performs yarn joining, the yarn arranged between the yarn joining part and the winding part, A yarn winding device with a space (Vessel) for storage is described.
- the yarn unwound from the yarn supplying bobbin is temporarily stored in the space of the yarn storage unit, and the winding unit pulls out the yarn stored in the space and winds it on the package.
- the yarn winding by the winding unit can be continued even while the yarn is being spliced by the yarn splicing unit.
- the inventor of the present invention provides a yarn storage unit that stores yarn by winding the yarn unwound from the yarn supplying bobbin, instead of the space for storing the yarn, and is wound around the yarn storage unit. We thought to unwind the yarn and wind it around the package at the winding section.
- the yarn unwound from the yarn supplying bobbin is wound up as another package as described above, it is preferable that the yarn fluff is laid before winding the yarn into the package. Furthermore, although the yarn is wound while being traversed, it is preferable that tension is applied to the yarn during winding in order to ensure traversing.
- An object of the present invention is to provide a yarn winding device that can prevent the balloon generated when the yarn from the yarn accumulating portion is unwound from spreading greatly.
- a yarn winding device includes a yarn feeding unit that unwinds a spun yarn from a yarn feeding bobbin, a winding unit that winds the spun yarn as a package, and the yarn feeding unit and the winding unit.
- a yarn storage portion that winds and stores the spun yarn, and a balloon regulating portion that contacts the spun yarn unwound from the yarn storage portion to the winding portion side and regulates the balloon. It is characterized by.
- the spun yarn that is unwound from the yarn accumulating portion and sent to the winding portion side is regulated by contacting the balloon regulating portion, so that the unwinding tension increases due to the expansion of the balloon. Can be prevented.
- the yarn winding device is the yarn winding device according to the first aspect of the invention, wherein the balloon restricting portion is moved outward by unwinding the spun yarn from the yarn storage portion to the winding portion side. A resistance is imparted to the spun yarn by contacting the spun yarn to be swollen.
- the present invention it is possible to prevent the balloon generated when the spun yarn is unwound from the yarn storage unit from being greatly expanded, and the balloon is expanded and comes into contact with other members such as the machine base body. Can be prevented.
- the yarn winding device is the yarn winding device according to the second aspect of the present invention, wherein the front balloon restricting portion is formed by an annular member disposed so as to surround the spun yarn unwound from the yarn storage portion. It is configured.
- the balloon restricting portion is constituted by the annular member disposed so as to surround the spun yarn that is unwound from the yarn accumulating portion and sent to the winding portion, the expansion of the balloon is reliably suppressed. can do.
- the yarn winding device is the yarn winding device according to the third aspect of the present invention, wherein the annular member is made of an elastic material and arranged so as to contact the yarn storage portion. A spun yarn unwound from the yarn storage portion is sandwiched between the annular member and the yarn storage portion.
- the spun yarn unwound from the yarn accumulating portion is sandwiched between the annular member made of an elastic material and the yarn accumulating portion, the spinning unwound from the yarn accumulating portion and sent to the winding portion
- the fluff of the yarn can be laid and tension can be applied to the spun yarn.
- a yarn winding device is characterized in that, in the yarn winding device according to the fourth invention, the annular member is made of a rubber material.
- the annular member is made of a rubber material that is easily elastically deformed, the annular member can be easily attached and replaced.
- a yarn winding device is the yarn winding device according to the fourth or fifth aspect, wherein the annular member is in an elastically deformed state and is in contact with the yarn storage portion, so that at least A part is in surface contact with the yarn accumulating portion over the entire circumference.
- the annular member since the annular member is in contact with the yarn accumulating portion in an elastically deformed state, at least a part of the annular member is in surface contact with the yarn accumulating portion over the entire circumference.
- the fuzz of the spun yarn sandwiched between the parts can be surely laid down.
- the yarn winding device is the yarn winding device according to the sixth aspect, wherein the unwinding end of the spun yarn of the yarn storage portion is directed from the yarn storage portion toward the winding portion.
- the circular member has a circular curved surface shape that decreases toward the center thereof
- the annular member is an annular member in which the difference in radius between the outer periphery and the inner periphery is greater than the thickness, and the outer periphery and the inner periphery Is in elastic contact with the circularly curved part of the yarn storage part, and is in surface contact with the circularly curved part of the yarn storage part. It is characterized by.
- the unwinding side end of the spun yarn of the yarn storage portion has a circular curved surface shape
- the annular member is an annular member in which the difference in radius between the outer periphery and the inner periphery is greater than the thickness. Since the portion between the outer periphery and the inner periphery is elastically deformed along the circular curved surface portion of the yarn storage portion, and is in surface contact with the yarn storage portion, the annular member and the yarn The area of the portion where the reservoir is in surface contact is increased. Therefore, the fluff of the spun yarn unwound from the yarn storage unit can be surely laid down.
- a yarn winding device is the yarn winding device according to the fifth aspect of the present invention, wherein the yarn storage section includes a rotating storage drum that winds and stores the spun yarn by rotation, and the annular storage device.
- the member is smaller in diameter than the rotary storage drum, and is wound around the rotary storage drum in a stretched state.
- the annular member made of a rubber material having a smaller diameter than the rotary storage drum is wound around the rotary storage drum in a stretched state, the rotary storage drum and the annular member rotate integrally. Thereby, it can prevent that a rotary storage drum and an annular member rub and an annular member wears.
- a yarn winding device is the yarn winding device according to the eighth aspect of the invention, wherein the portion of the rotary storage drum on the unwinding side of the spun yarn from the portion around which the annular member is wound is provided. An enlarged portion having a larger diameter on the unwinding side is provided.
- a yarn winding device is the yarn winding device according to the third invention, wherein the annular member is unwound from the yarn storage portion at a position spaced apart from the yarn storage portion, and the winding portion. It arrange
- the annular member since the annular member is disposed at a position separated from the yarn accumulating portion, it is easy to pass the spun yarn between the annular member and the yarn accumulating portion when threading, and the annular member and the yarn accumulating portion During this period, the spun yarn is difficult to collect.
- the yarn winding device is the yarn winding device according to the tenth aspect of the invention, wherein the annular member has a hollow triangular pyramid shape whose diameter is smaller toward a portion closer to the winding portion. It is characterized by.
- the annular member since the annular member has a hollow triangular pyramid shape, the expansion of the balloon can be reliably suppressed.
- a yarn winding device is the yarn winding device according to any one of the first to eleventh aspects of the present invention, provided between the yarn supplying portion and the winding portion, and for splicing spun yarn.
- a yarn splicing unit to perform, a winding unit by the winding unit, and a control unit for controlling the yarn splicing unit by the yarn splicing unit, the control unit, the yarn splicing by the yarn splicing unit, It is characterized in that it is controlled to wind the spun yarn by the winding unit at the same time.
- yarn splicing can be performed without any interruption of the winding of the spun yarn to the winding unit.
- a yarn winding device is the yarn winding device according to any one of the first to twelfth aspects of the present invention, wherein a regulating member that covers the core tube of the yarn supplying bobbin is provided from the yarn supplying bobbin to the yarn supplying portion.
- a yarn unwinding assisting device for assisting unwinding of the spun yarn from the yarn supplying bobbin by being lowered in conjunction with unwinding of the spun yarn is provided.
- the yarn storage portion is arranged between the yarn feeding bobbin and the winding portion to interrupt the transmission of the yarn tension, so that the tension due to the traverse fluctuation of the winding portion is added to the unwinding tension portion of the yarn feeding bobbin. It is possible to prevent the fluctuation from being transmitted. Furthermore, by attaching the unwinding auxiliary device to the yarn feeding bobbin, the yarn unwinding from the yarn feeding bobbin can be performed stably, so that yarn breakage is prevented and the unwinding speed from the yarn feeding bobbin is increased. Can do. Therefore, the unwinding efficiency from the yarn feeding bobbin can be improved.
- the spun yarn that is unwound from the yarn accumulating portion and fed to the winding portion side is regulated by contacting the balloon restricting portion, so that the unwinding tension increases due to the expansion of the balloon. Can be prevented.
- FIG. 2 is a view corresponding to FIG.
- FIG. 2 is a diagram corresponding to FIG.
- FIG. 2 is a diagram corresponding to FIG.
- FIG. 2 is a view corresponding to FIG.
- FIG. 2 is a diagram corresponding to FIG.
- FIG. 2 is a diagram corresponding to FIG.
- FIG. 2 is a diagram corresponding to FIG.
- the autowinder 1 is configured by arranging a number of winding units 2 (yarn winding device) shown in FIG.
- Each winding unit 2 includes a yarn supplying unit 3 that unwinds and supplies the spun yarn Y from the yarn supplying bobbin B, and a yarn clearer 4 that can detect a yarn defect of the spun yarn Y supplied from the yarn supplying unit 3.
- a yarn defect is detected by the yarn clearer 4 when the bobbin change of the yarn feeding bobbin B is provided between the winding unit 5 for winding the spun yarn Y as a package P, and the yarn feeding unit 3 and the winding unit 5.
- the main component includes a spun yarn Y on the yarn supply unit 3 side and a yarn splicing unit 6 for splicing the spun yarn Y on the take-up unit 5 side at the time of yarn cutting or yarn breakage performed at the time. .
- Each winding unit 2 includes a yarn so that the yarn Y can be continuously wound by the winding unit 5 between the yarn joining unit 6 and the winding unit 5 even during the yarn joining by the yarn joining unit 6.
- An accumulator 7 (yarn accumulating part) capable of accumulating the spun yarn Y in an amount greater than or equal to the amount of yarn taken up by the take-up part 5 during yarn joining by the joining part 6 is provided.
- FIG. 1 shows a frame 8 that supports the above-described components of the winding unit 2, and a control unit 9 (see also FIG. 4) for controlling the components. Contained.
- the yarn feeding section 3 receives the yarn feeding bobbin B from a magazine (not shown), and assists the unwinding of the spun yarn Y from the yarn feeding bobbin B and the peg 10 that supports the yarn feeding bobbin B in a suitable posture.
