EP1031524A2 - Vorrichtung zum Aufwickeln eines Fadens - Google Patents

Vorrichtung zum Aufwickeln eines Fadens Download PDF

Info

Publication number: EP1031524A2
Authority: EP; European Patent Office
Prior art keywords: contact roller; contact; package; bobbin; winding
Prior art date: 1999-02-26
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 Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.): Withdrawn

Application number

EP00103006A

Other languages

English (en)

French (fr)

Other versions

EP1031524A3 (de

Inventor

Satoshi Nomura

Masakatsu Hasegawa

Katsufumi Muta

Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)

Murata Machinery Ltd

Original Assignee

Murata Machinery Ltd

Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)

1999-02-26

Filing date

2000-02-14

Publication date

2000-08-30

1999-02-26 Priority claimed from JP11050955A external-priority patent/JP2000247545A/ja

1999-02-26 Priority claimed from JP05095499A external-priority patent/JP3339448B2/ja

2000-02-14 Application filed by Murata Machinery Ltd filed Critical Murata Machinery Ltd

2000-08-30 Publication of EP1031524A2 publication Critical patent/EP1031524A2/de

2002-07-03 Publication of EP1031524A3 publication Critical patent/EP1031524A3/de

Status Withdrawn legal-status Critical Current

Images

Classifications

- 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
- B65H54/40—Arrangements for rotating packages
- 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
- B65H54/40—Arrangements for rotating packages
- B65H54/42—Arrangements for rotating packages in which the package, core, or former is rotated by frictional contact of its periphery with a driving surface
- 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
- B65H54/40—Arrangements for rotating packages
- B65H54/52—Drive contact pressure control, e.g. pressing arrangements
- 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 apparatus that forms a package by winding a man-made filament yarn around a bobbin, and more particularly to an apparatus that prevents damage to the yarn by softening the severe spike in contact pressure that occurs during the initial stages of winding when a contact roller that is initially held away from the bobbin is brought into contact with the package.
a yarn winding apparatus forms a package by winding a man-made filament yarn around a bobbin held on a freely rotating bobbin holder.
the winding speed of the yarn is held constant by controlling the rotary speed of the bobbin holder.
this control is facilitated by provision of a contact roller that rotates in contact with the surface of the package in order to stabilize the package.
the rotary speed of the contact roller is used for feedback control to control the rotary speed of the bobbin holder.
gap winding In one method, the contact roller is held a predetermined distance away from the bobbin at the start of winding, and passively comes into contact with the bobbin as the wound package grows in diameter. In the other method, the contact roller is held away from the bobbin for a predetermined amount of time from the start of winding, after which time it is actively brought into contact with the package.
control of the bobbin holder rotary speed must be based on a pre-programmed function that estimates the bobbin holder rotary speed needed to match the winding speed during the initial winding period, and only after the yarn package has reached a predetermined size or a predetermined amount of time has passed can the machine switch to control based on actual rotary speed measurements of the contact roller.
the contact roller In order to obtain the highest quality yarn and to prevent the bobbin holder from accelerating too quickly, the contact roller must be introduced into contact with the package, but since in the first prior art gap winding method contact begins after the package reaches a certain size, it is difficult to predict the exact time at which contact will begin, and there is a great danger that the apparatus will switch to feedack control at the wrong time.
the rotary speed of the bobbin holder In contrast to the rotary speed of the contact roller, which is ideally a constant speed, the rotary speed of the bobbin holder must be slowly reduced as the package grows larger in order to maintain a constant winding speed (i.e. to keep the periphery of the package rotating at a constant speed). In order to precisely control this gradual reduction in speed, feedback control is performed based on the speed of the contact roller. But during the initial stages of winding, since the speed of the package cannot be measured, the bobbin must be rotated according to a predetermined function. As the package grows during the initial stages of winding, when the package is not in contact with the contact roller, it can be extremely difficult to accurately pre-set the speed of the bobbin holder to match the actual peripheral speed of the package. Consequently, at the moment the roller and package make contact, the peripheral speed of the package often varies from the yarn production speed.
