EP2998257B1 - Dispositif de surveillance de fil et machine de bobinage de fil - Google Patents
Dispositif de surveillance de fil et machine de bobinage de fil Download PDFInfo
- Publication number
- EP2998257B1 EP2998257B1 EP15193388.4A EP15193388A EP2998257B1 EP 2998257 B1 EP2998257 B1 EP 2998257B1 EP 15193388 A EP15193388 A EP 15193388A EP 2998257 B1 EP2998257 B1 EP 2998257B1
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- EP
- European Patent Office
- Prior art keywords
- yarn
- monitoring device
- information
- section
- winding
- 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.)
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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
- B65H54/00—Winding, coiling, or depositing filamentary material
- B65H54/02—Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
- B65H54/28—Traversing devices; Package-shaping arrangements
- B65H54/2884—Microprocessor-controlled traversing devices in so far the control is not special to one of the traversing devices of groups B65H54/2803 - B65H54/325 or group B65H54/38
- B65H54/2887—Microprocessor-controlled traversing devices in so far the control is not special to one of the traversing devices of groups B65H54/2803 - B65H54/325 or group B65H54/38 detecting the position of the yarn guide
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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
- B65H54/00—Winding, coiling, or depositing filamentary material
- B65H54/02—Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
- B65H54/38—Arrangements for preventing ribbon winding ; Arrangements for preventing irregular edge forming, e.g. edge raising or yarn falling from the edge
- B65H54/388—Preventing the yarn from falling off the edge of the package
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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
- B65H54/00—Winding, coiling, or depositing filamentary material
- B65H54/70—Other constructional features of yarn-winding machines
- B65H54/71—Arrangements for severing filamentary materials
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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
- B65H59/00—Adjusting or controlling tension in filamentary material, e.g. for preventing snarling; Applications of tension indicators
- B65H59/40—Applications of tension indicators
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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
- B65H63/00—Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package
- B65H63/06—Warning or safety devices, e.g. automatic fault detectors, stop-motions ; Quality control of the package responsive to presence of irregularities in running material, e.g. for severing the material at irregularities ; Control of the correct working of the yarn cleaner
- B65H63/062—Electronic slub detector
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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 monitoring device that monitors a yarn running in a yarn winding machine.
- a yarn monitoring device that is arranged in a yarn winding machine such as an automatic winder or a spinning machine and that monitors a thickness of a running yarn is known in the art.
- One such yarn monitoring device is disclosed in Japanese Patent Application Laid-open No. 2009-190841 .
- a yarn clearer that functions as the yarn monitoring device is arranged in an automatic winder that unwinds a yarn from a supply bobbin and winds the yarn around a winding bobbin while traversing the yarn to form a package.
- the automatic winder includes a winding drum that traverses the yarn and also drives the winding bobbin.
- the yarn clearer disclosed in the above document includes a clearer head and an analyzer.
- the clearer head includes a yarn irregularity sensor that detects a thickness of the yarn.
- the analyzer processes signals generated in the yarn irregularity sensor to detect a yarn defect.
- a rotation sensor is attached to the winding drum. The rotation sensor detects rotation of the winding drum and sends information pertaining to a running speed of the yarn to the analyzer.
- the automatic winder also includes a cutter that cuts the yarn immediately upon detection of a yarn defect by the yarn clearer.
- EP 1 260 476 A1 teaches a yarn clearer, in which several parameters of the yarn are measured, such as the yarn thickness and the yarn hairiness.
- US 4 292 868 A discloses a textile spooling machine comprising a thread tension sensor and yarn cleaning apparatus. A cutter is controlled based on the outputs of the tread tension sensor and the yarn cleaning device.
- DE 40 25 696 A1 teaches a winding device comprising a measuring device for detecting irregularities of a yarn.
- Two yarn detection sensors are provided to detect yarn in end regions of a cheese.
- a cutter is controlled to cut the yarn a predetermined period after it was detected by one of the yarn sensors.
- the yarn is simply cut at the time of detection of a yarn defect by the yarn irregularity sensor.
- the inventors recognized, however, in this kind of control, depending on a traversing position of the yarn when the yarn is cut, stitching (yarn end missing) in which the yarn overshoots a winding width of the package can occur, resulting in a defective package.
- the invention provides a yarn monitoring device according to claim 1.
- the inventors recognized that such problems can be prevented by a yarn monitoring device that can perform determination and control functions in real-time not based solely on the thickness of the yarn but also based on various kinds of other information.
- a yarn monitoring device includes a sensor and a determining section.
- the sensor monitors a yarn that is being wound by a yarn winding machine.
- the determining section performs a determination based on first information acquired from the sensor and second information acquired from a status acquiring section of the yarn winding machine, and outputs a control signal based on the determination.
- the second information acquired by the determining section includes at least one of a position of an unwinding assisting member in an unwinding assisting device arranged in the yarn winding machine, and hairiness of the yarn.
- a cutter is adapted to cut the yarn, wherein the determining section is adapted to output as the control signal a signal that causes the cutter to operate and cut the yarn.
- the first information indicates a thickness of the yarn, wherein the determining section is adapted to output the control signal when the first information indicates a yarn defect.
- a thickness threshold value for detecting a yarn defect is varied based on the second information.
- a yarn winding machine preferably includes the above yarn monitoring device and a winding section that winds the yarn, which has been monitored by the yarn monitoring device, to form a package.