- the yarn unwinding assisting device 11 and the yarn feeler 12 for detecting the presence of the spun yarn Y between the yarn unwinding assisting device 11 and the yarn joining portion 6 are configured.
- the yarn feeler 12 is electrically connected to the control unit 9 described above, and transmits an empty bobbin signal to the control unit 9 when the spun yarn Y cannot be detected.
- the yarn clearer 4 detects a yarn defect such as a slab or foreign matter of the spun yarn Y, and detects the yarn defect by comparing the mass of the spun yarn Y with a reference value; and By comparing the diameter of the spun yarn Y with a reference value, it is possible to select one of the photoelectric type that detects a yarn defect.
- the yarn clearer 4 includes a yarn defect calculation unit 4b that calculates the length and thickness of the yarn defect of the spun yarn Y based on the detection result (for example, output voltage value) by the electrostatic capacitance type or the photoelectric method.
- the yarn clearer 4 is provided with a cutter 4a for cutting the spun yarn Y.
- the cutter 4a cuts the spun yarn Y as soon as it receives a yarn cutting signal from the yarn clearer 4.
- the yarn defect calculation unit 4b starts to accumulate the length of the yarn defect and calculates the thickness of the yarn defect. get.
- the yarn clearer 4 comprehensively evaluates the calculation result (the length and thickness of the yarn defect) from the yarn defect calculation unit 4b from various viewpoints, and determines that the calculation result has deviated from the evaluation reference range separately set by the operator.
- the spun yarn Y is cut by transmitting a yarn cutting signal to the cutter 4a, and a yarn defect detection signal is transmitted to the control unit 9.
- This yarn defect detection signal includes the yarn defect length information accumulated by the yarn defect calculation unit 4b and the yarn defect type information determined based on the yarn defect thickness information calculated by the yarn defect calculation unit 4b. It is.
- the control unit 9 stores the length information and type information of the yarn defect acquired from the yarn clearer 4 in the RAM. Further, the yarn clearer 4 is configured to detect the yarn breakage of the spun yarn Y based on the thickness information of the yarn defect calculated by the yarn defect calculating unit 4b. When a yarn breakage is detected, a yarn breakage signal is transmitted to the control unit 9.
- the winding unit 5 includes a cradle 13 that holds the winding bobbin Bf and a traverse drum 14 that traverses the spun yarn Y.
- the cradle 13 is configured to be swingable so as to be switched between a contact state and a non-contact state of the package P with respect to the traverse drum 14, and the cradle 13 is rotated according to the winding thickness of the package P. By doing so, a suitable contact state between the package P and the traverse drum 14 can be obtained.
- the cradle 13 is provided with a package brake 15 (see FIG. 4) for applying a braking force to the rotation of the winding bobbin Bf.
- the traverse drum 14 is a traverse as a drive source for rotating the traverse drum 14.
- a vibration drum motor 16 (see FIG. 4) is connected.
- the package brake 15 and the traverse drum motor 16 are electrically connected to the control unit 9 as shown in FIG. 4, so that the control unit 9 can wind the winding yarn 5 on the winding unit 5.
- the taking speed Va can be freely increased or decreased.
- the winding unit 2 is further provided with a yarn end drawing mechanism W.
- This yarn end drawing mechanism W is used when the yarn feeding bobbin B is changed, when the yarn defect is detected by the yarn clearer 4, or when the yarn is cut or in other words, the yarn joining by the yarn joining portion 6 is performed. Is required, the yarn end of the spun yarn Y wound around the accumulator 7 is pulled out to the yarn joining portion 6 side. Details will be described later.
- the yarn joining unit 6 includes a yarn joining execution unit 17 that performs a yarn joining operation between the spun yarn Y on the yarn feeding unit 3 side and the spun yarn Y on the winding unit 5 side, and the spun yarn on the winding unit 5 side.
- the upper relay pipe 18 that receives Y from the yarn end drawing mechanism W and sets it in the yarn joining execution section 17, and the lower relay pipe 19 that sets the spun yarn Y on the yarn feeding section 3 side in the yarn joining execution section 17. It is configured.
- the upper relay pipe 18 is supported so as to be rotatable around a shaft 18a, and is supplied with a negative pressure from a negative pressure source 20 shown in FIG. 2, and a suction for sucking the spun yarn Y at the tip thereof.
- a mouth 18b is formed.
- the suction port 18b is provided with a simplified clamp portion 18c that clamps the spun yarn Y sucked into the suction port 18b by closing the suction port 18b.
- An upper pipe motor 21 (see FIG. 4) as a drive source for rotating the upper relay pipe 18 is electrically connected to the control unit 9, and the control unit 9 can freely connect the upper relay pipe 18. Can be rotated.
- the lower relay pipe 19 is supported so as to be rotatable around a shaft 19a, is supplied with negative pressure from the negative pressure source 20 shown in FIG. 2, and a suction port 19b is formed at the tip thereof.
- the suction port 19b is provided with a clamp portion 19c.
- a lower pipe motor 22 (see FIG.
- the control unit 9 as a drive source for rotating the lower relay pipe 19 is electrically connected to the control unit 9, so that the control unit 9 is connected to the lower relay pipe 19. Can be freely rotated.
- the splicing execution unit 17 is provided with a splicer motor 23 as a drive source for executing the splicing, and the splicer motor 23 (see FIG. 4) is also electrically connected to the control unit 9. Accordingly, the control unit 9 can freely start the yarn joining operation by the yarn joining execution unit 17.
- a gate type tensor 24 for applying a desired tension to the spun yarn Y is provided between the yarn feeler 12 and the yarn joining portion 6, and the accumulator 7 and the winding portion 5
- a waxing device 26 for applying wax to the spun yarn Y, Is provided.
- the spun yarn Y unwound from the yarn feeding bobbin B is passed through the yarn unwinding assisting device 11, the yarn feeler 12, the gate type tensor 24, and the yarn clearer 4 in order, and then the accumulator 7.
- the spun yarn Y stored in the accumulator 7 is wound while being traversed by the traverse drum 14 via the gate type tensor 25 and the waxing device 26 in this order.
- the take-up unit 5 winds the package as a package P.
- the spun yarn Y on the yarn feeding unit 3 side as viewed from the accumulator 7 is The yarn end of the spun yarn Y wound around the accumulator 7 is drawn out to the yarn joining portion 6 side by the yarn end drawing mechanism W described above when the yarn is once wound around the accumulator 7 and then spliced.
- the accumulator 7 has a yarn storage drum 27 around which the spun yarn Y is wound on the outer periphery, and a yarn path 28 through which the spun yarn Y can travel, and can rotate around the axis C of the yarn storage drum 27.
- a winding arm motor 30 is provided as a main configuration.
- the yarn storage drum 27 has a first end 31 on the yarn feeding unit 3 side (lower side in FIG. 2) and a second end 32 on the winding unit 5 side (upper side in FIG. 2).
- the outer periphery of the yarn storage drum 27 is configured as a groove 33 extending in parallel with the axis C so as to be equally spaced in the circumferential direction from the first end 31 toward the second end 32. Is formed.
- the inclination ⁇ of the lower end 34 on the first end 31 side in the outer periphery of the yarn storage drum 27 is the inclination ⁇ of the upper end 35 on the second end 32 side.
- the yarn storage drum 27 is supported on the tip (upper end) of the output shaft 36 of the winding arm motor 30 via a bearing that is schematically shown. Due to the magnetic coupling force between the magnet 38 attached to the first magnet support 37 fixed to the end 31 side and the magnet 40 attached to the second magnet support 39 provided in the winding arm motor 30. The rotation of the yarn storage drum 27 with respect to the winding arm motor 30 is restricted.
- the upper end portion of the yarn storage drum 27 including the second end 32 has a circular curved surface shape with a smaller diameter toward the upper end side (on the winding portion 5 side).
- An annular member 66 is disposed on the curved surface portion 65. As shown in FIGS. 3A and 3B, the annular member 66 is a thin plate made of an elastic material such as rubber and having a radius difference R between the inner periphery and the outer periphery larger than the thickness D. An annular member.
- the annular member 66 has its outer peripheral side end fixed to a substantially annular fixture 67, and the outer peripheral side end is pushed downward by the fixture 67 as shown in FIG. In the state, it is disposed on the curved surface portion 65.
- the inner peripheral side end portion (the portion between the outer periphery and the inner periphery) of the annular member 66 is elastically deformed along the curved surface portion 65 so as to be in surface contact with the curved surface portion 65 over the entire circumference. .
- the spun yarn Y unwound from the yarn storage drum 27 is sent toward the winding unit 5 through the space between the annular member 66 and the curved surface portion 65.
- the fixing tool 67 is fixed to a frame or the like (not shown) of the winding unit 2 at a position where the outer peripheral side end of the annular member 66 is pushed downward as shown in FIG.
- the winding arm 29 is connected to the outer peripheral surface of the output shaft 36, and bypasses the linear portion 41 extending radially outward from the outer peripheral surface of the output shaft 36 and the first magnet support 37, and the yarn storage drum. 27, and a curved portion 42 reaching the vicinity of the lower end portion 34, and an opening 43 facing the lower end portion 34 is formed at the distal end of the curved portion 42. With this configuration, the winding arm 29 can rotate around the axis C of the yarn storage drum 27 between the first magnet support 37 and the second magnet support 39 described above.
- the attached arm 29 rotates clockwise around the axis C of the yarn storage drum 27 in a plan view, so that the spun yarn Y on the yarn supplying unit 3 side guided into the yarn path 28 of the winding arm 29 becomes the yarn storage drum.
- 27 is wound around the outer periphery of 27. More specifically, since the opening 43 of the winding arm 29 is opposed to the lower end portion 34 on the first end 31 side of the yarn storage drum 27, the spun yarn Y on the yarn feeding unit 3 side is wound.
- the arm 29 is guided to the lower end 34 on the first end 31 side on the outer periphery of the yarn storage drum 27 and is wound around the lower end 34.
- the yarn path 28 of the winding arm 29 communicates with the flow path 44 formed inside the output shaft 36.
