US3314620A - Yarn guide - Google Patents

Yarn guide Download PDF

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Publication number
US3314620A
US3314620A US399600A US39960064A US3314620A US 3314620 A US3314620 A US 3314620A US 399600 A US399600 A US 399600A US 39960064 A US39960064 A US 39960064A US 3314620 A US3314620 A US 3314620A
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US
United States
Prior art keywords
yarn
package
guide
winding
strand
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.)
Expired - Lifetime
Application number
US399600A
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English (en)
Inventor
Thomas E Pitts
Richard I Walden
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.)
Leesona Corp
Original Assignee
Leesona Corp
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.)
Filing date
Publication date
Application filed by Leesona Corp filed Critical Leesona Corp
Priority to US399600A priority Critical patent/US3314620A/en
Priority to GB34967/65A priority patent/GB1098583A/en
Priority to DE19651560413 priority patent/DE1560413A1/de
Priority to CH1239465A priority patent/CH434060A/de
Priority to BE670147D priority patent/BE670147A/xx
Application granted granted Critical
Publication of US3314620A publication Critical patent/US3314620A/en
Assigned to JOHN BROWN INDUSTRIES LTD., A CORP. OF DE. reassignment JOHN BROWN INDUSTRIES LTD., A CORP. OF DE. ASSIGNMENT OF ASSIGNORS INTEREST. Assignors: LEESONA CORPORATION; 333 STRAWBERRY FIELD RD., WARWICK, RI. A CORP. OF MA.
Assigned to LEESONA CORPORATION reassignment LEESONA CORPORATION CHANGE OF NAME (SEE DOCUMENT FOR DETAILS). EFFECTIVE DATE 3-31-81 STATE OF DELAWARE Assignors: JOHN BROWN INDUSTRIES LTD.
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Classifications

    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H54/00Winding, coiling, or depositing filamentary material
    • B65H54/02Winding and traversing material on to reels, bobbins, tubes, or like package cores or formers
    • B65H54/40Arrangements for rotating packages
    • B65H54/46Package drive drums
    • B65H54/48Grooved drums
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H57/00Guides for filamentary materials; Supports therefor
    • B65H57/14Pulleys, rollers, or rotary bars
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65HHANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
    • B65H2701/00Handled material; Storage means
    • B65H2701/30Handled filamentary material
    • B65H2701/31Textiles threads or artificial strands of filaments