- an automatic winder (yarn winding machine) 1 includes a plurality of winder units (yarn winding units) 10 that are arranged side by side, and a machine controller 11 that is arranged at one end in the alignment direction of the winder units 10.
- the machine controller 11 includes a display device 12, a command input section 13 and the like.
- the display device 12 displays information pertaining to the winder units 10.
- the command input section 13 is used by an operator to input various commands to the machine controller 11.
- the operator of the automatic winder 1 can check various kinds of information displayed on the display device 12, and can also collectively manage the winder units 10 via the machine controller 11 and suitably operate the command input section 13.
- Each of the winder units 10 unwinds a yarn 21 from a supply bobbin 20 and winds the yarn 21 around a winding bobbin 22.
- the winding bobbin 22 with the yarn 21 wound around it is called a package 23.
- the terms 'upstream side' and 'downstream side' used in the following explanation refer to the upstream side and the downstream side, respectively, in a running direction of the yarn 21.
- the winder unit 10 includes a main frame 24, a yarn supplying section 25, and a winding section 26.
- the main frame 24 is arranged on a side of the winder unit 10. Most of the components of the winder unit 10 are directly or indirectly supported by the main frame 24.
- the yarn supplying section 25 holds the supply bobbin 20, which supplies the yarn 21, substantially upright.
- the winding section 26 includes a cradle 28 and a winding drum 29.
- the cradle 28 rotatably supports the winding bobbin 22.
- the cradle 28 can support the winding bobbin 22 in such a manner as to bring an outer peripheral surface of the winding bobbin 22 into contact with an outer peripheral surface of the winding drum 29.
- the winding drum 29 is arranged opposed to the winding bobbin 22 and is driven to rotate by a drum driving motor 53.
- a spiral traverse groove 27 is formed on the outer peripheral surface of the winding drum 29.
- the yarn 21 to be wound around the winding bobbin 22 is traversed along the traverse groove 27.
- the winding drum 29 is coupled to an output shaft of the drum driving motor 53 and is driven to rotate by the drum driving motor 53.
- the winding drum 29 is driven to rotate with the yarn 21 guided into the traverse groove 27. Accordingly, the package 23 that is in contact with the winding drum 29 is also rotated, causing the yarn 21 to be wound around the outer peripheral surface of the package 23 while being traversed. Yarn layers are formed on the surface of the package 23 in this manner.
- a drum rotation detection sensor 73 is arranged near the winding drum 29.
- the drum rotation detection sensor 73 is electrically connected to a unit controller 30 that controls various components of the winder unit 10.
- the drum rotation detection sensor 73 for example, is a rotary encoder, and outputs a rotation pulse signal (hereinafter, also "drum pulse signal") to the unit controller 30 per predetermined angular rotation of the winding drum 29.
- the unit controller 30 counts the number of pulses per predetermined length of time to acquire the rotation speed of the winding drum 29 (and thereby calculates the running speed of the yarn 21).
- the winding bobbin 22 is rotated in accordance with the winding drum 29 that is driven to rotate while the outer peripheral surface of the winding bobbin 22 is in contact with the winding drum 29.
- the yarn 21 that is unwound from the supply bobbin 20 is wound around the winding bobbin 22 while being traversed along the traverse groove 27.
- the structure for traversing the yarn 21 is not limited to the winding drum 29.
- an arm-like traverse device that has a traverse guide for traversing the yarn 21 to and fro by a predetermined traverse width can be used as the structure for traversing.
- One unit controller 30 is arranged corresponding to every winder unit 10.
- the unit controller 30 includes hardware such as a central processing unit (CPU), a read-only memory (ROM), and a random access memory (RAM), and software such as control computer programs stored in the RAM.
- the hardware and the software work in conjunction to control the components of the winder unit 10.
- the unit controller 30 of the winder unit 10 is capable of communicating with the machine controller 11. This arrangement allows the machine controller 11 to centrally manage operations of the winder units 10.
- an unwinding assisting device 31 In a yarn running path between the yarn supplying section 25 and the winding section 26 in the winder unit 10, an unwinding assisting device 31, a tension applying device 32, a tension sensor 60, a yarn joining device 33, and a yarn monitoring device 34 are arranged in the mentioned order from the upstream side.
- the unwinding assisting device 31 includes a regulating member 35 that comes into contact with a bulging portion (balloon) formed by the swaying of the yarn 21 unwound from the supply bobbin 20 by centrifugal force. By coming into contact with the balloon, the regulating member 35 suppresses the swaying of the yarn 21 and maintains the size of the balloon to a predetermined size. In this manner, the yarn 21 can be unwound from the supply bobbin 20 under a constant tension.
- the structure of the unwinding assisting device 31 will be explained in detail later.
- the tension applying device 32 applies a predetermined tension to the running yarn 21.
- the tension applying device 32 according to the present embodiment is a gate-type one with movable comb teeth arranged against fixed comb teeth. An appropriate tension is applied to the yarn 21 when the yarn 21 passes between the two sets of comb teeth that are engaged with each other.
- a disc-type tension applying device can also be used.
- a load cell-type sensor is adopted as the tension sensor 60.
- the tension sensor 60 measures the tension on the yarn 21 running along a yarn path, and outputs an electric signal corresponding to the measured tension.
- the structure of the tension sensor 60 will be explained in detail later.
- the yarn joining device 33 joins a lower yarn from the supply bobbin 20 and an upper yarn from the package 23 when the yarn 21 between the supply bobbin 20 and the package 23 is cut for any reason.