- a balancer 45 formed integrally with the output shaft 36 is provided on the opposite side of the winding arm 29 and the output shaft 36.
- the winding arm motor 30 is a DC brushless motor in this embodiment, and is electrically connected to the control unit 9, so that the control unit 9 rotates to the rotational speed of the winding arm 29, that is, to the yarn storage drum 27.
- the winding speed Vb as the yarn speed of the spun yarn Y to be wound can be freely controlled.
- a yarn passage 46 communicating with the passage 44 of the output shaft 36, and an opening to the yarn passage 46 and the upper relay pipe 18 side from the winding arm 29 side are provided.
- a blow-down nozzle 48 having a blow-down flow path 47 formed so as to incline toward is provided.
- a pressure air source 51 is connected to the downflow passage 47 via a connection pipe 49 and a connection pipe 50, and an electromagnetic wave electrically connected to the control unit 9 is connected between the connection pipe 49 and the connection pipe 50.
- a valve 52 is provided.
- the control unit 9 opens the solenoid valve 52 and the pressure air of the pressure air source 51 is discharged to the yarn passage 46 through the connection pipe 50, the connection pipe 49, and the downflow passage 47 in this order
- the yarn path 28 of the arm 29 the flow path 44 of the output shaft 36 of the winding arm motor 30, and the yarn flow path 46 of the blow-down nozzle 48, an air flow from the yarn storage drum 27 side to the upper relay pipe 18 side.
- the air flow generator X for generating an air flow flowing from the yarn storage drum 27 side toward the yarn joining portion 6 side in the yarn path 28 of the winding arm 29 is at least a blower.
- the lower nozzle 48 and the pressurized air source 51 are included.
- the above-described yarn end drawing mechanism W is configured to include the winding arm 29 and the airflow generation part X. That is, the yarn end drawing mechanism W sucks the yarn end of the spun yarn Y stored in the accumulator 7 by the air flow formed in the winding arm 29 by the air flow generating unit X, and the yarn joining unit 6 side ( Pull out to the yarn feeding section 3 side). Specifically, the yarn end drawing mechanism W sucks the yarn end of the spun yarn Y stored in the accumulator 7 by the air flow formed in the winding arm 29 by the air flow generation unit X, and continues this suction. The spun yarn Y on the outer periphery of the yarn accumulating drum 27 is pulled out to the yarn joining section 6 side via the yarn path 28 of the winding arm 29 while rotating the winding arm 29 in the direction opposite to that during storage. Has been.
- the winding arm motor 30 is provided with a rotary encoder 53 that can detect the rotation angle of the winding arm 29, and the rotary encoder 53 is electrically connected to the control unit 9.
- the rotary encoder 53 transmits an angle signal corresponding to the rotation angle of the winding arm 29 to the control unit 9.
- a sensor 54 is provided at the lower end of the blow-down nozzle 48.
- the pull-out sensor 54 is electrically connected to the control unit 9 and transmits a pull-out detection signal to the control unit 9 when it is detected that the yarn end of the spun yarn Y is pulled out to the yarn joining unit 6 side. It has become.
- the drawer sensor 54 in this embodiment can be said to be provided in the accumulator 7 in that it is installed on the winding arm motor 30 of the accumulator 7 via the blow-down nozzle 48 when viewed in the whole winding unit 2. .
- the accumulator 7 is provided with a storage upper limit sensor 55, a storage lower limit sensor 56, and a storage lower limit sensor 57 for detecting the storage amount of the spun yarn Y.
- These sensors 55 to 57 are supported by an accumulator mounting frame 58 for fixing the accumulator 7 to the frame 8, and are electrically connected to the controller 9 as shown in FIG.
- the storage upper limit sensor 55 is positioned at a position facing the upper end of the bundle of spun yarn Y wound around the outer periphery of the yarn storage drum 27 when the storage amount M of the accumulator 7 becomes 300 m.
- 300 m is a length that is equal to or longer than the length of the spun yarn Y wound by the winding unit 5 while repeating the yarn joining described later, for example, three times. As described later, the yarn joining is performed. Even when the winding of the spun yarn Y in the winding unit 5 is continued, the deficiency of the spun yarn Y in the accumulator 7 is less likely to occur.
- the storage lower limit sensor 56 is positioned at a position facing the upper end of the bundle of spun yarn Y when the storage amount M of the accumulator 7 becomes 200 m.
- the storage lower limit sensor 57 is positioned at a position facing the upper end of the bundle of spun yarn Y when the storage amount M of the accumulator 7 is 40 m.
- the storage upper limit sensor 55 transmits a storage amount upper limit signal to the control unit 9 while detecting the presence of the spun yarn Y at the opposing position.
- the storage lower limit sensor 56 transmits a storage amount lower limit signal to the control unit 9 while detecting the presence of the spun yarn Y at the facing position.
- the storage lower limit sensor 57 is configured to transmit a storage amount lower limit signal to the control unit 9 while detecting the presence of the spun yarn Y at the facing position.
- the storage amount detection unit that detects the storage amount of the spun yarn Y in the accumulator 7 includes a storage upper limit sensor 55, a storage lower limit sensor 56, and a storage lower limit sensor 57.
- the control unit 9 shown in FIG. 4 includes a CPU (Central Processing Unit) that is an arithmetic processing unit, a ROM (Read Only Memory) that stores a control program executed by the CPU and data used in the control program.
- the RAM Random Access Memory
- the control program stored in the ROM is read by the CPU and executed on the CPU, so that the control program executes hardware such as the CPU, the traverse drum motor control unit 60, the winding arm motor control unit 61.
- the drawn yarn length calculation unit 63 and the upper pipe control unit 64 function.
- the traverse drum motor control unit 60 reduces the winding speed Va at which the winding unit 5 winds the spun yarn Y when the storage amount detected by the storage amount detection unit falls below a predetermined value. ing. Specifically, when the traverse drum motor control unit 60 stops receiving the storage amount lower limit signal from the storage lower limit sensor 56, the traverse drum motor control unit 60 gently increases the winding speed Va to such an extent that the yarn layer of the package P is not disturbed. Decelerate. Further, when the traverse drum motor control unit 60 stops receiving the storage amount lower limit signal from the storage lower limit sensor 57, the traverse drum motor control unit 60 quickly reduces the winding speed Va and stops the winding by the winding unit 5.
- the traverse drum motor control unit 60 decelerates the winding speed Va when the storage amount of the spun yarn Y by the accumulator 7 decreases, and further reduces the storage amount of the spun yarn Y of the accumulator 7. Thus, the deficiency of the spun yarn Y in the accumulator 7 is prevented in advance.
- the winding arm motor control unit 61 indicates that the winding arm 29 is in the storage state when the yarn end of the spun yarn Y on the outer periphery of the yarn storage drum 27 is drawn out to the yarn joining unit 6 side by the yarn end drawing mechanism W.
- the winding arm motor 30 is controlled so as to rotate in the reverse direction.
- the drawn yarn length calculation unit 63 uses the yarn end drawing mechanism W to draw the yarn from the accumulator 7.
- the drawn yarn length as the yarn length of the spun yarn Y drawn to the splicing unit 6 side is calculated. That is, the drawn yarn length calculation unit 63 is based on the diameter ⁇ of the yarn storage drum 27 stored in advance in the ROM and the rotation angle of the winding arm 29 from when the drawn sensor 54 detects the spun yarn Y.
- the drawn yarn length is calculated, and the drawn yarn length as the calculation result is stored in the RAM.
- the upper pipe control unit 64 compares the yarn defect length acquired from the yarn defect detection signal with the drawn yarn length calculated by the drawn yarn length calculation unit 63, and when the drawn yarn length reaches the yarn defect length, The upper intermediate pipe 18 is swung in the clamped state, and the spun yarn Y on the winding unit 5 side is guided to the yarn joining execution unit 17 and set.
- the operator of the autowinder 1 shown in FIG. 1 unwinds the spun yarn Y from the yarn feeding bobbin B, and uses the spun yarn Y to the yarn unwinding assisting device 11, the yarn feeler 12, the yarn clearer 4, the accumulator 7, and the gate type. It is set on the tensor 25 and the waxing device 26 and fixed to the take-up bobbin Bf.
- the yarn path of the spun yarn Y in the accumulator 7 is as shown in FIG. That is, the operator passes the spun yarn Y sequentially through the drawing sensor 54, the yarn passage 46 of the blow-down nozzle 48, the passage 44 of the output shaft 36, and the yarn passage 28 of the winding arm 29.
- the operator pulls the spun yarn Y at the opening 43 side of the winding arm 29 and winds the spun yarn Y around the yarn storage drum 27, for example, about 5 to 20 times, and the yarn storage drum 27 (curved surface portion 65), the annular member 66, And set in the gate type tensor 25 and the waxing device 26.
- the spun yarn Y in FIG. 2 is drawn thick for convenience of explanation, but actually, a bundle of about 600 wound spun yarns Y is always stored on the yarn storage drum 27. Yes.
- the spun yarn Y on the yarn feeding section 3 side is guided to the lower end 34 of the yarn storage drum 27 by the winding arm 29 as shown in FIG.
- the yarn storage drum 27 is wound around the lower end 34 on the first end 31 side.
- the guide position A of the spun yarn Y1 by the winding arm 29 is determined so as to face the lower end portion 34, and is guided to the guide position A, and the lower end portion 34 is provided.
- a winding force F indicated by a symbol F is generated in a direction approaching the axis C of the yarn storage drum 27.
- the winding force F generates a rushing force f1 as a component force indicated by reference numeral f1 by engagement with the sharp inclination ⁇ of the lower end 34, and the spinning yarn f1 causes the spun yarn Y1 to be shown in FIG.
- the outer periphery of the yarn storage drum 27 tends to move spontaneously from the first end 31 side to the second end 32 side. Therefore, as shown in FIG.
- the spun yarn Y1 wound around the guide position A facing the lower end 34 on the first end 31 side on the outer periphery of the yarn storage drum 27 starts to move to the second end 32 side immediately after winding.