Definitions

  • This invention relates to yarn guides for textile winding machines and is concerned more specifically with a yarn guide adapted to temporarily engage a moving strand of yarn and, after passage of a predetermined interval, to release the strand.
  • the guide of the invention directing the yarn to the package until normal speed has been reached and then releasing the yarn to the traverse means.
  • the machine upon the thread breakage during the winding operation, the machine was equipped with means for locating both of the free ends of the broken yarn and for delivering these ends to the knotter, which, after re-uniting the ends, released the yarn to the traversing groove of the driving drum, whereby winding could proceed as before.
  • the winding mandrel was moved first to braking position to halt its forward rotation and then to reverse rotation position at which the mandrel was rotated backwardly to allow the delivery end of the broken thread to be extricated from the wound convolutions of the package on the mandrel, engaged by a suitably designed device and delivered to the knotter.
  • the winding mandrel was moved to braking position to halt reverse rotation and then to winding position to reinitiate normal advance of the thread onto the package. All the while these several operations were being performed, the rotation of the grooved driving roll proceeded at full speed with the result that when the thread was released by the knotter, it was immediately engaged by the groove of the roll and traversed back and forth onto the package at the same rate as for normal winding.
  • the timing of the release of the yarn from the knotter substantially coincided with the movement of the winding mandrel to normal winding position, at which stage the winding mandrel had essentially zero speed of rotation and an appreciable interval necessarily had to pass before the mandrel had regained normal operating speed by virtue of frictional contact with the peripheral surface of the driving drum.
  • the yarn was being traversed at the regular rate but was being advanced, at least at the beginning, at a much reduced rate. Consequently, instead of being wound in the usual convolutions upon the package, the yarn was merely zig-zagged in closely spaced loops, i.e., laid in a compressed sinuous pattern, on the package periphery with the period of the loops growing longer and longer until the package had finally achieved normal take-up speed to lay down the convolutions in the normal pattern.
  • All automatic winders must be equipped with means adapted to deal with breakage or other interruption taking place in the strand of yarn during the winding operation. No matter how carefully a strand is processed prior to rewinding into a commercial package, usually referred to in the art as coning, it is virtually impossible to prevent interruptions from occurring; at the very least there will be interruptions between the several supply packages being wound as most commercial packages incorporate the yarn from more than one supply package; consequently, all automatic winders are subject to the basic requirement of being adapted to cope with the strand interruption and to automatically re-unite the strand for continued winding.
  • the yarn is released from the knotter and rests on one end of the tubular guide member rather than immediately engaging the groove of the traverse roll.
  • the yarn being drawn over the tubular guide causes it to rotate at a continually increasing rate.
  • the helical groove causes the yarn to progress from the end of the guide where the yarn initially rested towards the opposite end of the guide.
  • the package has reached normal operating speed, and the yarn passes over the end of the guide, dropping into the endless groove of the traverse roll for normal operation.
  • This novel guide member allows the winding mandrel and package to accelerate from an essentially zero speed to normal rotational speed without the yarn zig-zagging onto the package in closely spaced loops. In subsequent operations using the yarn package, there will be no unexpected slack or slough off which could form snarls or entanglements in parts of the machine.
  • Another object of the present invention is a delayed action yarn guide upon which the yarn is deposited by the knotter of an automatic winding machine, said guide being adapted to retain the yarn thereon until the passage of a selected predetermined interval of time, depending on the size and inertia of the package being wound, to allow the package to achieve normal speed of rotation and then discharge the yarn onto the periphery of a traverse roll for delivery to the normally rotating package.
  • a further object of the invention is an elongated tubular guide having a helical groove on the periphery thereof and supported at one end from the frame of the winding machine for rotation with respect thereto, the lead angle of said groove being inclined forwardly and outwardly toward the supported end, the axis of rotation of the tubular member extending in spaced parallel relationship to the axis of the traverse roll of the machine to maintain the path of the yarn passing over the guide out of the endless groove of the traverse roll, the opposite end of the tubular member terminating within the longitudinal confines of the traverse roll, whereby yarn deposited on the roller between its ends will engage the peripheral helical groove and cause the tubular member to rotate as the yarn advances, the rate of rotation of the member being controlled by a selected amount of braking re sistance and resulting in the yarn being displaced axially of the member away from the supported end and finally dropped off the opposite end onto the traverse roll.