- a splicer that twists together the yarn ends by swirling air currents produced by compressed air is adopted as the yarn joining device 33.
- the yarn joining device 33 need not be limited to a splicer but can also be, for example, a mechanical knotter.
- a lower yarn catching member 54 that catches and guides the yarn from the supply bobbin 20 (lower yarn) is arranged below the yarn joining device 33 in a height direction of the winder unit 10.
- An upper yarn catching member 55 that catches and guides the yarn from the package 23 (upper yarn) is arranged above the yarn joining device 33.
- the lower yarn catching member 54 includes a lower yarn catching pipe 56 that is coupled to a not-shown negative pressure source and a suction vent 57 at the tip portion.
- the upper yarn catching member 55 includes an upper yarn catching pipe 58 that is coupled to a not-shown negative pressure source and a suction mouth 59 at the tip portion. Because of this structure, suction currents can be produced at the suction vent 57 and the suction mouth 59.
- Both the lower yarn catching pipe 56 and the upper yarn catching pipe 58 are rotatably supported at their base portions in such a manner as to turn upward and downward.
- the lower yarn catching member 54 catches the lower yarn from the supply bobbin 20 and guides it to the yarn joining device 33
- the upper yarn catching member 55 catches the upper yarn from the package 23 and guides it to the yarn joining device 33.
- the yarn monitoring device 34 monitors the quality of the running yarn 21 by a yarn irregularity sensor 37.
- the yarn irregularity sensor 37 is an optical sensor that includes a light source and a light receiving element, which are not shown, and detects defects (portions of the yarn 21 having a defect) in the yarn 21.
- a cutter 39 is arranged near the yarn monitoring device 34. The cutter 39 cuts the yarn 21 when a yarn defect is detected by the yarn monitoring device 34.
- the cutter 39 includes a cutting blade and a solenoid, which are not shown. When an electric current flows through the solenoid, the cutting blade is driven to cut the yarn 21.
- the unwinding assisting device 31 is explained in detail below.
- the regulating member 35 arranged in the unwinding assisting device 31 includes a fixed tube 41 and a movable tube (unwinding assisting member) 42.
- the fixed tube 41 which is fixed to the main frame 24, comes into contact with the balloon of the yarn 21.
- the movable tube 42 moves as the yarn 21 is unwound from the supply bobbin 20, and comes into contact with the balloon of the yarn 21.
- Both the fixed tube 41 and the movable tube 42 are circular tubes having at least a shaft through-hole in a vertical direction.
- An inverted U-shaped support arm 43 is fixed to the movable tube 42.
- a chase portion detection sensor 44 that detects a chase portion of the supply bobbin 20 is attached to the support arm 43.
- the chase portion is a yarn layer edge portion of the supply bobbin 20 the position of which moves as the winding operation proceeds.
- the chase portion detection sensor 44 is an optical sensor having a light emitter and a light receiver that are arranged facing each other on either side of the supply bobbin 20.
- the unwinding assisting device 31 includes a lifting and lowering mechanism 45 that lifts or lowers the movable tube 42.
- the lifting and lowering mechanism 45 includes a screw member 46 arranged in a vertical direction, a lifting and lowering guide member 47 that is arranged parallel to the screw member 46, and a slider 48 that is guided by the lifting and lowering guide member 47.
- the screw member 46 is rotatably supported.
- the slider 48 is screw thread-coupled to the screw member 46.
- the movable tube 42 is fixed to the slider 48 via the support arm 43.
- the lifting and lowering mechanism 45 includes a lifting and lowering motor 50 that drives the screw member 46 to rotate.
- An output shaft of the lifting and lowering motor 50 is coupled to the screw member 46 by a belt member.
- a stepping motor for example, can be used as the lifting and lowering motor 50.
- the screw member 46 rotates about the shaft, and lifts or lowers the movable tube 42 along with the slider 48.
- the unwinding assisting device 31 includes an unwinding assisting controller 51 that controls the unwinding assisting device 31.
- the unwinding assisting controller 51 includes a drive board that drives the lifting and lowering motor 50, a power source, and a communication controller for performing digital communication between the yarn monitoring device 34 and the unit controller 30.
- the unwinding assisting controller 51 and the lifting and lowering motor 50 are electrically connected to each other via a not-shown wiring.
- the unwinding assisting controller 51 and the chase portion detection sensor 44 are electrically connected to each other via a not-shown wiring.
- the unwinding assisting device 31 having the above structure assists in the unwinding of the yarn 21 from the supply bobbin 20. Specifically, when the yarn 21 is unwound from the supply bobbin 20, the yarn layers are gradually removed, and the height of the chase portion of the supply bobbin 20 is gradually lowered. When detecting that the height of the chase portion is being lowered, the chase portion detection sensor 44 outputs a detection signal to the unwinding assisting controller 51. Upon receiving the detection signal, the unwinding assisting controller 51 drives the lifting and lowering motor 50 of the lifting and lowering mechanism 45 to cause the slider 48 to descend so that the movable tube 42 descends in accordance with the change in the height of the chase portion. The descent of the slider 48 with the change in the height of the chase portion is repeated until an amount of the yarn 21 wound on the supply bobbin 20 is reduced to approximately one-third the initial full amount.
- the unwinding assisting controller 51 that controls the lifting and lowering motor 50 can acquire the height of the movable tube 42 (and of the chase portion detection sensor 44) based on the details of the control performed by the unwinding assisting controller 51 itself.