- the spun yarn Y ⁇ b> 2 that has already been wound on the outer periphery of the yarn storage drum 27 remains at the boundary between the lower end portion 34 and the upper end portion 35. Accordingly, the spun yarn Y1 with the slight running force f1 remaining contacts the spun yarn Y2, and the spun yarn Y2 and the spun yarn Y3 are moved toward the second end 32 as shown in FIG. 5C.
- the spun yarns Y1 to Y3 are densely arranged on the outer periphery of the yarn storage drum 27, so that the spun yarn Y on the yarn storage drum 27 can be smoothly unwound and highly stored. Quantity is realized at the same time.
- the controller 9 changes the winding speed Vb from 1500 m / min to 1200 m / min (S360). Thereby, the winding speed Va and the winding speed Vb coincide with each other, and the storage amount M of the accumulator 7 becomes constant.
- control unit 9 executes a control flow (details will be described later) for preventing yarn deficiency shown in FIG. 11 in parallel with a known multitask technique (S400). Is stopped (S410). Next, the control unit 9 switches the electromagnetic valve 52 shown in FIG. 6 to the open state, so that the yarn storage drum is placed in the yarn path 28 of the winding arm 29 and the like, as indicated by the thick arrows indicated by symbols a and b. An air flow from the 27 side toward the upper relay pipe 18 side is formed (S420). At the same time, the control unit 9 operates the clamp unit 18c by slightly rotating the upper relay pipe 18 shown in FIG. 5 to switch the suction port 18b from the closed state to the open state.
- the drawing sensor 54 transmits a drawing detection signal to the control unit 9.
- the control unit 9 turns the upper relay pipe 18 slightly while continuing the low-speed rotation of the winding arm 29.
- the clamp part 18c By operating the clamp part 18c, the suction port 18b is switched from the open state to the closed state, the spun yarn Y is clamped by the clamp part 18c, and the upper relay pipe 18 is further swung from the top to the bottom.
- the spun yarn Y drawn from 7 is guided to the yarn joining execution part 17 of the yarn joining part 6 located on the yarn feeding part 3 side from the accumulator 7 (S450).
- the spun yarn Y is newly pulled out from the accumulator 7 by approximately 60 cm by the turning of the upper relay pipe 18.
- the spun yarn Y is threaded between the clamp portion 18 c and the yarn storage drum 27.
- the control unit 9 synchronizes the turning of the upper relay pipe 18 with the rotation of the winding arm 29 so as not to be cut.
- the control unit 9 stops the rotation of the winding arm 29 (S460).
- the control unit 9 drives the splicer motor 23 shown in FIG.
- the splicing operation by the execution unit 17 is executed (S470).
- the controller 9 starts the clockwise rotation of the winding arm 29 as shown in FIG. 2 (S480), and returns from the thread breakage state of FIG. 6 to the normal winding state of FIG. S490).
- the rotation speed of the winding arm 29 at this time is set so that the winding speed Vb is 1500 m / min (S480).
- the controller 9 executes the control flow shown in FIG. 12 (S335). That is, the control unit 9 executes the control flow for preventing yarn deficiency shown in FIG. 11 in parallel with a known multitasking technique (S500), and stops the rotation of the winding arm 29 (S530). Similarly to the time of cutting, the electromagnetic valve 52 and the upper pipe motor 21 are controlled to form an air flow in the yarn path 28 and the like as indicated by the thick arrows indicated by reference symbols a and b, c, and d in FIG. 6 (S540). ).
- the winding arm motor control unit 61 controls the winding arm motor 30 so that the winding arm 29 rotates at a low speed in a direction opposite to that at the time of storage, that is, counterclockwise in a plan view in FIG. (S550), and a reception waiting state for the extraction detection signal from the extraction sensor 54 is entered (S560: NO). Then, the yarn end of the spun yarn Y existing on the lower end portion 34 is sucked into the opening 43 of the winding arm 29, and the upper relay pipe is passed through the yarn path 28 of the winding arm 29 as shown in FIG. 18 suction ports 18b. At this time, since the spun yarn Y passes through the drawing sensor 54, the drawing sensor 54 transmits a drawing detection signal to the control unit 9. As shown in FIG.
- the withdrawal yarn length calculation unit 63 is detected by the rotary encoder 53 from the time when the withdrawal sensor 54 detects the spun yarn Y.
- the rotation angle of the winding arm 29 is acquired (S570), and the drawn yarn length is calculated based on the rotation angle (S580).
- the upper pipe control unit 64 compares the length of the yarn defect acquired from the yarn defect detection signal with the drawn yarn length calculated by the drawn yarn length calculating unit 63 (S590). Then, the upper pipe control unit 64 stands by until the drawn yarn length reaches the yarn defect length (S590: NO), and when it reaches as shown in FIG.
- the control unit 9 While the low speed rotation of the arm 29 is continued, the clamp portion 18c is operated by slightly turning the upper relay pipe 18 to switch the suction port 18b from the open state to the closed state, and the spun yarn Y is clamped by the clamp portion 18c. Then, the spliced yarn Y drawn from the accumulator 7 is guided to the yarn joining execution unit 17 of the yarn joining unit 6 by further turning the upper relay pipe 18 from top to bottom (S600).
- the two-dot chain line indicated by reference numeral Y6 in FIG. 8 is an image of a spun yarn having a yarn defect. At this time, the spun yarn Y is newly pulled out from the accumulator 7 by approximately 60 cm by the turning of the upper relay pipe 18.
- the spun yarn Y is threaded between the clamp portion 18 c and the yarn storage drum 27.
- the control unit 9 synchronizes the turning of the upper relay pipe 18 with the rotation of the winding arm 29 so as not to be cut.
- the control unit 9 stops the rotation of the winding arm 29 (S610).
- the lower relay pipe 19 shown in FIG. 1 like the upper relay pipe 18, sucks and captures the yarn ends of the spun yarn Y existing around the yarn feeler 12, and uses the spun yarn Y as a yarn splicing execution unit.
- the control unit 9 drives the splicer motor 23 shown in FIG.
- the piecing operation by the execution unit 17 is executed (S620).
- the controller 9 starts the clockwise rotation of the winding arm 29 as shown in FIG. 2 (S630), and returns from the thread breakage state of FIG. 6 to the normal winding state of FIG. S640).
- the rotation speed of the winding arm 29 at this time is set so that the winding speed Vb is 1500 m / min (S630).
- the winding arm motor control unit 61 controls the winding arm motor 30 so that the winding arm 29 rotates at a low speed in a direction opposite to that at the time of storage, that is, counterclockwise in a plan view in FIG. (S740), and a reception waiting state for the extraction detection signal from the extraction sensor 54 is entered (S750: NO). Then, the yarn end of the spun yarn Y existing on the lower end portion 34 is sucked into the opening 43 of the winding arm 29, and the upper relay pipe is passed through the yarn path 28 of the winding arm 29 as shown in FIG. 18 suction ports 18b. At this time, since the spun yarn Y passes through the drawing sensor 54, the drawing sensor 54 transmits a drawing detection signal to the control unit 9. As shown in FIG.
- the control unit 9 turns the upper relay pipe 18 slightly while continuing the low speed rotation of the winding arm 29.
- the suction port 18b is switched from the open state to the closed state, the spun yarn Y is clamped by the clamp part 18c, and the upper relay pipe 18 is further swung from the top to the bottom.
- the spun yarn Y drawn from 7 is guided to the yarn joining execution unit 17 of the yarn joining unit 6 (S760). At this time, the spun yarn Y is newly pulled out from the accumulator 7 by approximately 60 cm by the turning of the upper relay pipe 18. At this time, the spun yarn Y is threaded between the clamp portion 18 c and the yarn storage drum 27.
- the control unit 9 synchronizes the turning of the upper relay pipe 18 with the rotation of the winding arm 29 so as not to be cut.
- the control unit 9 stops the rotation of the winding arm 29 (S770).
- the lower relay pipe 19 shown in FIG. 1 like the upper relay pipe 18, sucks and captures the yarn ends of the spun yarn Y existing around the yarn feeler 12, and uses the spun yarn Y as a yarn splicing execution unit. Guide to 17.
- the control unit 9 drives the splicer motor 23 shown in FIG.
- the piecing operation by the execution unit 17 is executed (S780).
- the controller 9 starts the clockwise rotation of the winding arm 29 as shown in FIG. 2 (S790), and returns from the thread breakage state of FIG. 6 to the normal winding state of FIG. S800).
- the rotational speed of the winding arm 29 at this time is set so that the winding speed Vb is 1500 m / min (S790).
- the control unit 9 disturbs the yarn layer of the package P until the winding speed Va reaches 1200 m / min (S970: NO).
- the winding speed Va is increased gently, for example, by 100 m / min every 0.5 seconds (S980).
- the control unit 9 ends the control flow of FIG. 13 for preventing yarn deficiency (S990).
- the take-up unit 5 can continue winding the spun yarn Y around the package P. That is, the yarn joining portion 6 can perform yarn joining without interrupting the winding of the spun yarn Y onto the package P in the winding portion 5.
- the spun yarn Y is stored by winding the spun yarn Y around the yarn storage drum 27, and when the spun yarn Y is wound around the package P in the winding unit 5, The spun yarn Y wound around the storage drum 27 is unwound and sent toward the winding unit 5.
- the spun yarn Y unwound from the yarn storage drum 27 swells outward in the radial direction of the yarn storage drum 27 and a balloon is generated.
- the balloon in the present embodiment refers to the behavior of the spun yarn Y generated between the yarn storage drum 27 and the gate type tensioner 25, and the spun yarn Y unwound so as to be unwound is swung around by centrifugal force. It is a decrease.
- the balloon expands greatly, the tension of the spun yarn Y fluctuates, or the spun yarn Y comes into contact with any part of the winding unit 2 and some problem occurs. There is a risk of doing.