  • An additional object of the invention is a guide adapted to temporarily maintain a moving strand in a position displaced from the normal path thereof, which guide is in the form of an elongated tube, having a helically grooved periphery, mounted for rotation with its axis in spaced apart, substantially transverse relationship to the normal path of one strand, one end of the tube being essentially unconstrained to permit the strand to move off that end and return to its normal path, the direction of the lead angle of the groove relative to the direction of travel of the strand being away from the unconstrained end, means for applying selectively varying amounts of braking resistance to the rotation of the guide whereby passage of the strand over the member causes the member to rotate, the groove shifting the yarn axially toward the unconstrained end for ultimate discharge from the end, the time required for the yarn to reach the unconstrained end depending upon the amount of braking resistance applied.
  • FIGURE 1 is a view in front elevation of the guide of the present invention in operative association with a winding mandrel, and a grooved package driving and yarn traverse roll for the mandrel;
  • FIGURE 2 is an expanded view of the braking device associated with the tubular guide member
  • FIGURE 3 is a side elevation in section of the braking device of FIGURE 2.
  • FIGURE 4 is a transverse view of a part of the braking device taken along the line 4-4 of FIGURE 3.
  • the present guide has utility whenever a moving strand is intended to be temporarily maintained in a position displaced with respect to its normal path and, after an interval of time, permitted to return to its normal path.
  • numeral 10 designates the delivery package being wound upon a conical yarn holder 12 supported on a winding mandrel 14.
  • Mandrel 14 is mounted for rotation upon a shaft 16 which is connected to the remainder of the winding machine (not shown) in such a way as to permit the package to grow in size as the yarn is wound thereupon.
  • the machine is set up for the winding of a conical package or cop but it will be appreciated that other shapes and types of packages could be wound as well by replacing the conical mandrel and yarn holder With other mandrels and holders appropriate to the formation of the particular package desired.
  • Package 10, holder 12, and mandrel '14 are adapted to be rotated by frictional contact of the package surface with the periphery of an elongated cylindrical driving drum or roll 18 disposed upon a shaft 20 for rotation therewith.
  • shaft 20 is subject to constant rotation, the means by which the shaft is driven being omitted here.
  • Drum 18 is provided on its periphery with an endless groove 22 which is adapted to engage the yarn being delivered to package 10 and traverse that yarn back and forth lengthwise of the package, the axis of the drum being disposed, for that reason, generally at right angles to the path of the yarn to package 10.
  • Means are provided for imparting rearward movement to the package from the driving position shown in FIG- URE 1 to a rest position to bring the package to rest when yarn flow is interrupted. This movement is explained in U.S. Patent 2,764,362 but such movement has no bearing on the present subject matter and is not described here. 7
  • bracket 24 Located adjacent the left end (FIGURE 1) of package 10 and drum 18 is a vertically arranged bracket 24 forming a part of the rigid frame of the machine, only the upper end of that bracket being visible in the drawings. Attached to this end of bracket 24 is a yarn knotter 26 comprising a box-like housing containing the operative mechanism of the knotter. The details of the knotter form no part of the present invention but may be and preferably are substantially the same as those disclosed and claimed in U.S. Patent 2,670,230 to Goodhue.
  • Support member 39 is secured in position on frame bracket 24 by means of nuts and bolts 31 which pass through the base of the support member 30 and frame bracket 24.
  • a stub shaft 40 has one of its ends embedded in bracket 24 and extends horizontally from said bracket 24 in spaced parallel relationship to the axis of drum 18 at a level spaced vertically above the drum axis.
  • the inner end of stub shaft 40, i.e., the end remote from bracket 24, is spaced horizontally from the end of support member 30, this space extending preferably over a major portion of and within the confines of the drum 18.
  • tubular member 32 Journaled for rotation in the space between support member 30 and bracket 40 is an elongated tubular member 32 formed for example, of a plastic such as nylon and provided on its periphery with a narrow helical groove 34. At its right end (FIGURE 1) tubular member 32 is recessed to receive a concealed thrust bearing (not shown) for supporting tubular member 32 for rotational movement on the end of support member 30. The left end of the tubular member 32 is mounted for rotational movement on stub shaft 40, the details of which will be described later.
  • member 32 with its helically grooved periphery is to receive the re-united thread as it is released from knotter 26, the thread finding its way into a portion of groove 34 and causing the member to rotate by virtue of frictional engagement of the thread with the groove side walls, such rotation, due to the inclination of the groove, gradually advancing the thread along the length of the member until it passes off the right end thereof and descends onto periphery of drum 18 to be engaged by groove 22 and traversed onto package 10.
  • the leading angle of helical groove 34 must be such as to advance the thread to the right toward the free end of member 32. In the arrangement shown in the drawings, the thread passes over and around member 32.
  • Groove 34 must be right hand in character, which is to say that the leading angle of groove 34 extends from right to left in the direction of travel of the yarn.
