Claims
- 1. A method for automatically controlling motion of a plurality of rotary ring devices in a textile machine during a period for producing a plurality of full packaged cops, said textile machine having a plurality of spindles and a mechanism for controlling a common rotational speed of said spindles according to a predetermined program by which said common rotational speed is forced to change during said period, said plurality of rotary ring devices being arranged along an alignment of spindles in cooperation with respective ones of said spindles, individual ones of said rotary ring devices having a rotary ring member capable of coaxially rotating with a corresponding spindle, a magnetic bearing rotatably supporting said rotary ring member, a traveller capable of running on a circular running trace formed by said rotary ring member, and means for electrically controlling braking action of said magnetic bearing so that a rotational speed of said rotary ring member is controlled, comprising
- (a) initially setting a control program of a variable ratio between a standard rotational speed of rotary ring members of a group of rotary ring devices and said common rotational speed of said spindles, in a condition that the rotational speed of respective ones of said rotary ring members does not exceed a rotational speed of said traveller,
- (b) continuously detecting said common rotational speed of said spindles and the rotational speed of each one of said rotary ring members of said group of rotary ring devices,
- (c) computing a desired rotational speed for said respective ones of said rotary ring members by multiplying said variable ratio by said detected common rotational speed of said spindles, where said ratio is defined as an exact time when the rotational speed of the respective ones of said rotary ring members is detected,
- (d) comparing said detected rotational speed of the respective ones of said rotary ring members with said desired rotational speed of said rotary ring members of said group of rotary ring devices,
- (e) electrically adjusting braking action of said magnetic bearing of said rotary ring members of said group of rotary ring devices when said comparison indicates that the rotational speed of said rotary ring member of said rotary ring device is outside a predetermined acceptable range of control whereby said rotational speed of said rotary ring member is controlled to satisfy said predetermined acceptable range of control.
- 2. Method for automatically controlling the motion of a rotary ring device according to claim 1, further comprising
- continuously detecting a yarn tension regarding each one of said rotary ring devices of said group as a measure for judging an operation condition of said textile machine,
- automatically calculating an average yarn tension based upon detected yarn tensions regarding said group of rotary ring devices,
- electrically controlling said braking action of said magnetic bearings of said rotary ring devices of said group until said average yarn tension returns into a predetermined allowable range independently from said control of the rotational speed of said rotary ring member based upon said predetermined program for changing said common rotational speed of said spindles,
- said predetermined program from changing said common rotational speed of said spindles being made based upon said allowable range of said average yarn tension.
- 3. Method for automatically controlling the motion of a rotary ring device according to claim 1, further comprising
- providing a supplemental program to change said variable ratio based upon said predetermined program of said variable ratio in relation to a yarn diameter of said cop during said period for producing a plurality of full packaged cops, said predetermined program for changing said variable ratio being modified by combining said supplemental program with said predetermined program.
- 4. Method for automatically controlling the motion of a rotary ring device according to claim 1, wherein said program for controlling said variable ratio involves zero points which define times for starting and stopping rotation of said rotary ring members.
- 5. Method for automatically controlling the motion of a rotary ring device according to claim 4, wherein said time for starting rotation of said rotary ring member is set to be delayed at least after the start of driving of said spindles, while said time for stopping rotation of said rotary ring member is set to be at least before the stopping of said spindle rotation.
- 6. Method for automatically controlling the motion of a rotary ring device according to claim 1, wherein said variable ratio is set at a value not to exceed 90%.
- 7. Method for automatically controlling the motion of a rotary ring device according to claim 1, wherein said program for controlling said variable ratio is established in a condition,
- in a period until said common rotational speed of spindles is elevated from zero to the maximum speed thereof, except for an initial period up to a time of starting rotation of said rotary ring member, said rotational speed of said rotary ring member is controlled to a slower speed than said common rotational speed of spindles with its speed increasing at a rate less than an increasing rate of said common rotational speed of spindles,
- in a period in which, after said common rotational speed of spindles reaches its maximum speed, operation of said textile machine is being carried out stably, in a condition that said common rotational speed of spindles reaches the maximum speed thereof, the rotational speed of said rotary ring member is reduced until said yarn tension returns into a predetermined allowable range thereof,
- in a period in which operation of said textile machine is being carried out unstably resulting in frequent yarn breakages, at a time before reducing common rotational speed of spindles from its maximum speed, the rotational speed of said rotary ring member is elevated to a predetermined rotational speed thereof and maintained at said predetermined rotational speed thereof and is then reduced at a rate not less than the reducing rate of said common rotational speed of spindles when said common rotational speed of spindles is reduced to stop the rotation of said spindles, whereby rotation of said rotary ring member is stopped not later than a time of stopping rotation of said spindles.