- the annular member 66 is disposed on the curved surface portion 65 provided at the upper end portion of the yarn storage drum 27 and is unwound from the yarn storage drum 27. Since the spun yarn Y is sent toward the winding unit 5 through the space between the annular member 66 and the curved surface portion 65, the spun yarn Y that is swelled to the outside by being unwound is an annular member. Resistance is given by being pinched
- the spun yarn Y unwound from the yarn storage drum 27 and fed toward the winding unit 5 travels while rolling while being sandwiched between the annular member 66 and the curved surface portion 65, the spun yarn Y Fluff is laid down. Further, at this time, the inner peripheral side end portion of the thin plate-like annular member 66 made of an elastic material such as rubber is elastically deformed along the curved surface portion 65, so that the curved surface portion 65 is brought into surface contact over the entire circumference. Therefore, the distance that the spun yarn Y travels while rolling in a state where the spun yarn Y is sandwiched between the annular member 66 and the curved surface portion 65 is long. Therefore, the fluff of the spun yarn Y is surely laid down.
- the spun yarn Y unwound from the yarn accumulating drum 27 is sandwiched between the curved surface portion 65 and the annular member 66, it is possible to apply tension to the spun yarn Y sent toward the winding portion 5. it can.
- annular member 66 is made of a rubber material, the attachment of the annular member 66 to the yarn storage drum 27, the replacement of the annular member 66, and the like can be easily performed.
- the unwinding tension of the yarn feeding bobbin B is arranged by disposing the accumulator 7 between the yarn feeding bobbin B and the winding unit 5 to cut off the transmission of the tension of the yarn Y. It is possible to prevent the tension variation due to the traverse variation of the winding unit 5 from being transmitted to the portion. Further, by attaching the unwinding assisting device 12 to the yarn feeding bobbin B, the yarn unwinding from the yarn feeding bobbin B can be performed stably, so that the yarn breakage is prevented and the yarn feeding bobbin B The unwinding speed can be increased. Therefore, the unwinding efficiency from the yarn feeding bobbin B can be improved.
- the thin plate-shaped annular member 66 made of an elastic material such as rubber and having a radius difference R between the outer periphery and the inner periphery larger than the thickness D is disposed on the curved surface portion 65 in a state of being elastically deformed.
- the inner peripheral side end portion is in surface contact with the curved surface portion 65, but the present invention is not limited to this.
- the annular member may be an annular member having a shape different from that of the annular member 66, such as an O-ring made of an elastic material. Even in this case, the annular member can be brought into surface contact with the curved surface portion 65 by arranging the annular member on the curved surface portion 65 in an elastically deformed state.
- the shape of the upper end portion of the yarn storage drum 27 is not limited to the circular curved surface shape, and may be another shape.
- the annular member may be arranged so as to contact the yarn storage drum 27 in a state where it is not elastically deformed. Even in this case, since the spun yarn Y unwound from the yarn storage drum 27 is sandwiched between the yarn storage drum 27 and the annular member, the fluff of the spun yarn Y unwound from the yarn storage drum 27 is laid down. Thus, tension is applied to the spun yarn Y.
- the annular member made of an elastic material is not limited to being disposed so as to contact the yarn storage drum 27.
- an O-ring 71 annular member, balloon restricting portion
- the winding unit 2 is fixed by a frame (not shown).
- the O-ring 71 is disposed above the yarn storage drum 27 and separated from the yarn storage drum 27.
- FIG. 14 and FIGS. 15 and 16 to be described later the O-ring 71 and the umbrella-shaped members 76 and 81 to be described later are shown in an axial section for easy understanding of the drawings.
- the spun yarn Y when the spun yarn Y is set in the winding unit 2, the spun yarn Y is passed between the yarn storage drum 27 and the O-ring 71 and then hung on the gate type tensor 25 (winding). Sent to part 5).
- the spun yarn Y since the O-ring 71 is disposed at a position separated from the yarn storage drum 27, the spun yarn Y can be easily passed between the yarn storage drum 27 and the O-ring 71.
- the balloon can be regulated by the spun yarn Y that is about to swell outward by being unwound from the yarn storage drum 27 coming into contact with the inner peripheral surface 71a of the O-ring 71.
- an umbrella-like member 76 (annular member, balloon restricting portion) is provided above the yarn storage drum 27 at a position separated from the yarn storage drum 27. ) Is arranged.
- the umbrella-shaped member 76 is a hollow triangular pyramid-shaped annular member whose diameter decreases as it goes upward.
- the spun yarn Y which is to be expanded outward by being unwound from the yarn storage drum 27, comes into contact with the inner peripheral surface 76a of the umbrella-shaped member 76. Can be regulated. Further, in this case, the contact area between the spun yarn Y and the inner peripheral surface 76 a of the umbrella-shaped member 76 is larger than the contact area between the spun yarn Y of Modification 1 and the inner peripheral surface 71 a of the O-ring 71. Therefore, the distance that the spun yarn Y travels while rolling while in contact with the umbrella-like member 76 is long, and the balloon can be regulated reliably.
- an umbrella-shaped member 81 (annular member, balloon restricting portion) is arranged instead of the umbrella-shaped member 76 (see FIG. 15).
- the umbrella-shaped member 81 is a hollow triangular pyramid-shaped annular member that extends further upward than the umbrella-shaped member 76, and its upper end is located at substantially the same height as the lower end of the gate-type tensor 24.
- the contact area between the spun yarn Y, which is unwound from the yarn storage drum 27 and swells outward, and the inner peripheral surface 81a of the umbrella-shaped member 81 is equal to the spun yarn Y of Modification 2 and the umbrella shape. Since the contact area with the inner peripheral surface 76a of the member 76 is further increased, the distance that the spun yarn Y travels while rolling while in contact with the umbrella-shaped member 81 is longer, and the balloon can be reliably regulated.
- the accumulator 7 that stores the spun yarn Y by winding the spun yarn Y around the yarn storage drum 27 is provided.
- the accumulator stores the spun yarn by winding the spun yarn Y. As long as it does, it may have another structure.
- an accumulator 161 is provided instead of the accumulator 7 as shown in FIG.
- the accumulator 161 includes six rollers 171, a base material 172, a rotating plate 173, three winding auxiliary members 174, a winding arm 29 and a winding arm motor 30 similar to the accumulator 7.
- the base material 172 is a substantially circular plate-like body, and is supported on the tip (upper end) of the output shaft 36 of the winding arm motor 30 via a bearing (not shown), and is disposed on the upper surface of the first magnet support 137.
- the six rollers 171 are arranged along the circumference on the upper surface of the base material 72, the lower ends thereof are pivotally supported on the upper surface of the base material 172, and the upper ends thereof are supported by the rotating plate 173.
- the rotation plate 173 is rotatable about the rotation axis C of the winding arm motor 30. When the rotation plate 173 is rotated, the upper end of the roller 171 supported by the rotation plate 73 is Move in the circumferential direction by a distance corresponding to the same central angle. When the upper end of the roller 171 is moved in the circumferential direction by rotating the rotation plate 173, the roller 171 is inclined in the circumferential direction.
- the rotating plate 173 has a circular curved surface shape whose diameter is smaller toward the upper end side.
- an annular member 181 Balloon restricting section
- the annular member 181 is the same member as the annular member 66 (see FIG. 2), and its inner peripheral side end is elastically deformed along the circularly curved rotating plate 173, It is in surface contact with the rotating plate 173 over the entire circumference. Then, the spun yarn Y unwound from the roller 171 passes between the rotating plate 173 and the annular member 181 and is sent toward the winding unit 5, whereby the spun yarn Y is fed to the annular member. 181 and the rotating plate 173.
- a pulley 182 is attached to the lower surface of the roller 171.
- the pulley 182 is a pulley connected to the speed reducer 177 and a speed reducer 177 that transmits the rotation of the winding arm motor 30 with a predetermined reduction ratio.
- the winding arm motor 30 also serves as a roller driving motor for rotating the roller 171.
- all of the rollers 171 may be driving rollers rotated by the winding arm motor 30, or only some of the rollers 171 are driving rollers, and the other rollers are driven rollers. There may be.
- the three winding auxiliary members 174 are attached to the substrate 172 so as to be separated from each other by about 120 ° so as to surround the lower end portion of the roller 171.
- the winding auxiliary member 174 has a winding auxiliary surface 174 a for smoothly connecting the outer peripheral surface of the roller 171 at a portion located between the adjacent rollers 171.
- the surface 174a forms a surface extending substantially continuously along the circumferential direction. Further, the winding auxiliary surface 174a is inclined so that the upper part is located on the inner side in the radial direction.
- the spun yarn Y is transferred from the roller 171 by the winding arm 29. While being guided by the lower end portion, it is wound around the lower end portion of the roller 171.
- the rollers 171 are spaced apart from each other, but as described above, the winding auxiliary member 174 is disposed so as to surround the lower end portion of the roller 171, and the lower end portion of the roller 171 is wound around the lower end portion. Since the auxiliary surface 174a forms a surface extending substantially continuously along the circumferential direction, the spun yarn Y is wound across the roller 171 and the winding auxiliary surface 174a. Therefore, the spun yarn Y can be smoothly wound around the roller 171.
- the roller 171 also rotates, and the spun yarn Y wound around the roller 171 by the winding arm 29 is sent by the roller 171.
- the spun yarn Y sent to the roller 171 moves upward (feed direction).
- the spun yarn Y moves upward by being sent to the roller 171, so that the burden (frictional force) applied to the spun yarn Y is reduced.
- the spun yarn Y is fed on the roller 171 so that the fluff of the spun yarn Y is laid down.
- the spun yarn Y wound around the lower end portion of the roller 171 and the winding auxiliary member 174 moves upward by the rotation of the roller 171, and in addition, the winding yarn of the winding auxiliary member 174 is wound. It moves upward along the inclination of the auxiliary surface 174a.
- a balloon is generated when the spun yarn Y unwound from the roller 171 and directed toward the winding unit 5 bulges outward, and the spun yarn Y unwound from the roller 171 is separated from the annular member 181 and the rotating plate. Therefore, the balloon can be prevented from spreading greatly and the fluff of the spun yarn Y is laid down, as in the case of the above-described embodiment.
- the annular member 181 has its inner peripheral end in surface contact with the rotating plate 173 over its entire circumference, and thus travels while rolling while being sandwiched between the annular member 181 and the rotating plate 173. The fluff of the spun yarn Y is surely laid down.