  • the leading angle of the groove must always be away from, with respect to the direction of the yarn travel, the end of the tubular member from which the yarn is to be discharged. For example, if the yarn in FIGURE 1 were travelling in the opposite direction, i.e., toward the observer, and was to leave off the same end, the lead angle would have to be opposite to that shown; but if it was to leave off the opposite end, the lead angle would be the same.
  • the interval that the thread is retained on member 32 is determined by three conditions: the speed of travel of the yarn, the lead angle of helical groove 34, and the effective length of member 32; that is, the distance on the member between the point at which the yarn is deposited thereon and the end from which the yarn leaves.
  • the member can be designed to retain the thread thereon for varying intervals, these conditions cannot be adjusted to retain the thread for the period of time required for large, heavy packages to attain normal operating speed.
  • the time period can be extended by having a very small lead angle of the helical groove 34, this has substantial limitations, since a certain amount of friction between the yarn must exist and this friction is principally a function of the lead angle helical groove 34.
  • a sleeve 0r enclosing cap 42 is secured by means of a set screw 44 t0 stub shaft 40 at a position such that the tapered end of the stub shaft extends into the large recess in the cap 42.
  • the novel braking device is contained within the large recess of the cap and extends into one end of the tubular guide member 32. It comprises a central core or seating member 46 which has a transverse bore 48 extending through it to receive a coil spring 50 and two ball detents 52.
  • a locking sleeve 54 having a plurality of shallow sockets 56 at predetermined locations along its internal surface is slid over the seating member 46 and detents 52. The locking sleeve 54 can be rotated about seating member 46 and is held against axial displacement by retaining member 53 which is press fitted over the smaller end of the seating member 46.
  • a plurality of pockets or recesses 60 are open to the side surface of the seating member 46.
  • a thrust bearing 62 is press fitted over the thrust bearing, enclosing the open sides of the recesses 60.
  • the recesses 60 each contains a braking segment 68 which is an elongated member having arcuate ends.
  • the segment dimensions are such that the segments will easily enter and fall out of the recesses, but at the same time cannot be rotated about an axis parallel to the axis of the seating member while retained therein.
  • Extending axially from said locking sleeve 54 are a plurality of locking dogs 70 which are equal in number to the number of recesses 60. When the locking sleeve 54 is retained by a set of sockets 56 and detents 52 in a predetermined position, the locking dogs 70 will at least partially cover the entrances to the recesses 60 thereby retaining the braking segments 68 within their respective recesses.
  • the locking dogs 70 are spaced unequal distances from each other such that as said locking sleeve 54 is rotated in one direction about said seating member 46 to successive positions, determined by other sockets 56 into which the detents 52 are pressed, entrances to the recesses 60 will be opened successively, allowing the braking segments 68 to be released from their respective recesses.
  • the four locking dogs 70 are arranged such that upon rotating the locking sleeve counter-clockwise, first the left recess will be opened, followed by the right recess, and finally the top and bottom recesses will be opened simultaneously.
  • the recesses will be closed in the reverse order, pushing the braking segments 68 back into their respective recesses 60. This operation is facilitated by the leading edges of the locking dogs '70 being tapered to cooperate with the arcuate edges of the braking segments 68.
  • the above-described unit is secured to the end of the tubular guide member 32 by press fitting the exterior surface of the retaining member 58 into the tubular guide member and against plug 66.
  • the braking segments 68 secured in their respective recesses by locking dogs 70, the braking device is inserted into the enclosing cap 42 already mounted on the winding machine such that the tapered end of stub shaft 46 passes into thrust bearing 62.
  • the tapered end of support member 30 is then inserted into the thrust bearing in the opposite end of the tubular guide member 32 and the base of support member 36 is secured to the machine by nuts and bolts 31. In this position, the tubular guide member 32 will freely rotate.
  • the operation of the guide member 32 and related braking device are dependent principally upon the count of the yarn being wound, although the size and Weight of the cone packages being wound will be a further consideration.
  • braking of the: tubular guide member 32 will not be necessary, since the yarn of the finer counts has a relatively low coeflicient of friction. Therefore, as these yarns are pulled through the helical groove 34 the mass of the tubular member alone may suffice to retard rotation of the tubular member so that the yarn is delivered axially thereof at a rate sufliciently slow to allow the package 10 to attain its winding speed before the yarn is dropped in groove 22. Under these conditions, the guide member will be operated in a manner identical with that described in US.
  • the tubular member 32 will tend more readily to respond to the frictional pull of the yarn running through groove 34 whereupon the tubular member will rotate faster to deliver the yarn to the traverse roll 18 more quickly.
  • the braking device is placed in operation by inserting a pin in hole 72 through the side of enclosing cap 42.
  • the tubular guide member 32 is then manually rotated until the pin drops into recess 74 in the periphery of locking sleeve 54, thus preventing the locking sleeve from rotating with the tubular guide member 32.