- 8. A system for automatically controlling motion of a plurality of rotary ring devices in a textile machine, said textile machine having a plurality of spindles and a variable rotational speed control mechanism mounted thereon, at least one ring rail arranged along an alignment of said spindles, said plurality of rotary ring devices being arranged on said ring rail along an alignment of said spindles in cooperation with respective ones of said spindles, individual ones of said rotary ring devices having (i) a holder rigidly mounted on said ring rail in coaxial condition to a corresponding spindle, (ii) a rotary ring member rotatably mounted on said holder in coaxial condition by way of a bearing, (iii) a traveller capable of running on a circular running trace formed by said rotary ring member, and (iv) means for electrically controlling rotational speed of said rotary ring member, said system comprising:
- memory for storing a variable ratio .alpha. between a rotational speed of said rotary ring member and a common rotational speed of spindles,
- means for continuously detecting a common rotational speed of spindles S, means for continuously detecting a rotational speed R of said rotary ring member of each rotary ring device separately,
- means for calculating a desired rotational speed R.sub.j by multiplying said variable ratio .alpha. by said detected common rotational speed of spindles S,
- means for comparing said desired rotational speed R of said rotary ring member detected by said detecting means,
- with said desired rotational speed R.sub.j calculated by said calculation means at an identical time when said rotational speeds of said rotary ring member, and said common rotational speed of said spindles are detected,
- means for electrically controlling said rotational speed of said rotary ring member of a particular rotary ring device wherein an output signal of said comparision means detects a condition in which said detected rotational speed R does not satisfy an allowable condition defined based upon said desired rotational speed R.sub.j of said rotary ring member, whereby said rotational speed of said rotary ring member of said particular rotary ring device is returned to said allowable condition.
- 9. System for automatically controlling the motion of a rotary ring device according to claim 8, wherein said textile machine is provided with a predetermined program for controlling said common rotational speed of spindles over an entire period of carrying out a full packaged cop forming process in relation to controlling said rotational speed of said rotary ring member, said variable ratio .alpha. being selected in relation to said predetermined program for controlling said common rotational speed of spindles, whereby a control program for said variable ratio .alpha. is created in direct relation to said control program for controlling said common rotational speed of spindles.
- 10. System for automatically controlling the motion of a rotary ring device according to claim 9, wherein said bearing of said rotary ring device is a magnetic bearing, said magnetic bearing comprises an annular permanent magnet mounted on said rotary ring member, and an annular body rigidly mounted on said holder and provided with plural electric magnets, with said annular permanent magnet facing said annular body mounted on said holder, said electric magnet functions as said means for electrically controlling said rotational speed of said rotary ring member, whereby a minute annular space is maintained between said annular permanent magnet and said annular body provided with said electric magnets while a magnetic balance between said annular permanent magnet and said annular body in relation to said yarn tension and a weight of said rotary ring member is maintained, said rotary ring member remaining free to rotate, and when said magnetic balance is broken, said annular permanent magnet is brought into contact with said annular body of said rotary ring member so that a braking force against said free rotation of said rotary ring member is created, motion of said rotary ring member being controlled by controlling electric current applied to said electric magnets whereby said rotational speed of said rotary ring member is controlled, while said braking force is eliminated to allow free rotation of said rotary ring member, and rotation of said rotary ring member is forced to stop by bringing said permanent annular magnet into positive contact with said annular holder.
- 11. System for automatically controlling the motion of a rotary ring device according to claim 8, wherein said memory, said calculating means, said comparing means and said electrical control means are assembled as a central control device.
- 12. System for automatically controlling the motion of a rotary ring device according to claim 8, further comprising means for continuously detecting yarn tension as a measure for judging an operating condition of said textile machine, means for comparing detected yarn tension to a predetermined allowable range of said yarn tension, said comparing means for comparing said yarn tension being electrically connected to said means for electrically controlling said rotational speed of said rotary ring members in relation to said means for detecting said yarn tension, whereby when it is detected that said yarn tension is out of said allowable range, rotational speeds of said rotary ring members are changed until said yarn tension returns into said allowable range, instead of changing said common rotational speed of spindles.
Priority Claims (1)
Number |
Date |
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Kind |
1-202129 |
Aug 1989 |
JPX |
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Parent Case Info
This application is a Continuation-in-Part Application of U.S. patent application Ser. No. 08/237,362 filed May 3, 1994, which is a continuation-in-Part application Ser. No. 08/022,426 filed Feb. 16, 1993, which is a Continuation Application of U.S. patent application Ser. No. 07/671,798, filed Aug. 3, 1990, these three applications now abandoned, the disclosures of which are hereby incorporated by reference.
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May 1979 |
JPX |
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JPX |
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Non-Patent Literature Citations (3)
Entry |
Nistico et al, The Textile Research Journal, "A High-Speed Recording Yarn Tensiometer," pp. 99-110 (Feb. 1952). |
"Fuzzy Control and Fuzzy Systems", by W. Pedrycz, Second, Extended, Edition, 1993, published by John Wiley & Sons Inc. |
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Continuations (1)
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Number |
Date |
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Parent |
671798 |
Aug 1990 |
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Continuation in Parts (2)
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Number |
Date |
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Parent |
237362 |
May 1994 |
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Parent |
22426 |
Feb 1993 |
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