- the unwinding assisting controller 51 is electrically connected to the unit controller 30 to send and receive signals.
- the unwinding assisting controller 51 is also electrically connected to the yarn monitoring device 34 to output the signals to the yarn monitoring device 34.
- the unwinding assisting controller 51 therefore outputs the acquired height of the movable tube 42 to the unit controller 30 and also to the yarn monitoring device 34.
- the tension sensor 60 includes a deformable member 61 that is made of a metal and is substantially U-shaped. One end of the deformable member 61 is fixed to the winder unit 10. A small pulley-like contact guide 62 is rotatably supported on the other end of the deformable member 61.
- the deformable member 61 includes a load cell portion 63. On the surface of the load cell portion 63, a strain gauge 64 is arranged, for example, by printing. The strain gauge 64 is electrically connected to the unit controller 30 and the yarn monitoring device 34 via a not-shown wiring.
- the deformable member 61 deforms so that strain occurs in the load cell portion 63 in accordance with the tension on the yarn 21.
- the strain gauge 64 outputs an electric signal corresponding to this strain. In this manner, the tension sensor 60 can detect the tension on the yarn 21.
- a yarn guide 70 that guides the yarn 21 that is traversed by the winding drum 29 is explained below. As shown in FIG. 2 , the yarn guide 70 is a trapezoidal metal plate that encompasses the track of the traversed yarn 21.
- a yarn detection sensor 71 is attached to an appropriate position on the yarn guide 70.
- the yarn detection sensor 71 is an optical sensor with a light emitter and a light receiver, and detects the presence/absence of the yarn 21 in a detection area of the yarn detection sensor 71.
- the position of the yarn detection sensor 71 is shifted toward one side of the yarn guide relative to the center of a stroke of the yarn 21 traversed along the traverse groove 27 (traverse stroke).
- the yarn detection sensor 71 is electrically connected to the unit controller 30 and the yarn monitoring device 34 via a not-shown wiring.
- the unit controller 30 can determine whether traversing of the yarn 21 is normally performed, or more specifically, whether the yarn 21 is detected at every predetermined traverse cycle, based on the detection signal output by the yarn detection sensor 71.
- a later-explained yarn monitoring controller 81 arranged in the yarn monitoring device 34 determines and controls a timing of cutting the yarn 21 in relation to the traversing of the yarn 21, based on the detection signal of the yarn detection sensor 71.
- the yarn monitoring controller (determining section) 81 arranged in the yarn monitoring device 34 includes hardware such as a CPU that functions as a calculating unit and a ROM and a RAM that function as storage sections, and software such as control programs stored in the RAM.
- the hardware and the software work in conjunction such that the yarn monitoring controller 81 controls the yarn monitoring device 34.
- the yarn irregularity sensor 37 is electrically connected to the yarn monitoring controller 81.
- a yarn thickness irregularity signal (first information) output by the yarn irregularity sensor 37 is input into the yarn monitoring controller 81.
- the cutter 39 (specifically, the solenoid that drives the cutting blade) is electrically connected to the yarn monitoring controller 81. The cutter 39 is operated to cut the yarn 21 upon receiving a cutter operation signal (control signal) output by the yarn monitoring controller 81.
- the yarn monitoring device 34 includes a drum pulse receiving section 82, a yarn detection receiving section 83 (binary receiving section), a tension receiving section (analog value receiving section) 84, and a movable tube height receiving section (communication receiving section) 85.
- the drum pulse signals output by the drum rotation detection sensor 73 are input into the yarn monitoring device 34 via the drum pulse receiving section 82.
- Yarn detection signals output by the yarn detection sensor 71 are input into the yarn monitoring device 34 via the yarn detection receiving section 83.
- Tension signals output by the strain gauge 64 are input into the yarn monitoring device 34 via the tension receiving section 84.
- Movable tube height signals output by the unwinding assisting controller 51 are input into the yarn monitoring device 34 via the movable tube height receiving section 85.
- All the above information is directly input into the yarn monitoring device 34 from their respective sources (the drum rotation detection sensor 73, the yarn detection sensor 71, the strain gauge 64, and the unwinding assisting controller 51), and stored in the storage section such as the RAM to be used in the determination and control function performed by the yarn monitoring controller 81. Furthermore, all the above information is also input into the unit controller 30 to be used in the control function performed by the unit controller 30.
- the information acquired from the yarn detection sensor 71, the strain gauge 64, and the unwinding assisting controller 51 correspond to second information of the present invention.
- the drum pulse receiving section 82 and the yarn detection receiving section 83 acquire information pertaining to the presence/absence of the pulse or the presence/absence of the yarn 21 as a binary value.
- the tension receiving section 84 acquires the tension on the yarn 21 as an analog value.
- the movable tube height receiving section 85 acquires the height of the movable tube 42 through digital communication with the unwinding assisting controller 51.
- the yarn monitoring controller 81 performs three control functions to realize high performance by the yarn monitoring device 34 and high quality of the package 23.
- the first control function performed by the yarn monitoring controller 81 is a timing control of yarn cutting upon detection of a yarn defect.
- the yarn monitoring controller 81 of the yarn monitoring device 34 monitors whether the yarn 21 has a defect while the winder unit 10 is driving the winding drum 29 to wind the yarn 21.
- the signal output by the yarn irregularity sensor 37 and the drum pulse signal input from the drum rotation detection sensor 73 are used. Based on these signals, an extent of variation in the thickness of the yarn 21 and a length of the irregular portion of the yarn 21 are assessed.