a yarn winding apparatus comprises a freely rotatable bobbin holder upon which a bobbin is set, a package of yarn formed around the bobbin, a contact roller that contacts said package, and a holding mechanism that holds said contact roller a predetermined distance away from said bobbin, wherein said holding mechanism draws the contact roller towards said package, and wherein said holding mechanism is provided with a means for operating an elastic counter-force in a direction opposed to that in which said contact roller is drawn.
the elastic counter-force means is an elastic, compressable space holding member.
the elastic counter-force means any be further provided with a control means for controlling the force with which the contact roller is held in order to adjust the pressure with which the contact roller contacts the package, wherein control means brings the contact roller into contact with the package by controlling the force with which the contact roller is held.
a yarn winding apparatus that comprises a freely rotatable bobbin holder onto which a bobbin is placed, a yarn package wound around said bobbin, a contact roller that contacts said package, a rotary driving means that drives said bobbin holder, a rotary driving means that drives said contact roller, and a controller that controls the rotary driving of said bobbin holder and said contact roller, the apparatus comprised such that the distance of separation between the bobbin holder and the contact roller are adjustable, characterized in that the controller controls the rotary speed of the bobbin holder based on a predetermined function at the start of winding, when the contact roller and the bobbin are held in a non-contact state; switches rotary driving control of the bobbin
the adjustment of the function is based on the disparity between the rotary speed command values given to the bobbin holder rotary driving means after control has been switched, and the estimated rotary speed command values based on the function.
the yarn winding apparatus of the present invention may additionally comprise a holding force control means for controlling the force with which the contact roller is held, and wherein the switching of rotary driving control of the bobbin holder is performed based on signals to change the holding force output by the holding force control means.
Figure 1 and Figure 2 show the outlined structure of a take up winder 1 that winds continuously supplied synthetic melt-spun yarn (man-made filament yarn) around a bobbin 2, forming a package 3.
Figure 1 shows the apparatus during normal operation
Figure 2 shows the apparatus when it first begins winding.
the yarn winding apparatus 1 is provided with two freely rotatable bobbin holders 4a, 4b, each bobbin holder supporting a plurality of individual bobbins 2, and with a contact roller 5 capable of contacting the yarn packages 3 formed by the yarns wound around the bobbins 2 on the top bobbin holder 4a.
One of the bobbin holders 4a is in the winding position, and the other bobbin holder 4b is in the stand-by position.
the apparatus is capable of automatically switching the positions of the bobbin holders, simultaneously switching the bobbin holder in the winding position (in this case, 4a) with the bobbin holder in the stand-by position (in this case, 4b).
a traverse mechanism and a yarn mounting mechanism are also provided, but not shown in the drawings.
the bobbin holders 4a, 4b are movably attached to the frame 6 of the apparatus 1.
the contact roller 5 is attached to a slide box 7, which is attached to the frame 6 so that it can be elevated or lowered therefrom.
the distance between the contact roller 5 and the bobbin holder in the winding position (in this case, 4a) can be adjusted by elevating or lowering the slide box 7. Movement of the slide box 7 is guided by a slide shaft 8 arranged on the frame 6.
a holding force control means 9 controls the amount of contact force between the contact roller 5 and the package 3 by controlling the amount of force with which the contact roller 5 is held.
This holding force control means 9 may be comprised, as shown in the present embodiment, as a holding force controller (an air cylinder, for example) engaged with a piston shaft 10 that extends upwards from frame 6 to the inside of a cylinder chamber 11 arranged inside the slide box 7, a compressed air supply source 12 that supplies compressed air towards the cylinder chanter 11, and a pressure adjusting device 13 that controls the supply of compressed air.
the holding force control means 9 could then adjust the amount of force with which the contact roller 5 is held by controlling the air pressure of the compressed air supplied to the cylinder chanter 11. For example, reducing air pressure would make the slide box 7 heavier, increasing the downward force exerted by the contact roller 5 towards the surface of the bobbin 2. In other words, the force with which the contact roller 5 is held would decrease, thereby increasing the contact pressure. Alternatively, increasing the air pressure would increase the force buffeting the slide box 7, increasing the force with which the contact roller 5 is held, thereby reducing the contact pressure.
the bobbin holder 4a is rotationally driven by a motor 14a
the contact roller 5 is rotationally driven by a motor 14c.
the rotary speeds of the two motors 14a, 14c are controlled by a pair of sensors 15a, 15c, and a controller 16.
the sensor 15a measures the rotary speed of the bobbin holder 4a