  • the indicium 76 on the exterior surface of the tubular guide member 32 will be in line with the first of the indicia 78 on the enclosing cap 42, the braking segments all being locked in their respective recesses.
  • the tubular guide member may then be manually rotated to cause indicium 76 to line up with any of the other indicia 78.
  • the tubular guide member 32 will be retained in any of these positions by detents 52 which will be pressed into respective sockets 56. As the tubular guide member is rotated away from its initial position, progressively more recesses 60 will be opened as the locking dogs 7% progressively rotate away from the entrances to these recesses. This will allow a progressively larger number of braking segments 68 to partially slip out of their respective recesses 60, the leading arcuate ends of which will come in contact with the internal surface of enclosing cap 42.
  • the number of braking segments which the operator will choose to release will be determined by the count of yarn being wound and the size and consequent inertia of the cone to be wound. The coarser the yarn count and larger and heavier the cone, the greater the number of braking segments which must be released. Conversely, the finer the yarn count and smaller and lighter the cone to be wound, the lesser the number of braking segments which must be released.
  • the yarn will pass over the guide member in the helical groove 34. Friction between the yarn and the helical groove will cause the guide member to rotate, thereby carrying the yarn towards the opposite end of the guide. With braking friction applied through the above-described device, the guide member will be unable to rotate at as fast a rate as it would if it were freely rotating. As a result substantially more yarn will slip through the helical groove and consequently, the yarn will take longer to reach the end of the tubular guide member 32.
  • Braking friction is applied by the arcuate ends of the braking segments which are thrust outwardly by centrifugal force and come in contact with and rub the internal surface of enclosing cap 4-2 as the guide member 32 rotates, the enclosing cap 42 remaining stationary. It can readily be seen that the more braking segments 68 there are in contact with the enclosing cap 42, the more braking friction will be applied, further slowing the rate of rotation of the tubular guide member 32. Conversely, the more braking segments 68 are locked in their respective recesses, the less braking friction will be applied, allowing the guide member 32 to rotate faster and retaining the strand for a lesser period of time.
  • the above-described braking device may be made from any number of suitable materials, including metal or plastic. Nylon has been found to be a preferred material for most of the elements.
  • the braking segments 68 are generally made of metal; bronze has been found well suited for this purpose.
  • the enclosing cap 42 should be made of a hard metal such as steel to withstand the abrading on its internal surface by the braking segments 68.
  • a machine for winding a strand onto a rotating package including a movable traverse member for guiding the strand upon the package, wherein said package is brought from a rest condition up to speed while said traverse member is moving, and a rotatable tubular guide mounted on said machine in spaced relationship to the path of movement of said traverse member, said guide being rotatable to advance the strand toward and over one end of the guide as the guide rotates, said guide being so located that it retains the strand spaced away from the traverse member until the strand passes over the end of the guide, the improvement which comprises, a stationary sleeve member, a seating member within said sleeve member and secured to one end of said tubular guide for rotation therewith, said seating member having at least one recess in its periphery, a braking segment slidably retained in said recess and capable of contacting the interior surface of the sleeve member, whereby the rate of rotation of said tubular guide will be slowed by said
  • said locking means comprises a locking sleeve rotatably mounted on said seating member and having a plurality of locking dogs capable of simultaneously locking any portion including all of said braking segments in their respective recesses by rotating said locking sleeve, whereby the amount of braking friction applied to said rotatable tubular guide may be selected.
  • said braking segment comprises an elongated member having arcuate ends which while retained in said recess is incapable of rotating about an axis parallel to the axis of said seating member.
  • a winding machine as in claim 1 wherein means are provided for locking said braking segment in said recess out of contact with the interior surface of said sleeve.
  • a yarn guide for temporarily maintaining a moving strand in a position displaced from the normal path thereof and for releasing said strand after a selected predetermined interval, said guide comprising a tubular member mounted for rotation at a locus spaced from the normal path of the strand, one end of said member being essentially unconstrained to permit the strand to pass thereover and return to said normal path, said member having on at least a portion of its peripheral surface a spiral groove extending to said unconstrained end to receive and frictionally engage said strand to cause said member to rotate, the direction of said groove being such as to advance the strand, as the member rotates, toward and over the un constrained end of said member, and a braking device comprising a stationary sleeve member, a seating member within said sleeve member and secured to one end of said tubular member for rotation therewith, said seating member having a plurality of symmetrically arranged recesses in its periphery, braking segments slidably retained in said recesses and capable of contacting the interior