- the modified example is used instead of the annular member 181 disposed on the rotating plate 173.
- Members similar to the first to third O-rings 71 and the umbrella-shaped members 76 and 81 may be provided.
- the accumulator is not limited to the one in which the spun yarn Y is wound around the yarn storage drum 27 and the roller 171 by the winding arm 29.
- an accumulator 261 is provided instead of the accumulator 7 as shown in FIG.
- the accumulator 261 includes a rotary storage drum 271, a rotary storage drum motor 272, a yarn guide member 273, a blow-down nozzle 274, a yarn path forming member 275, and the like.
- the rotary storage drum 271 is a drum that is rotated around the axis E by a rotary storage drum motor 272, and both ends of the rotary storage drum 271 are enlarged portions 271a whose diameters become smaller toward the opposite ends, respectively.
- a portion between the enlarged portion 271a and the enlarged portion 271b is a straight portion 271c having a substantially constant diameter.
- the spun yarn Y is wound around substantially half of the straight portion 271c on the enlarged portion 271a side, and the spun yarn Y is stored.
- annular member 281 (balloon restricting portion) is wound around the end portion of the straight portion 271c on the enlarged portion 271b side.
- the annular member 281 is an annular member made of a rubber material and having a diameter in a state where no external force is applied is smaller than the diameter of the straight portion 271c, and is stretched to substantially the same diameter as the straight portion 271c. It is wound around 271c. Then, the spun yarn Y wound around the straight portion 271c is passed between the annular member 281 and the straight portion 271b and then sent toward the gate type tensor 24. As a result, the spun yarn Y is sandwiched between the annular member 281 and the straight portion 271c.
- the yarn guide member 273 is a pipe extending linearly, and is arranged so that the upper left end portion in FIG. 18 faces the enlarged portion 271a. As a result, the spun yarn Y that has traveled from the yarn supplying unit 3 side to the yarn guiding member 273 is guided to the enlarged portion 271a by the yarn guiding member 273.
- the blow-down nozzle 274 is attached to the right end of the yarn guide member 273.
- the blow-down nozzle 274 has a configuration similar to that of the blow-down nozzle 74 (see FIG. 2), and is similar to the yarn flow path 246 and the blow-down flow path 47 (see FIG. 2). 2), a downflow passage 247 to which a pressure air source 51 is connected via connection pipes 49 and 50 is provided.
- the upper left end portion of the yarn channel 246 in the drawing is connected to the internal space of the yarn guide member 273.
- the yarn path forming member 275 forms the yarn path 228, and is disposed between the suction port 18b of the upper thread guide pipe 18 and the blow-down nozzle 274.
- the yarn path 228 extends almost directly from its lower end located immediately above the suction port 18b of the upper yarn guide pipe 18, and at its upper end, bends to the upper left in FIG. Is opposed to the lower right end of the yarn channel 246.
- a yarn withdrawal sensor 54 is provided at the lower end of the yarn path forming member 275.
- the spun yarn Y is guided to the enlarged portion 271 a by the yarn guide member 273
- the spun yarn Y is wound around the enlarged portion 271 a by the rotation of the rotary storage drum 271, and on the slope of the enlarged portion 271 a. It is stored in the rotary storage drum 271 by moving along the upper right direction.
- the spun yarn Y is stored in the rotary storage drum 271 only by guiding the spun yarn Y to one point of the enlarged portion 271a.
- Any material can be used as long as it can guide the spun yarn Y to a single point, and can be arranged relatively easily regardless of the position and orientation of the rotary storage drum 271. Therefore, the rotary storage drum 271 can be arranged relatively freely according to the empty space of the winding unit 2 and the like.
- the solenoid valve 52 is switched to the open state, so that the inner space of the yarn guide member 273, the yarn path 228, etc. An air flow toward the yarn guide pipe 18 is formed, and the rotating storage drum 271 is rotated in a direction opposite to that when the spun yarn Y is wound, so that the yarn end of the spun yarn Y existing on the rotating storage drum 271 is rotated. Then, it is sucked into the opening of the yarn guide member 273 and drawn out to the suction port 18b of the upper yarn guide pipe 18 through the yarn path 228 and the like.
- the yarn guide member 273 guides the spun yarn Y to the enlarged portion 271a
- the moving direction of the spun yarn Y guided from the yarn guide member 273 to the rotary storage drum 271 is rotated.
- the storage drum 271 is directed from the upper right end side toward the lower left end side. Therefore, the spun yarn Y guided by the enlarged portion 271a does not move to the upper right end side of the rotary storage drum 271 due to inertia when moving from the yarn guide member 273 to the rotary storage drum 271.
- the yarn end of the spun yarn Y is surely near the enlarged portion 271a of the rotary storage drum 271 and, strictly speaking, on the lower left end of the straight portion 271c As a result, the spun yarn Y can be reliably sucked from the opening of the yarn guide member 273.
- the spun yarn Y that is about to expand outwardly by being unwound from the rotary storage drum 271 passes between the annular member 281 and the straight portion 271c and is wound up. Since it is sent toward the portion 5, it is possible to suppress the balloon from spreading greatly and to lie down the fluff of the spun yarn Y.
- the spun yarn Y unwound from the rotary storage drum 271 is sandwiched between the annular member 281 and the straight portion 271c, the state is sandwiched between the rotary storage drum 271 and the annular member 281.
- the fluff of the spun yarn Y that travels while rolling can be surely laid and tension can be reliably applied to the spun yarn Y.
- the annular member 281 is smaller in diameter than the straight portion 271c in a state where no external force is applied, and is wound around the straight portion 271c while being stretched to substantially the same diameter as the straight portion 271c.
- the force that holds the spun yarn Y sandwiched between the annular member 281 and the straight portion 271c is strong, and the fluff of the spun yarn Y can be laid down more reliably.
- the annular member 281 rotates integrally with the rotary storage drum 271, so that the annular member 281 and the rotary storage drum 271 are rubbed to wear the annular member 281. Can be prevented.
- the spun yarn Y unwound from the rotary storage drum 271 includes a portion of the straight portion 271c around which the spun yarn Y is wound and a portion around which the annular member 81 is wound. , I.e., the surface of approximately half of the straight portion 271c on the enlarged portion 271b side while rolling, and the fluff of the spun yarn Y is also laid down.
- the enlarged portions 271a and 271b are provided at both axial ends of the rotary storage drum 271, respectively. However, even if only the unfolded side enlarged portion 271b is formed, the annular member 281 falls off. Can be prevented.
- the annular member 281 is Since the spun yarn Y does not fall off the rotary storage drum 271 due to the frictional force, the enlarged portion 271b may not be provided.
- the annular member 281 is made of a rubber material, the attachment of the annular member 281 to the rotary storage drum 271 and the replacement of the annular member 281 can be easily performed.
- the above-described implementation is performed instead of the annular member 281 wound around the rotary storage drum 271.
- the same members as the annular member 66, the O-ring 71, the umbrella-shaped members 76, 81, etc. of the above-mentioned forms and the first to third modifications may be provided.
- the balloon restricting portion is disposed so as to surround the spun yarn Y unwound from the accumulator, such as the annular members 66, 181, 281, the O-ring 71, the umbrella-shaped members 76, 81, and the like.
- the balloon restricting portion is not limited to being constituted by an annular member, and comes into contact with the spun yarn Y that is to be expanded outward by being unwound from the accumulator.
- the spun yarn Y may be configured by a member arranged only in a part of the region surrounding the spun yarn Y unwound from the accumulator. .