the sensor 15c measures the rotary speed of the contact roller 5.
the second bobbin holder 4b in the standby position is comprised similarly to the bobbin holder 4a in the winding position, and is driven by its own motor, and provided with its own sensor.
the control unit 16 any employ inverters 17a, 17c and a regulator 18, and be provided with a setting unit to set the various parameters needed to control the winding process.
the regulator 18 is provided with a number of units that provide various functions needed to control the winding process. These units include a first timer unit, a second timer unit, a gap winding control unit, a feedback control unit, a control switching unit, a formula storage unit, and an adjustment processing unit. The functions of these units will be explained below.
the pressure adjusting device 13 which serves as a holding force control means for adjusting the contact pressure exerted by the contact roller 5 against the package 3, may be comprised as a multi-stage valve as shown in Figure 4A.
a multi-stage valve one or more of a plurality of pressure reducing valves and opening valves can be selectively opened or closed to adjust the pressure of the compressed air supplied to the cylinder chamber 11. Adjusting the supply pressure changes the force with which the contact roller 5 is held.
Figure 4A shows an arrangement of three pressure reduction valves 19a, 19b, 19c, and three opening valves 20a, 20b, 20c, operable to provide three levels (light, moderate, and heavy) of contact pressure (i.e. force with which the contact roller 5 is held).
Figure 4B shows an alternative arrangement in which the pressure adjusting device 13 employs an electro-pneumatic regulator. In such case, pressure can be freely adjusted, and is not restricted to pressure" levels.”
the winding process performed by the yarn winding apparatus 1 is controlled such that, during normal winding, as shown in Figure 1, when the yarn is wound around the surface of the bobbin 2 on the bobbin holder 4a to form the package 3, the contact roller 5 is brought into contact with the surface of the package 3 and exerts a predetermined force against the package 3.
the speed of the contact roller 5 is controlled such that it matches the yarn production speed, and such that those speeds are held constant.
the package 3 grows larger in diameter, requiring the rotary speed of the bobbin holder 4a to be gradually decreased in order to maintain a constant winding speed, i.e. to keep the peripheral speed of the package 3, with which the contact roller 5 is in contact, constant.
the speed reduction is controlled by PI-type or similar feedback control based on the rotary speeds of the bobbin holder 4a and the contact roller 5 detected by the sensors 15a, 15c, respectively.
the contact roller 5 is held at a predetermined distance away from the bobbin 2.
the gap winding process continues until the the package of yarn around the bobbin reaches a predetermined thickness.
the rotary speed of bobbin holder 4a must be gradually reduced in order to maintain a constant winding speed, but since feedback control using the rotary speed of the contact roller 5 cannot be performed during the gap winding process, control is performed instead such that the rotary speed of the contact roller 5 is reduced based on a predetermined function estimating the reduction in speed of the bobbin holder 4a.
the time it takes for the package 3 to reach the predetermined thickness is estimated, and the force with which the contact roller 5 is held is reduced at the point when the estimated appropriate amount of time from the start of winding has elapsed.
some time after that control of the rotary speed of the bobbin holder 4a is switched from control based on the predetermined function to PI feedback control based on the rotary speed of the contact roller 5 for the duration of winding.
the apparatus 1 of the present embodiment employs a elastic holding means 21 that exerts elastic counter-force upwards against the slide box 7, in other words, in the opposite direction from that in which the contact roller 5 approaches the bobbin 2, when the force supporting the contact roller 5 is reduced, lowering the slide box 7 and bringing the contact roller 5 into contact with the surface of the bobbin 2.
the elastic holding means 21 include the plate spring of Figure 5, the coil spring shown in Figure 6, and the rubber body of Figure 7. This elastic holding means 21 is arranged between the slide box 7 and the frame 6 such that it presses upward from the frame 6 to the slide box 7.
These elastic holding means 21 serve as space holding members that can be compressed in the direction in which the contact roller 5 approaches the bobbin 2.
Alternative embodiments of the elastic holding means 21 include a spring arranged on top of the slide box 7, that applies force in an upward direction, lifting the slide box 7 upwards.
the elastic holding means 21 any alternatively be comprised as a pneumatic or hydraulic device using hydraulic or pneumatic force.