- the yarn monitoring controller 81 monitors the presence/absence of a yarn defect and finds a yarn defect, the yarn monitoring controller 81 does not operate the cutter 39 immediately upon detecting the yarn defect. Instead, the yarn monitoring controller 81 operates the cutter 39 at a predetermined timing when a traverse position of the yarn 21 is about to return to the traverse center from a traverse edge. Specifically, in the yarn guide 70, the yarn 21 crosses the detection area of the yarn detection sensor 71 when the yarn path is heading toward one traverse edge from the traverse center, and again crosses the detection area of the yarn detection sensor 71 after the yarn path reverses at the traverse edge and heads toward the traverse center. Accordingly, in one traverse stroke, the yarn detection sensor 71 outputs two yarn detection signals. Upon receiving the second yarn detection signal, the yarn monitoring controller 81 outputs the cutter operation signal to operate the cutter 39 to cut the yarn 21.
- the yarn 21 is cut by the cutter 39 by aiming at a predetermined timing when the yarn path is heading toward the traverse center from a traverse edge in a traverse stroke. Accordingly, yarn end missing, in which the yarn 21 moves out and overshoots the winding width of the package 23 due to the momentum caused by the cutting, can be prevented. Because the yarn detection signal output by the yarn detection sensor 71 is directly input into the yarn monitoring device 34 (yarn monitoring controller 81) as explained above, even if the yarn 21 is being traversed at high speed, the yarn 21 still can be cut at the accurate timing, thereby reliably preventing the yarn end missing.
- the second control function performed by the yarn monitoring controller 81 pertains to control of detection of an error in the thickness of the yarn 21.
- the yarn monitoring controller 81 detects the error when the yarn 21 wound around the supply bobbin 20 that is set in the yarn supplying section 25 is of an unintended thickness (having a different yarn count than normal).
- the yarn monitoring controller 81 monitors the thickness of the yarn 21 detected by the yarn irregularity sensor 37 and also monitors the tension signal received from the strain gauge 64 of the tension sensor 60. If the tension on the yarn 21 and the thickness of the yarn 21 meet any of the conditions (1) to (3) described below, the yarn monitoring controller 81 outputs the cutter operation signal to operate the cutter 39 to cut the yarn 21.
- the yarn monitoring controller 81 also outputs a winding suspension signal to the unit controller 30 to suspend the winding operation and displays an appropriate warning. Accordingly, in this control function, the cutter operation signal and the winding suspension signal correspond to the control signals output by the yarn monitoring controller 81.
- the yarn monitoring controller 81 detects that the yarn 21 (supply bobbin 20) has an unintended thickness under the following conditions: (1) when a detected tension on the yarn 21 is below a predetermined threshold value; (2) when the thickness of the yarn 21 is detected to be thinner than a predetermined threshold value even though the detected tension on the yarn 21 is normal; and (3) when the thickness of the yarn 21 is detected to be not thinner than the predetermined threshold value even though the detected tension on the yarn 21 is greater than the predetermined threshold value.
- the yarn 21 tends to be thin.
- the detected tension on the yarn 21 is smaller than the threshold value, the yarn 21 tends to be thick.
- the third control function performed by the yarn monitoring controller 81 pertains to detection of a yarn defect with respect to hairiness of the yarn 21.
- a yarn defect As is commonly known, when the yarn 21 is unwound from the supply bobbin 20, as the amount of the yarn 21 remaining on the supply bobbin 20 decreases, the hairiness of the yarn 21 increases.
- the yarn monitoring controller 81 is monitoring the yarn defect based on the output from the yarn irregularity sensor 37, information pertaining to the height of the movable tube 42 of the unwinding assisting device 31 is also input into the yarn monitoring controller 81.
- the height of the movable tube 42 is lowered in accordance with the height of the chase portion of the supply bobbin 20 as explained above, the height of the movable tube 42 corresponds to the amount of the yarn 21 remaining on the supply bobbin 20. Taking into account the fact that the hairiness of the yarn 21 increases as the height of the movable tube 42 becomes lower, the threshold value of the yarn thickness for detecting a yarn defect can be varied. In the control according to the present embodiment, the information pertaining to the height of the movable tube 42 indicates the hairiness of the yarn 21.
- the yarn monitoring device 34 accurately detects a yarn defect that ought to be eliminated, by taking a tendency of hairiness of the yarn 21 into account.
- the yarn monitoring device 34 includes a not-shown casing in which the yarn irregularity sensor 37 and the yarn monitoring controller 81 are housed.
- the yarn monitoring device 34 includes the yarn irregularity sensor 37 and the yarn monitoring controller 81.
- the yarn irregularity sensor 37 monitors the yarn 21 wound by the automatic winder 1 (winder unit 10).
- the yarn monitoring controller 81 performs the determination function based on the information acquired from the yarn irregularity sensor 37 and the information pertaining to the traverse position of the yarn 21 acquired from the yarn detection sensor 71 of the winder unit 10, and outputs the cutter operation signal.
- the yarn monitoring controller 81 performs the determination function based on the information pertaining to the tension on the yarn 21 acquired from the strain gauge 64 of the tension sensor 60 and the information pertaining to the height of the movable tube 42 acquired from the unwinding assisting controller 51, and outputs the cutter operation signal and/or the winding suspension signal.