Abstract
Description
以下、図面を参照しつつ、本願発明の第一実施形態に係る糸巻取装置について説明する。オートワインダ1は、図1に示す巻取ユニット2(糸巻取装置)を紙面左右方向に例えば60錘など多数で並べて構成されている。
図1に示すオートワインダ1のオペレータは、給糸ボビンBから紡績糸Yを解舒して、この紡績糸Yを糸解舒補助装置11、ヤーンフィーラ12、ヤーンクリアラ4、アキュムレータ7、ゲート式テンサー25、ワキシング装置26にセットし、巻取ボビンBfに固定する。アキュムレータ7における紡績糸Yの糸道は、図2に示す通りである。即ち、オペレータは、紡績糸Yを、引出センサ54と、吹下ノズル48の糸流路46と、出力軸36の流路44と、巻付アーム29の糸経路28と、に順に通す。この状態で、オペレータは、巻付アーム29の開口43側で紡績糸Yを引き出して、糸貯留ドラム27に例えば5~20回程度巻き付け、糸貯留ドラム27(曲面部65)と環状部材66との間に通した上で、ゲート式テンサー25及びワキシング装置26にセットする。なお、図2における紡績糸Yは説明の都合上、太く描かれているが、実際には糸貯留ドラム27上には常時、600巻きくらいの紡績糸Yの束が貯留されるようになっている。
この状態で、図9に示すように巻取ユニット2の電源を投入すると(S300)、制御部9は、巻取部5による紡績糸Yの巻取速度Vaが1200m/minとなるように綾振ドラム14の回転を開始させると共に、アキュムレータ7による紡績糸Yの巻付速度Vbが1500m/minとなるように巻付アーム29の回転を開始させる(S310)。すると、図1や図2に示すように、糸貯留ドラム27の外周上に巻き付けられた紡績糸Yの束は、上端から順に巻取部5によって解舒され、綾振ドラム14によって綾振られながらパッケージPに巻き取られていく。
紡績糸Yが図1に示すゲート式テンサー24で糸切れしたとする。この場合、ゲート式テンサー24よりも下流側の紡績糸Yは、すべて糸貯留ドラム27に巻き付けられ、紡績糸Yの糸端は糸貯留ドラム27の下端部34の外周上に巻き付けられた状態となる。これと同時に、ヤーンクリアラ4は糸切れを検出し、制御部9へ糸切れ信号を送信する。図9に示すように制御部9は、ヤーンクリアラ4から糸切れ信号を受信すると(S320:YES)、図10に示す制御フローを実行する(S325)。即ち、制御部9は、図11に示す糸欠乏防止のための制御フロー(詳しくは、後述する。)を公知のマルチタスク技術で並行して実行しつつ(S400)、先ず、巻付アーム29の回転を停止させる(S410)。次に、制御部9は、図6に示す電磁弁52を開状態へと切り替えることで、符号a及びbで示す太線矢印のように、巻付アーム29の糸経路28などに、糸貯留ドラム27側から上側中継ぎパイプ18側へ向かう空気流を形成する(S420)。これと同時に、制御部9は、図5に示す上側中継ぎパイプ18を若干回動させることでクランプ部18cを操作して、吸引口18bを閉塞状態から開放状態へと切り替え、これにより、符号c及びdで示す太線矢印のように、上側中継ぎパイプ18に、吸引口18b側から負圧源20側へ向かう空気流を形成する(S420)。次に、巻付アームモータ制御部61は、巻付アーム29が貯留時とは逆方向に、即ち、図6で平面視で反時計回りに低速で回転するように巻付アームモータ30を制御し(S430)、引出センサ54からの引出検出信号の受信待ち状態となる(S440:NO)。すると、下端部34上に存在する紡績糸Yの糸端は、巻付アーム29の開口43に吸い込まれ、図7に示すように巻付アーム29の糸経路28などを経由して上側中継ぎパイプ18の吸引口18bに至る。このとき、紡績糸Yが引出センサ54を通過するので、引出センサ54は、制御部9に、引出検出信号を送信する。図10に示すように、引出センサ54から引出検出信号を受信すると(S440:YES)、制御部9は、巻付アーム29の低速回転を継続したまま、上側中継ぎパイプ18を若干旋回させることでクランプ部18cを操作して、吸引口18bを開放状態から閉塞状態へと切り替えると共にクランプ部18cによって紡績糸Yをクランプさせ、更に上から下へ向かって上側中継ぎパイプ18を旋回させることで、アキュムレータ7から引き出した紡績糸Yをアキュムレータ7よりも給糸部3側にある糸継部6の糸継実行部17に案内する(S450)。このとき、上側中継ぎパイプ18の旋回によってアキュムレータ7から紡績糸Yが概ね60cm程度、新たに引き出されることとなるが、このときに紡績糸Yがクランプ部18cと糸貯留ドラム27との間で糸切れしないように、制御部9は、上側中継ぎパイプ18の旋回を巻付アーム29の回転と同期させる。上側中継ぎパイプ18による紡績糸Yの糸継実行部17への案内が完了したら(S450)、制御部9は、巻付アーム29の回転を停止させる(S460)。一方で、図1に示す下側中継ぎパイプ19は、上側中継ぎパイプ18と同様に、ヤーンフィーラ12の周辺に存在する紡績糸Yの糸端を吸引捕捉し、この紡績糸Yを糸継実行部17に案内する。そして、アキュムレータ7側の紡績糸Yと給糸部3側の紡績糸Yが糸継実行部17にセットされたら、制御部9は、図4に示すスプライサモータ23を駆動して、糸継実行部17による糸継ぎ作業を実行させる(S470)。そして、制御部9は、図2に示すように巻付アーム29の平面視時計回りの回転を開始させ(S480)、図6の糸切れ状態から図2の通常巻取状態へと復帰する(S490)。なお、このときの巻付アーム29の回転数は、巻付速度Vbが1500m/minとなるように設定される(S480)。
図9に示す通常巻取時において、ヤーンクリアラ4から糸欠点検出信号を受信すると(S330:YES)、制御部9は、図12に示す制御フローを実行する(S335)。即ち、制御部9は、図11に示す糸欠乏防止のための制御フローを公知のマルチタスク技術で並行して実行しつつ(S500)、巻付アーム29の回転を停止させ(S530)、糸切れ時と同様に、電磁弁52や上パイプモータ21を制御して、図6の符号a及びb、c、dで示す太線矢印のように、糸経路28などに空気流を形成する(S540)。次に、巻付アームモータ制御部61は、巻付アーム29が貯留時とは逆方向に、即ち、図6で平面視で反時計回りに低速で回転するように巻付アームモータ30を制御し(S550)、引出センサ54からの引出検出信号の受信待ち状態となる(S560:NO)。すると、下端部34上に存在する紡績糸Yの糸端は、巻付アーム29の開口43に吸い込まれ、図7に示すように巻付アーム29の糸経路28などを経由して上側中継ぎパイプ18の吸引口18bに至る。このとき、紡績糸Yが引出センサ54を通過するので、引出センサ54は、制御部9に、引出検出信号を送信する。図12に示すように、引出センサ54から引出検出信号を受信すると(S560:YES)、引出糸長演算部63は、引出センサ54が紡績糸Yを検出した時点からの、ロータリエンコーダ53によって検出される前記巻付アーム29の回転角度を取得し(S570)、この回転角度に基づいて前記の引出糸長を演算する(S580)。そして、上パイプ制御部64は、糸欠点検出信号から取得した糸欠点の長さと、引出糸長演算部63によって演算された引出糸長と、を比較する(S590)。そして、上パイプ制御部64は、引出糸長が糸欠点長さに到達するまで待機し(S590:NO)、図8に示すように到達したら(S590:YES)、制御部9は、巻付アーム29の低速回転を継続したまま、上側中継ぎパイプ18を若干旋回させることでクランプ部18cを操作して、吸引口18bを開放状態から閉塞状態へと切り替えると共にクランプ部18cによって紡績糸Yをクランプさせ、更に上から下へ向かって上側中継ぎパイプ18を旋回させることで、アキュムレータ7から引き出した紡績糸Yを糸継部6の糸継実行部17に案内する(S600)。図8の符号Y6で示す二点鎖線は、糸欠点のある紡績糸をイメージしたものである。このとき、上側中継ぎパイプ18の旋回によってアキュムレータ7から紡績糸Yが概ね60cm程度、新たに引き出されることとなるが、このときに紡績糸Yがクランプ部18cと糸貯留ドラム27との間で糸切れしないように、制御部9は、上側中継ぎパイプ18の旋回を巻付アーム29の回転と同期させる。上側中継ぎパイプ18による紡績糸Yの糸継実行部17への案内が完了したら(S600)、制御部9は、巻付アーム29の回転を停止させる(S610)。一方で、図1に示す下側中継ぎパイプ19は、上側中継ぎパイプ18と同様に、ヤーンフィーラ12の周辺に存在する紡績糸Yの糸端を吸引捕捉し、この紡績糸Yを糸継実行部17に案内する。そして、アキュムレータ7側の紡績糸Yと給糸部3側の紡績糸Yが糸継実行部17にセットされたら、制御部9は、図4に示すスプライサモータ23を駆動して、糸継実行部17による糸継ぎ作業を実行する(S620)。そして、制御部9は、図2に示すように巻付アーム29の平面視時計回りの回転を開始させ(S630)、図6の糸切れ状態から図2の通常巻取状態へと復帰する(S640)。なお、このときの巻付アーム29の回転数は、巻付速度Vbが1500m/minとなるように設定される(S630)。
ところで、給糸ボビンBが空になったとする。この場合、ゲート式テンサー24よりも下流側の紡績糸Yは、すべて糸貯留ドラム27に巻き付けられ、紡績糸Yの糸端は糸貯留ドラム27の下端部34の外周に巻き付けられた状態となる。これと同時に、ヤーンフィーラ12は制御部9へ空ボビン信号を送信する。図9に示すように制御部9は、ヤーンフィーラ12から空ボビン信号を受信すると(S340:YES)、図13に示す制御フローを実行する(S345)。即ち、制御部9は、図11に示す糸欠乏防止のための制御フローを公知のマルチタスク技術で並行して実行しつつ(S700)、現在の給糸ボビンBを排出して新たな給糸ボビンBをペグ10に装填し、この給糸ボビンBの紡績糸Yを案内し、下側中継ぎパイプ19に捕捉吸引可能な状態としておき(S710)、これと前後して巻付アーム29の回転を停止させる(S720)。次に、制御部9は、糸切れ時と同様に、電磁弁52や上パイプモータ21を制御して、図6の符号a及びb、c、dで示す太線矢印のように、糸経路28などに空気流を形成する(S730)。次に、巻付アームモータ制御部61は、巻付アーム29が貯留時とは逆方向に、即ち、図6で平面視で反時計回りに低速で回転するように巻付アームモータ30を制御し(S740)、引出センサ54からの引出検出信号の受信待ち状態となる(S750:NO)。すると、下端部34上に存在する紡績糸Yの糸端は、巻付アーム29の開口43に吸い込まれ、図7に示すように巻付アーム29の糸経路28などを経由して上側中継ぎパイプ18の吸引口18bに至る。このとき、紡績糸Yが引出センサ54を通過するので、引出センサ54は、制御部9に、引出検出信号を送信する。図13に示すように、引出センサ54から引出検出信号を受信すると(S750:YES)、制御部9は、巻付アーム29の低速回転を継続したまま、上側中継ぎパイプ18を若干旋回させることでクランプ部18cを操作して、吸引口18bを開放状態から閉塞状態へと切り替えると共にクランプ部18cによって紡績糸Yをクランプさせ、更に上から下へ向かって上側中継ぎパイプ18を旋回させることで、アキュムレータ7から引き出した紡績糸Yを糸継部6の糸継実行部17に案内する(S760)。このとき、上側中継ぎパイプ18の旋回によってアキュムレータ7から紡績糸Yが概ね60cm程度、新たに引き出されることとなるが、このときに紡績糸Yがクランプ部18cと糸貯留ドラム27との間で糸切れしないように、制御部9は、上側中継ぎパイプ18の旋回を巻付アーム29の回転と同期させる。上側中継ぎパイプ18による紡績糸Yの糸継実行部17への案内が完了したら(S760)、制御部9は、巻付アーム29の回転を停止させる(S770)。一方で、図1に示す下側中継ぎパイプ19は、上側中継ぎパイプ18と同様に、ヤーンフィーラ12の周辺に存在する紡績糸Yの糸端を吸引捕捉し、この紡績糸Yを糸継実行部17に案内する。そして、アキュムレータ7側の紡績糸Yと給糸部3側の紡績糸Yが糸継実行部17にセットされたら、制御部9は、図4に示すスプライサモータ23を駆動して、糸継実行部17による糸継ぎ作業を実行する(S780)。そして、制御部9は、図2に示すように巻付アーム29の平面視時計回りの回転を開始させ(S790)、図6の糸切れ状態から図2の通常巻取状態へと復帰する(S800)。なお、このときの巻付アーム29の回転数は、巻付速度Vbが1500m/minとなるように設定される(S790)。
Claims (13)
- 給糸ボビンから紡績糸を解舒する給糸部と、
この紡績糸をパッケージとして巻き取る巻取部と、
前記給糸部と前記巻取部との間に設けられ、紡績糸を巻き取って貯留する糸貯留部と、