the elastic holding means 21 should preferably be comprised such that elastic countervailing force is exerted upwards against the slide box 7 only when, during gap winding, the contact roller 5 and the bobbin 2 are separated by a predetermined distance (1mm, for example). Additionally, an elastic force-applying space holding member may also be provided in order to stabilize the position at which the contact roller 5 is held providing a predetermined amount of force against the space holding member.
the elastic holding means 21 is comprised such that as the distance between the contact roller 5 and the bobbin 2 becomes smaller, the amount by which the elastic holding means 21 is compressed increases, thereby increasing the elastic countervailing force.
the load exerted by the holding force control means to hold the contact roller 5 (a predetermined air pressure) is reduced, and when the contact roller 5 is brought into contact with the package 3, elastic countervailing force is applied, supplementing the force with which the contact roller 5 is held.
This enables the severe spike in contact pressure between the contact roller 5 and the package 3 to be restrained when the contact roller 5 is brought into contact with the package 3, as shown in the graph in Figure 12.
the contact pressure at the time of contact can be set to 0 or to any fraction the normal winding pressure, thus allowing the contact pressure at the contact time to be optimally set for various different winding conditions with relative ease.
the normal 1mm gap winding setting can be adjusted by varying the amount of force with which the contact roller 5 is held.
the elastic holding means 21 is comprised as a space holding meter, as shown in Figure 5 ⁇ Figure 7, its structure can be greatly simplified.
the contact pressure can be gradually raised to the normal winding contact pressure as the package grows in size (see Figure 12). In fact, the present invention allows the period between the moment of contact between the contact roller 5 and the package 3 and the point at which the contact pressure reaches the normal winding pressure to be adjusted.
the holding force control means 9 is comprised as the pressure adjusting device 13 as shown in Figure 4A
the opening valve 20c which sets the holding force to maximum
the holding force control means 9 is turned ON.
the pre-set pressure of the compressed air used by the holding force control means 9 can then be reduced during gap winding, since the slide box 7, which holds the contact roller 5, receives elastic countervailing force directed upwards from the elastic holding means 21. This then makes it easy to hold the contact roller 5 in the gap winding position.
the presence of the elastic holding means 21, which is in contact with the slide box 7, enables the distance of separation between the contact roller 5 and the bobbin 2 to be stabilized.
the elastic holding means 21 be comprised as a spring.
Gap winding control is performed by a first timer unit, a gap winding controller, and function storage unit (see Figure 3), which are provided in the regulator 18 inside the controller 16.
the first timer counts the time from the start of winding until the end of the gap winding process (i.e. it counts the gap winding period).
the timer outputs a signal to the pressure adjusting device 13 of the holding force control means 9 indicating that the force with which the control roller 5 is held should be changed.
the gap winding time is pre-calculated and pre-stored as a function of the package thickness.
the gap winding controller controls the rotary speed of the motor 14a that drives the bobbin holder 4a. During gap winding, the controller decreases the rotary speed of the motor 14a based on a function stored in the function storage unit.
the package 3 formed on the bobbin 2 grows larger, reaching a predetermined thickness, as shown in Figure 10A.
the first timer outputs a holding force change signal to the pressure adjusting device 13, reducing the holding force of holding force control means 9.
the contact roller 5 is brought into contact with the package 3, as shown in Figure 10B.
the reduction in holding force may be accomplished, for example, by opening the second valve 20b of the pressure adjusting means 13 shown in Figure 4.
the slide box 7 receives an elastic countervailing force from the elastic holding means 21, which restrains the contact pressure between the contact roller 5 and the package 3.
the force changing signal output by the first timer is also output to the control changing unit, which changes control of the motor 14a for the bobbin holder 4a to feedback control via the feedback control unit.
Feedback control unit controls the rotary speed of the motor 14a based on the rotary speed of the control roller 5 detected by the sensor 15c.
the actual form of this control may be the PI control or the like.
the control method may be switched immediately upon contact between the contact roller 5 and the package 3, or may begin after a predetermined amount of time has elapsed therefrom.
the contact roller 5 since the contact roller 5 is actively brought into contact with the package 3, the determination of exactly when to make the switch from rotating the package at an estimated, pre-set rotary speed to rotating it under feedback control based on the detected rotary speed of the contact roller 5 can be made even more precisely.
the motor 14a that rotates the bobbin holder 4a is controlled by the gap winding control unit based on a function stored in the function storage unit such that the speed of the bobbin holder is gradually reduced.