- the yarn monitoring device 34 monitors the yarn 21, controls the cutter 39 and such-like, not based solely on the information pertaining to the thickness of the yarn 21 but also on additional information. Furthermore, the information is input into the yarn monitoring device 34 with a minimal time lag, and the yarn monitoring device 34 itself (specifically, the CPU arranged in the yarn monitoring device 34) performs the determination function based on the information. Accordingly, the yarn monitoring device 34 can perform an appropriate determination function and a control function at an appropriate timing even at high winding speed or even when the information varies at very short durations.
- the yarn monitoring device 34 includes the yarn detection receiving section 83 to receive the yarn detection signal from the yarn detection sensor 71.
- the yarn monitoring device 34 includes the tension receiving section 84 to receive the tension signal from the strain gauge 64 of the tension sensor 60, and the movable tube height receiving section 85 to receive the movable tube height signal from the unwinding assisting controller 51.
- the information output by the yarn detection sensor 71 and such-like, can be appropriately input into the yarn monitoring device 34.
- the yarn detection receiving section 83 of the yarn monitoring device 34 receives, as a binary value, whether the traverse position of the yarn 21 is in the detection area of the yarn detection sensor 71.
- the tension receiving section 84 receives the tension signal from the strain gauge 64 of the tension sensor 60 as an analog value.
- the movable tube height receiving section 85 acquires the movable tube height signal from the unwinding assisting controller 51 through digital communication.
- the yarn monitoring device 34 acquires the information from the yarn detection sensor 71 and such-like, in a manner that is appropriate for the signal format.
- the yarn monitoring device 34 includes the cutter 39 that cuts the yarn 21.
- the yarn monitoring controller 81 outputs the control signal that controls the operation of the cutter 39.
- the yarn monitoring device 34 can cut the yarn 21 by the cutter 39 at the intended accurate timing even if the monitored yarn 21 is being wound at high speed.
- the automatic winder 1 includes the yarn monitoring device 34 and the winding section 26 that winds the yarn 21, which has been monitored by the yarn monitoring device 34, to form the package 23.
- the automatic winder 1 includes the winder unit 10 that includes the winding section 26, and the unit controller 30 that controls the winder unit 10.
- the yarn detection signal (information indicating the traverse position of the yarn 21) output by the yarn detection sensor 71 is input into each of the yarn monitoring device 34 and the unit controller 30.
- the tension signal output by the strain gauge 64 of the tension sensor 60 is input into each of the yarn monitoring device 34 and the unit controller 30.
- the movable tube height signal output by the unwinding assisting controller 51 is also input into the yarn monitoring device 34 and the unit controller 30.
- the yarn irregularity sensor 37 can be an optical-type sensor as explained above, or alternatively, an electrostatic capacitance sensor that detects the thickness of the yarn 21 based on the variation in the electrostatic capacitance.
- the structure such as the yarn detection sensor 71 is presented as a status acquiring section.
- the status acquiring section can have any structure if it can acquire any of the tension on the yarn 21, the position of the movable tube 42, the traverse position of the yarn 21, and the hairiness of the yarn 21.
- the yarn 21 can be traversed by the traverse guide that is driven to run to and fro, instead of the traverse groove 27.
- the information pertaining to the position of the traverse guide can be input, in place of the detection result obtained by the yarn detection sensor 71, into the yarn monitoring device 34.
- the package 23 can be directly driven to rotate, instead of being driven to rotate via the winding drum 29.
- rotation information e.g., the number of rotations or rotation speed
- a motor that drives the package 23 to rotate can be input into the yarn monitoring device 34.
- the unwinding assisting controller 51 can acquire the height of the movable tube 42 by, for example, an ultrasonic sensor, instead of using the details of the control performed by the lifting and lowering motor 50.
- a tension sensor that uses a spring and/or a piezoelectric element can be used instead of the load cell-type tension sensor 60.
- an optical sensor that can directly measure the hairiness of the yarn 21 can be employed instead of using the information pertaining to the height of the movable tube 42 to determine the hairiness of the yarn 21, and signals generated by this optical sensor can be input into the yarn monitoring device 34.
- the yarn monitoring controller 81 performs three control functions. However, this is merely an example; any of the three control functions can be changed or omitted in accordance with the intended use of the automatic winder 1.
- the drum pulse receiving section 82 can also be omitted.
- the control signal output by the yarn monitoring controller 81 need not be limited to the operation signal of the cutter 39 and the winding suspension signal.
- the control signal can be a signal for illuminating a lamp arranged on the winder unit 10, a signal for sounding a buzzer, or an alarming signal sent to the unit controller 30 and/or the machine controller 11.
- the yarn monitoring device 34 according to the present invention can be installed in other yarn winding machines, such as an air spinning frame and an open-end spinning frame.
- the unwinding assisting device 31 (the unwinding assisting member 42) and/or the yarn detection sensor 71 can be omitted.
- the yarn monitoring device 34 performs the determination function based on the first information and also on the position of the unwinding assisting member 42 in the unwinding assisting device 31 as the second information, the yarn detection sensor 71 and/or the tension sensor 60 can be omitted.
- the tension sensor 60 and/or the unwinding assisting device 31 can be omitted.
- a yarn monitoring device includes a sensor and a determining section.
- the sensor monitors a yarn that is being wound by a yarn winding machine.
- the determining section performs a determination based on first information acquired from the sensor and second information acquired from a status acquiring section of the yarn winding machine, and outputs a control signal based on the determination.
- the second information acquired by the determining section includes at least one of a position of an unwinding assisting member in an unwinding assisting device arranged in the yarn winding machine, and hairiness of the yarn.