前記糸貯留部から前記巻取部側に解舒される紡績糸に接触してバルーンを規制するバルーン規制部と、を備えていることを特徴とする糸巻取装置。 - 前記バルーン規制部は、紡績糸が前記糸貯留部から前記巻取部側に解舒されることで外側に膨らもうとする紡績糸に接触することによって、当該紡績糸に抵抗を付与することを特徴とする請求項1に記載の糸巻取装置。
- 前記バルーン規制部が、前記糸貯留部から解舒される紡績糸を取り囲むように配置された環状部材によって構成されていることを特徴とする請求項2に記載の糸巻取装置。
- 前記環状部材が、弾性材料によって構成されているとともに、前記糸貯留部に接触するように配置されており、
前記糸貯留部から解舒される紡績糸が、前記環状部材と前記糸貯留部とに挟まれていることを特徴とする請求項3に記載の糸巻取装置。 - 前記環状部材がゴム材料によって構成されていることを特徴とする請求項4に記載の糸巻取装置。
- 前記環状部材が、弾性変形された状態で前記糸貯留部に接触していることにより、少なくともその一部分が、全周にわたって前記糸貯留部と面接触していることを特徴とする請求項4又は5に記載の糸巻取装置。
- 前記糸貯留部の紡績糸の解舒側の端部が、前記糸貯留部から前記巻取部側に向かうにつれ、その中心に向けて縮小する円曲面を有する円曲面形状になっており、
前記環状部材が、外周と内周の半径の差が、厚みよりも大きい環状部材であって、外周と内周との間の部分が、前記糸貯留部の円曲面状となった部分に沿うように弾性変形されていることで、前記糸貯留部の円曲面状となった部分に面接触していることを特徴とする請求項6に記載の糸巻取装置。 - 前記糸貯留部は、回転することによって紡績糸を巻き取って貯留する回転貯留ドラムを備えており、
前記環状部材は、前記回転貯留ドラムよりも径の小さいものであって、引き伸ばされた状態で前記回転貯留ドラムに巻かれていることを特徴とする請求項5に記載の糸巻取装置。 - 前記回転貯留ドラムの、前記環状部材が巻かれている部分よりも紡績糸の解舒側の部分に、前記解舒側ほどその径が大きくなった拡大部が設けられていることを特徴とする請求項8に記載の糸巻取装置。
- 前記環状部材が、前記糸貯留部から離隔した位置で、前記糸貯留部から解舒されて前記巻取部に送られる紡績糸を取り囲むように配置されていることを特徴とする請求項3に記載の糸巻取装置。
- 前記環状部材が、前記巻取部側の部分ほどその径が小さくなった中空三角錐形状となっていることを特徴とする請求項10に記載の糸巻取装置。
- 前記給糸部と前記巻取部との間に設けられ、紡績糸の糸継を行う糸継部と、
前記巻取部による巻取動作、及び、前記糸継部による糸継動作を制御する制御部とをさらに備え、
前記制御部は、前記糸継部による糸継と、前記巻取部による紡績糸の巻取と、同時に行うように制御することを特徴とする請求項1~11のいずれかに記載の糸巻取装置。 - 前記給糸部には、給糸ボビンの芯管に被さる規制部材を給糸ボビンからの紡績糸の解舒と連動して下降させることにより、給糸ボビンから紡績糸の解舒を補助する糸解舒補助装置が設けられていることを特徴とする請求項1~12に記載の糸巻取装置。
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EP2987755A1 (en) | 2014-08-21 | 2016-02-24 | Murata Machinery, Ltd. | Yarn winding device and automatic winder |
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP5471923B2 (ja) * | 2010-07-15 | 2014-04-16 | 村田機械株式会社 | 糸巻取装置 |
JP2016016969A (ja) * | 2014-07-10 | 2016-02-01 | 村田機械株式会社 | 糸貯留装置、糸巻取ユニット及び糸巻取機 |
DE102019116671A1 (de) * | 2019-06-19 | 2020-12-24 | Maschinenfabrik Rieter Ag | Spinnmaschine sowie Verfahren zum Betreiben einer Spinnstelle einer Spinnmaschine |
CN110541236B (zh) * | 2019-08-31 | 2020-12-29 | 嘉兴科禾能源科技有限公司 | 一种帆布生产用同步进线且带有提醒的设备 |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3314621A (en) | 1963-08-14 | 1967-04-18 | Elitex Zavody Textilniho | Method of and device for winding yarn without interrupting the winding process during removal of yarn breakage |
JPH0542262U (ja) * | 1991-11-06 | 1993-06-08 | 村田機械株式会社 | 自動ワインダの巻取ユニツト |
JPH09507268A (ja) * | 1993-12-29 | 1997-07-22 | ヌオーヴァ・ロイ・エレクトロテックス・ソシエタ・ア・レスポンサビリタ・リミタータ | 織機用の糸口の出口において糸を制御するための装置 |
JP2001089955A (ja) * | 1999-09-24 | 2001-04-03 | Tsudakoma Corp | 緯糸貯留装置 |
JP2004156186A (ja) * | 2002-11-08 | 2004-06-03 | Murata Mach Ltd | 特殊な絣糸の製造方法とその巻糸パッケージ |
Family Cites Families (11)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
AT236136B (de) * | 1961-10-31 | 1964-10-12 | Alberto Gustavo Sarfati | Vorrichtung zur Präzisionsmessung der Länge eines laufenden Fadens oder Garnes |
DE2056593A1 (de) * | 1970-11-17 | 1972-06-15 | Zinser-Textilmaschinen Gmbh, 7333 Ebersbach | Vorrichtung zum Transportieren von Fäden |
DE2542824C2 (de) * | 1975-09-25 | 1977-11-17 | Ab Iro, Ulricehamn (Schweden) | Fadenliefervorrichtung |
DE2553892C3 (de) * | 1975-11-29 | 1979-10-04 | Skf Kugellagerfabriken Gmbh, 8720 Schweinfurt | Abzugsvorrichtung für eine Offenendspinnmaschine |
JPS5516888A (en) * | 1978-04-06 | 1980-02-05 | Du Pont Canada | Method of and apparatus for winding bulked yarn |
DE2907242A1 (de) * | 1979-02-23 | 1980-09-04 | Iro Ab | Texturieranlage |
DE3116683C2 (de) * | 1981-04-28 | 1984-01-26 | Hacoba Textilmaschinen Gmbh & Co Kg, 5600 Wuppertal | Verfahren und Vorrichtung zur Längenmessung textiler Fäden |
CS237357B1 (en) * | 1983-06-24 | 1985-07-16 | Genadij Terechin | Device for drawing off and winding of yarn |
DE4310951A1 (de) * | 1993-04-02 | 1994-10-27 | Zinser Textilmaschinen Gmbh | Verfahren und Vorrichtung zum selbsttätigen Beheben von Fadenbrüchen an Ringspinnmaschinen |
NL1013672C1 (nl) * | 1999-11-25 | 2001-05-28 | Te Strake Bv | Draadafloopinrichting. |
IT1320321B1 (it) * | 2000-04-28 | 2003-11-26 | Lgl Electronics Spa | Dispositivo antiballoon o simile tipicamente ma non esclusivamente per apparecchi alimentatori di trama a telai di tessitura,particolarmente |
-
2010
- 2010-09-30 JP JP2011534320A patent/JP5365698B2/ja not_active Expired - Fee Related
- 2010-09-30 CN CN201080044103.8A patent/CN102574657B/zh active Active
- 2010-09-30 WO PCT/JP2010/067117 patent/WO2011040546A1/ja active Application Filing
- 2010-09-30 EP EP10820661.6A patent/EP2484621B1/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US3314621A (en) | 1963-08-14 | 1967-04-18 | Elitex Zavody Textilniho | Method of and device for winding yarn without interrupting the winding process during removal of yarn breakage |
JPH0542262U (ja) * | 1991-11-06 | 1993-06-08 | 村田機械株式会社 | 自動ワインダの巻取ユニツト |
JPH09507268A (ja) * | 1993-12-29 | 1997-07-22 | ヌオーヴァ・ロイ・エレクトロテックス・ソシエタ・ア・レスポンサビリタ・リミタータ | 織機用の糸口の出口において糸を制御するための装置 |
JP2001089955A (ja) * | 1999-09-24 | 2001-04-03 | Tsudakoma Corp | 緯糸貯留装置 |
JP2004156186A (ja) * | 2002-11-08 | 2004-06-03 | Murata Mach Ltd | 特殊な絣糸の製造方法とその巻糸パッケージ |
Non-Patent Citations (1)
Title |
---|
See also references of EP2484621A4 * |
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
JP2014172759A (ja) * | 2013-03-08 | 2014-09-22 | Gebr Loepfe Ag | 糸の巻き取り及び洗浄方法 |
EP2987755A1 (en) | 2014-08-21 | 2016-02-24 | Murata Machinery, Ltd. | Yarn winding device and automatic winder |
Also Published As
Publication number | Publication date |
---|---|
CN102574657B (zh) | 2016-01-20 |
JPWO2011040546A1 (ja) | 2013-02-28 |
EP2484621B1 (en) | 2016-09-14 |
JP5365698B2 (ja) | 2013-12-11 |
EP2484621A4 (en) | 2013-06-19 |
CN102574657A (zh) | 2012-07-11 |
EP2484621A1 (en) | 2012-08-08 |
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