the function used to control this speed reduction is shown below as function X.
the initial value of the winding density ⁇ may be set to best suit the type of yarn used (polyester, nylon, etc.), or it may be set according to the traverse angle.
the contact roller 5 When the contact roller 5 is brought into contact with the package 3 from its gap winding position, there are times when the actual thickness of the package 3 differs from the pre-set package thickness, resulting in a disparity between the peripheral speed of the package 3 and the rotary speed of the contact roller 5.
One reason for this is that during yarn winding, particularly during gap winding, it is extremely difficult to maintain a precisely constant yarn tension.
the winding density may vary from its pre-set value.
the package thickness may change as well.
the present invention therefore employs the following method in order to correct such disparities between the peripheral speed of the package being wound according to the programmed function and the actual yarn production speed.
the rotary speed of the bobbin holder 4a is controlled based on the stored function X.
the rotary speed command values given to the motor 14a for the bobbin holder 4a during this period are indicated in line n1.
time T1 when the contact roller 5 is brought into contact with the package 3, or alternatively at a predetermined amount of time shortly thereafter, rotary speed control of the bobbin holder 4a is switched to feedback control. If at this point there is a difference between the peripheral rotation speeds of the contact roller 5 and the package 3, the changes in rotary speed command values over time after switching over to feedback control may appear as indicated in curve n2.
a compensating means is provided in order to eliminate this speed difference.
the compensation means compares the rotary speed command values MV P1 that are actually output to the motor 14a for the bobbin holder 4a with the estimated rotary speed command values MV cal calculated by the pre-programmed function X.
the compensation means then changes the winding density ⁇ in the function X based on the amount of disparity between the two values.
This compensation means is arranged inside the regulator 18.
the control switching unit which receives the holding force change signals from the first timer, switches control over motor 14a to feedback control, and outputs control switching signals to the second timer. After receiving the control switching signals, the second timer counts a predetermined amount of time (a few seconds, for example). After the predetermined amount of time has elapsed, the compensating unit calculates the proper amount by which the winding density ⁇ in Function X should be compensated, and then overwrites the function stored in the function storage unit with a new function that uses the calculated compensation amount.
⁇ n MV p1 2 ⁇ (MV 0 2 - MV cal 2 ) MV cal 2 ⁇ (MV 0 2 - MV p1 2 ) ⁇ ⁇ n-1
winding density ⁇ will be adjusted each time winding is carried out, it should be noted that such adjustments may be performed only once per specified number of windings.
the estimated rotary speed command values output to the motor 14a for the bobbin holder 4a are shifted over subsequently performed windings from the n1 curve in Figure 11 represented by the dotted line towards the n0 winding curve that corresponds to the actual winding values.
the original disparity in peripheral speed at the moment of contact between the contact roller 5 and the package 3 on the bobbin holder 4a can be reduced each time the adjustment is performed.
the initial disparity between the peripheral rotary speeds of the contact roller 5 and the package 3 can be substantially eliminated.
the present invention enables the peripheral speed of the contact roller 5 to substantially match that of the package 3 at them moment the contact roller 5 is introduced to the package 3, thereby preventing damage to the yarn and yarn breakage.
a ceiling be set on the absolute value of the compensation amount calculated using function A. It is preferable to set the ceiling because if the calculated value is very high, it is quite likely that there is an abnormality in the yarn winding apparatus. Extremely large compensation values may influence subsequent calculations and result in a succession of erroneous, abnormally high calculations. Further, when the compensation amount is abnormally high, it may result in repetitive yarn breakage or other problems. Thus, setting an upper limit on the compensation amount helps prevent abnormal yarn density compensation values in successive yarn windings. Additionally, restricting the size of the compensation amount allows faster elimination of the disparity between the estimated rotary speed of the bobbin holder and the actual yarn production speed. Moreover, the present invention may be comprised such that calculated compensation amounts that exceed a predetermined level are ignored, or so that such excessive values trigger an alarm, since this would tend to indicate a malfunction or abnormality with the apparatus.