- the yarn monitoring device monitors the yarn and performs the control function with high accuracy based not solely on the first information acquired from the sensor but also on the second information acquired from the status acquiring section. Furthermore, the second information is input into the yarn monitoring device with a minimal time lag so that the yarn monitoring device itself performs the determination function. Accordingly, the yarn monitoring device can perform appropriate determination function and control function at an appropriate timing even when the yarn winding machine performing winding at a high winding speed or when the second information that can vary at very short durations is used.
- the yarn monitoring device further includes a receiving section that receives the second information from the status acquiring section.
- the second information can be appropriately received from the status acquiring section. Furthermore, because the second information is directly input into the yarn monitoring device, a significantly enhanced real-time determination and control functions can be realized.
- the receiving section is at least one of a communication receiving section that acquires the second information from the status acquiring section through digital communication, an analog value receiving section that acquires the second information from the status acquiring section as an analog value, and a binary receiving section that acquires the second information from the status acquiring section as a binary value.
- the second information output by the status acquiring section can be acquired in a manner that is appropriate for the output format of the second information.
- the yarn monitoring device further includes a cutter capable of cutting the yarn.
- the determining section outputs as the control signal a signal that causes the cutter to operate and cut the yarn.
- the yarn monitoring device further includes a housing that houses the sensor and the determining section.
- a yarn winding machine preferably includes the above yarn monitoring device and a winding section that winds the yarn, which has been monitored by the yarn monitoring device, to form a package.
- the yarn winding machine further includes a yarn winding unit and a unit controller.
- the yarn winding unit includes the winding section.
- the unit controller controls the yarn winding unit.
- the second information output by the status acquiring section is input into each of the yarn monitoring device and the unit controller.
- the second information can be effectively utilized in both the monitoring of the yarn and the control of the yarn winding unit.
Landscapes
- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Quality & Reliability (AREA)
- Filamentary Materials, Packages, And Safety Devices Therefor (AREA)
- Spinning Or Twisting Of Yarns (AREA)
Claims (8)
- Dispositif de surveillance de fil comprenant:un capteur (37) adapté pour surveiller un fil (21) qui est bobiné par une machine de bobinage de fil (10);un segment de détermination (81) adapté pour effectuer une détermination sur base d'une première information acquise du capteur (37) et d'une deuxième information acquise d'un segment d'acquisition d'état (51; 64; 71) de la machine de bobinage de fil (10), et sortir un signal de commande sur base de la détermination; etun moyen de coupe (39) adapté pour couper le fil (21), où le segment de détermination (81) est adapté pour sortir, comme signal de commande, un signal qui fait que le moyen de coupe (39) fonctionne et coupe le fil (21),dans lequel la deuxième information acquise par le segment de détermination (81) comporte au moins l'une parmi une position d'un élément d'assistance au déroulement (42) dans un dispositif d'assistance au déroulement (31) disposé dans la machine de bobinage de fil (10), et la filandrosité du fil (21),dans lequel la première information indique une épaisseur du fil (21), dans lequel le segment de détermination (81) est adapté pour sortir le signal de commande lorsque la première information indique un défaut de fil,caractérisé par le fait qu'une valeur de seuil d'épaisseur pour détecter un défaut de fil est modifiée sur base de la deuxième information.
- Dispositif de surveillance de fil selon la revendication 1, comprenant par ailleurs un segment de réception (82, 83, 84, 85) adapté pour recevoir la deuxième information du segment d'acquisition d'état (51; 64; 71).
- Dispositif de surveillance de fil selon la revendication 2, dans lequel le segment de réception est au moins l'un parmi un segment de réception de communication (85) adapté pour acquérir la deuxième information du segment d'acquisition d'état (51) par l'intermédiaire d'une communication numérique, un segment de réception de valeur analogique (84) adapté pour acquérir la deuxième information du segment d'acquisition d'état (64) comme valeur analogique, et un segment de réception binaire (83) adapté pour acquérir la deuxième information du segment d'acquisition d'état (71) comme valeur binaire.
- Dispositif de surveillance de fil selon la revendication 1, dans lequel la deuxième information comporte par ailleurs une position transversale du fil et dans lequel le segment de détermination (81) est adapté pour sortir le signal de commande lorsque la première information indique que le fil présente un défaut et lorsque la deuxième information indique que le fil (21) se déplace dans une direction allant d'un bord transversal à un centre transversal dans une course transversale du fil (21).
- Dispositif de surveillance de fil selon la revendication 1, dans lequel la deuxième information comporte par ailleurs une tension sur le fil (21) et dans lequel le segment de détermination (81) est adapté pour sortir le signal de commande- lorsque la deuxième information indique que la tension détectée sur le fil est inférieure à une valeur de seuil de tension prédéterminée,- lorsque la deuxième information indique que la tension détectée sur le fil (21) est normale tandis que la première information indique que l'épaisseur du fil est inférieure à une valeur de seuil d'épaisseur prédéterminée, ou- lorsque la deuxième information indique que la tension détectée sur le fil est supérieure à une valeur de seuil prédéterminée tandis que la première information indique que l'épaisseur du fil (21) n'est pas inférieure à la valeur de seuil d'épaisseur prédéterminée.
- Dispositif de surveillance de fil selon l'une quelconque des revendications 1 à 5, comprenant par ailleurs un logement adapté pour loger le capteur (37) et le segment de détermination (81).