control over the motor 14a is switched from control based on the function of the estimated rotary speed to feedback control when the contact roller 5 is brought into contact with the package 3 at the end of gap winding.
This switch-over may be set to occur upon the output of signals instructing the force with which the contact roller 5 is held to be changed.
the contact roller 5 begins to be lowered towards the package 3 until they make contact. Consequently, by setting the switch to feedback control to occur an appropriate predetermined amount of time after output of the holding force changing commands, the moment at which the contact roller 5 makes contact with the package 3 and the moment at which the control is switched over can be easily synchronized.
the presence of the elastic holding means 21 between the frame 6 and the slide box 7, which holds the contact roller 5, the position at which the slide box 7 comes to rest during gap winding can be stabilized, and the amount of time it takes for the contact roller 5 to be lowered into contact with the package 3 can be made constant.
synchronization of contact between the contact roller 5 and the package 3, and the switch to feedback control of the motor 14a can be made more precise.
timer-based control is preferable to other methods, such as use of a sensor. Due to problems with the sensor's ability to accurate detect the moment of contact between the contact roller 5 and the package 3, switchover to feedback control will almost always occur after the nunent of contact.
a setting unit is arranged in the controller 16 for controlling the operation of the winding device.
Predetermined parameters and a predetermined winding program may be input into the setting unit.
Factors that can be input into the setting unit include function X, the yarn extrusion amount Q, traverse width W, bobbin radius R, the initial winding density value ⁇ o as well as yarn winding speed V o , contact roller contact pressure, the contact roller gap width at the start of winding, and the timing period between the start of gap winding and the switch to feedback control. It should also be apparent that the rotary speed of the bobbin holder ⁇ o , the winding speed setting V o , and the radius R of the bobbin are all calculated automatically.
the winding density compensation amount is calculated each time yarn winding is performed, it may be displayed on a screen, by computer print out, or by similar method. Providing a display means for the winding density compensation amount then allows this value to be operator to continuously monitored by a machine operator.
the yarn winding apparatus of the present invention is provided with an elastic holding means that exerts elastic countervailing force when the contact roller is drawn towards the package, the severe spike in contact pressure exerted by the contact roller against the package when contact is initiated after gap winding is greatly reduced. Consequently, adverse effects on the yarns of the bobbin when the contact roller is brought into contact with the package can be substantially eliminated, damage to the yarn and yarn breakage can be greatly reduced.
the distance (the gap width) between the contact roller and the bobbin is nearly the exact separation setting. This makes it much easier to estimate the amount of time it takes front the point when the contact roller begins to be lowered toward the package until the contact roller and the package actually make contact. Consequently, the change from gap winding to normal winding position and the switch of rotary control of the bobbin holder to feedback control can be more accurately synchronized.
the function used to control the winding speed of the bobbin holder during gap winding is adjusted each time the winding process is performed, the disparity in peripheral rotary speeds between the contact roller and the package when the contact roller and the package are first moved from the gap winding position to the normal winding position can be reduced with each successive winding, eventually substantially eliminating this difference. Consequently, it is eventually possible to nearly match the peripheral rotary speeds of the contact roller and the package when they are shifted from gap winding to normal winding positions, and damage to the yarn as well as yarn breakage can be greatly reduced. Further, sudden changes in the rotary speed of the bobbin holder that occur when switching to feedback control when the contact roller is brought into contact with the package can be prevented by compensation of the stored winding function.
a fifth aspect of the yarn winding apparatus of the present invention since the rotary speed command value given to the bobbin holder rotary driving means is used to adjust the function used in the estimates to control the rotary speed of the bobbin holder, control that is significantly less complicated and more reliable than compensation based on detection of the actual rotary speed of the bobbin holder can be achieved.
the moment that signals directing a change in the holding force of the holding force control means are output is used to determine the point at which control of the bobbin holder is switched to feedback control, the moment feedback control is switched over can be accurately synchronized to the moment the contact roller makes contact with the package.

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Winding Filamentary Materials (AREA)

EP00103006A 1999-02-26 2000-02-14 Vorrichtung zum Aufwickeln eines Fadens Withdrawn EP1031524A3 (de)

Applications Claiming Priority (4)

Application Number	Priority Date	Filing Date	Title
JP11050955A JP2000247545A (ja)	1999-02-26	1999-02-26	糸巻取装置
JP5095499		1999-02-26
JP5095599		1999-02-26
JP05095499A JP3339448B2 (ja)	1999-02-26	1999-02-26	糸巻取装置

Publications (2)

Publication Number	Publication Date
EP1031524A2 true EP1031524A2 (de)	2000-08-30
EP1031524A3 EP1031524A3 (de)	2002-07-03

Family

ID=26391449

Family Applications (1)

Application Number	Title	Priority Date	Filing Date
EP00103006A Withdrawn EP1031524A3 (de)	1999-02-26	2000-02-14	Vorrichtung zum Aufwickeln eines Fadens

Country Status (1)

Country	Link
EP (1)	EP1031524A3 (de)

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US5023281A (en) *	1984-06-11	1991-06-11	Morton International, Inc.	Microbiocidal compositions comprising an aryl alkanol and a microbiocidal compound dissolved therein
US5028619A (en) *	1984-06-11	1991-07-02	Morton International, Inc.	Microbiocidal compositions comprising an aryl alkanol and a microbiocidal compound dissolved therein
CN105780162A (zh) *	2016-04-01	2016-07-20	三河市浩运盛跃碳纳米科技有限公司	纤维预处理装置

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JPS58152763A (ja) *	1982-03-04	1983-09-10	Toray Eng Co Ltd	巻取機
US4548366A (en) *	1982-05-17	1985-10-22	Rieter Machine Works, Ltd.	Chuck drive system
JPS6061464A (ja) *	1983-09-16	1985-04-09	Murata Mach Ltd	巻糸機におけるロ−ラベ−スの移動制御装置
EP0580548A1 (de) *	1992-07-23	1994-01-26	Maschinenfabrik Rieter Ag	Verfahren und Vorrichtung zum Aufspulen eines Fadens
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2000
- 2000-02-14 EP EP00103006A patent/EP1031524A3/de not_active Withdrawn

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number	Priority date	Publication date	Assignee	Title
US5023281A (en) *	1984-06-11	1991-06-11	Morton International, Inc.	Microbiocidal compositions comprising an aryl alkanol and a microbiocidal compound dissolved therein
US5028619A (en) *	1984-06-11	1991-07-02	Morton International, Inc.	Microbiocidal compositions comprising an aryl alkanol and a microbiocidal compound dissolved therein
CN105780162A (zh) *	2016-04-01	2016-07-20	三河市浩运盛跃碳纳米科技有限公司	纤维预处理装置

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EP1031524A3 (de)	2002-07-03

Publication	Publication Date	Title
US5499772A (en)	1996-03-19	Winding operation control method and apparatus for automatic winder
JP5005686B2 (ja)	2012-08-22	二重制御ループ方法及び一定張力での繊維機械への糸の供給を確保する装置
US5437417A (en)	1995-08-01	Device for winding a web
US5826774A (en)	1998-10-27	Wire tensioner for dynamo-electric machine coil winder
EP2105399B1 (de)	2012-05-02	Garnwicklungsvorrichtung und Garnwicklungsverfahren
EP3371083B1 (de)	2019-08-07	Vorrichtung und verfahren zur regelung der wickelspannung als funktion des spulendurchmessers
EP3336864B1 (de)	2020-08-26	Vorrichtung für automatische drahtspannungsanpassungen während verschiedener stufen von wickelmaschinen zum wickeln von elektrischen spulen
BR112014010364B1 (pt)	2020-10-20	sistema e método para suprir um fio metálico desenrolado de uma bobina a uma máquina
EP1031524A2 (de)	2000-08-30	Vorrichtung zum Aufwickeln eines Fadens
JP2519792Y2 (ja)	1996-12-11	自動ワインダの巻取ユニット
US6195856B1 (en)	2001-03-06	Method and device for warping with a cone sectional warper
JP2018131301A (ja)	2018-08-23	糸巻取機
US6405968B2 (en)	2002-06-18	Bobbin winding machine
US6045084A (en)	2000-04-04	Method of winding an advancing yarn to form a yarn package
US5462239A (en)	1995-10-31	Method and apparatus for winding a yarn onto a bobbin tube
JP3339448B2 (ja)	2002-10-28	糸巻取装置
US11377761B2 (en)	2022-07-05	Spinning apparatus, air spinning apparatus in particular, with continuous adjustment of a yarn accumulation system and related method of continuous adjustment of a yarn accumulation system in a spinning apparatus
US6123283A (en)	2000-09-26	Automatic winding machine
JP2000247545A (ja)	2000-09-12	糸巻取装置
EP1598295B1 (de)	2009-10-07	Vorrichtung und Verfahren zur Bildung einer Fadenreverve in Textilmaschinen wie Spinnmaschinen, Texturierungmaschinen, Merzerisierungsmaschinen oder dergleichen
JP2002226136A (ja)	2002-08-14	糸巻取装置及び糸巻取方法
EP1187301B1 (de)	2006-10-04	Drahtsensor einer Maschine zum Wickeln der Spule einer dynamoelektrischen Maschine
JP7384840B2 (ja)	2023-11-21	糸群を仕掛けるための方法および装置
JP2001253635A (ja)	2001-09-18	糸巻取装置
NO744555L (de)	1975-07-14

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EP1031524A2 - Vorrichtung zum Aufwickeln eines Fadens - Google Patents

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