- Machine de bobinage de fil comprenant:le dispositif de surveillance de fil (34) selon l'une quelconque des revendications 1 à 6; etun segment de bobinage (26) adapté pour enrouler le fil (21) qui a été surveillé par le dispositif de surveillance de fil (34), pour former un parquet (23).
- Machine de bobinage de fil selon la revendication 7, comprenant par ailleurs:une unité de bobinage de fil (10) qui comporte le segment de bobinage (34); etun moyen de commande d'unité (30) adapté pour commander l'unité de bobinage de fil (10),dans lequel la deuxième information sortie par le segment d'acquisition d'état (51; 64; 71) est entrée dans chacun parmi le dispositif de surveillance de fil (34) et le moyen de commande d'unité (30).
Applications Claiming Priority (2)
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JP2012160031A JP2014019541A (ja) | 2012-07-18 | 2012-07-18 | 糸監視装置及び糸巻取機 |
EP13173588.8A EP2687469B1 (fr) | 2012-07-18 | 2013-06-25 | Dispositif de surveillance de fil et machine de bobinage de fil |
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EP13173588.8A Division-Into EP2687469B1 (fr) | 2012-07-18 | 2013-06-25 | Dispositif de surveillance de fil et machine de bobinage de fil |
EP13173588.8A Division EP2687469B1 (fr) | 2012-07-18 | 2013-06-25 | Dispositif de surveillance de fil et machine de bobinage de fil |
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EP2998257A1 EP2998257A1 (fr) | 2016-03-23 |
EP2998257B1 true EP2998257B1 (fr) | 2017-04-05 |
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EP13173588.8A Active EP2687469B1 (fr) | 2012-07-18 | 2013-06-25 | Dispositif de surveillance de fil et machine de bobinage de fil |
EP15193388.4A Active EP2998257B1 (fr) | 2012-07-18 | 2013-06-25 | Dispositif de surveillance de fil et machine de bobinage de fil |
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EP13173588.8A Active EP2687469B1 (fr) | 2012-07-18 | 2013-06-25 | Dispositif de surveillance de fil et machine de bobinage de fil |
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EP (2) | EP2687469B1 (fr) |
JP (1) | JP2014019541A (fr) |
CN (3) | CN103569794B (fr) |
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JP2015140252A (ja) * | 2014-01-30 | 2015-08-03 | 村田機械株式会社 | 糸状態表示装置、糸処理装置、及び、糸状態表示方法 |
DE102014011938A1 (de) * | 2014-08-12 | 2016-02-18 | Saurer Germany Gmbh & Co. Kg | Verfahren und Vorrichtung zum Vermeiden von Bildwicklungen beim Wickeln einer Kreuzspule |
CN104555596A (zh) * | 2014-12-17 | 2015-04-29 | 范县瑞祥纺织有限公司 | 一种纺织用智能绕线设备 |
JP2016138354A (ja) * | 2015-01-28 | 2016-08-04 | 有限会社ハラダ | 繰糸装置の小枠停止機構 |
JP2017132597A (ja) * | 2016-01-28 | 2017-08-03 | 村田機械株式会社 | 糸監視装置、糸巻取機、及び自動ワインダ |
JP2018002328A (ja) * | 2016-06-27 | 2018-01-11 | 村田機械株式会社 | 繊維機械 |
JP2018065658A (ja) * | 2016-10-19 | 2018-04-26 | 村田機械株式会社 | 糸巻取装置及びパッケージの回転停止方法 |
EP3569538A1 (fr) * | 2017-01-13 | 2019-11-20 | Murata Machinery, Ltd. | Dispositif de commande de coupe de fil, dispositif de surveillance de fil et dispositif d'enroulement de fil |
JP2018162137A (ja) | 2017-03-24 | 2018-10-18 | 村田機械株式会社 | 糸巻取機 |
JP2018162135A (ja) | 2017-03-24 | 2018-10-18 | 村田機械株式会社 | 糸巻取機 |
JP2018177447A (ja) | 2017-04-11 | 2018-11-15 | 村田機械株式会社 | 条件表示装置、及び糸巻取機 |
EP3672895B1 (fr) * | 2017-08-23 | 2022-03-02 | Oerlikon Textile GmbH & Co. KG | Procédé et dispositif de texturation d'un fil synthétique |
JP2020203781A (ja) * | 2019-06-19 | 2020-12-24 | 村田機械株式会社 | 糸巻取装置及び自動ワインダ |
CN111593449B (zh) * | 2020-01-20 | 2021-06-18 | 武汉裕大华纺织有限公司 | 一种智能细纱管理系统 |
CN114426222B (zh) * | 2022-01-25 | 2024-04-09 | 无锡市鼎麒新材料科技有限公司 | 一种展宽经纱恒张力放卷的实时扭矩计算方法 |
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Also Published As
Publication number | Publication date |
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CN103569794A (zh) | 2014-02-12 |
EP2687469B1 (fr) | 2018-01-10 |
JP2014019541A (ja) | 2014-02-03 |
CN108975070B (zh) | 2020-10-09 |
EP2998257A1 (fr) | 2016-03-23 |
EP2687469A3 (fr) | 2015-04-22 |
CN108163626B (zh) | 2019-11-01 |
EP2687469A2 (fr) | 2014-01-22 |
CN108163626A (zh) | 2018-06-15 |
CN103569794B (zh) | 2018-05-22 |
CN108975070A (zh) | 2018-12-11 |
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