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US399600A 1964-09-28 1964-09-28 Yarn guide Expired - Lifetime US3314620A (en)

Priority Applications (5)

Application Number Priority Date Filing Date Title
US399600A US3314620A (en) 1964-09-28 1964-09-28 Yarn guide
GB34967/65A GB1098583A (en) 1964-09-28 1965-08-16 Yarn guide
DE19651560413 DE1560413A1 (de) 1964-09-28 1965-09-02 Fadenfuehrer fuer Spulmaschinen
CH1239465A CH434060A (de) 1964-09-28 1965-09-06 Fadenführer für Spulmaschinen
BE670147D BE670147A (de) 1964-09-28 1965-09-27

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
US399600A US3314620A (en) 1964-09-28 1964-09-28 Yarn guide

Publications (1)

Publication Number Publication Date
US3314620A true US3314620A (en) 1967-04-18

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Application Number Title Priority Date Filing Date
US399600A Expired - Lifetime US3314620A (en) 1964-09-28 1964-09-28 Yarn guide

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US (1) US3314620A (de)
BE (1) BE670147A (de)
CH (1) CH434060A (de)
DE (1) DE1560413A1 (de)
GB (1) GB1098583A (de)

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108861855A (zh) * 2018-04-23 2018-11-23 绵阳聚贤自动化设备有限公司 一种智能排线绕线装置
CN108946299A (zh) * 2018-04-23 2018-12-07 绵阳聚贤自动化设备有限公司 提升式快速绕线设备
CN108946300A (zh) * 2018-04-23 2018-12-07 绵阳聚贤自动化设备有限公司 基于线缆生产中成品打卷的专用设备

Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1158432A (en) * 1914-11-13 1915-11-02 Joseph F Benoit Tension device for winding-machines.
US2519882A (en) * 1948-04-30 1950-08-22 Gen Electric Constant torque device
US2624527A (en) * 1950-06-22 1953-01-06 Kohorn Ralph S Von Thread tensioning device
US2724065A (en) * 1951-03-30 1955-11-15 Erwin J Saxl Magnetic drag for control of yarn tension
GB770037A (en) * 1954-02-13 1957-03-13 Dunlop Rubber Co Apparatus for tensioning filamentary material
US3026063A (en) * 1959-05-25 1962-03-20 American Enka Corp Tensioning device
US3055602A (en) * 1960-05-19 1962-09-25 Leesona Corp Yarn guide with delayed yarn release for winding machines

Patent Citations (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US1158432A (en) * 1914-11-13 1915-11-02 Joseph F Benoit Tension device for winding-machines.
US2519882A (en) * 1948-04-30 1950-08-22 Gen Electric Constant torque device
US2624527A (en) * 1950-06-22 1953-01-06 Kohorn Ralph S Von Thread tensioning device
US2724065A (en) * 1951-03-30 1955-11-15 Erwin J Saxl Magnetic drag for control of yarn tension
GB770037A (en) * 1954-02-13 1957-03-13 Dunlop Rubber Co Apparatus for tensioning filamentary material
US3026063A (en) * 1959-05-25 1962-03-20 American Enka Corp Tensioning device
US3055602A (en) * 1960-05-19 1962-09-25 Leesona Corp Yarn guide with delayed yarn release for winding machines

Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN108861855A (zh) * 2018-04-23 2018-11-23 绵阳聚贤自动化设备有限公司 一种智能排线绕线装置
CN108946299A (zh) * 2018-04-23 2018-12-07 绵阳聚贤自动化设备有限公司 提升式快速绕线设备
CN108946300A (zh) * 2018-04-23 2018-12-07 绵阳聚贤自动化设备有限公司 基于线缆生产中成品打卷的专用设备
CN108946300B (zh) * 2018-04-23 2020-12-29 绵阳聚贤自动化设备有限公司 基于线缆生产中成品打卷的专用设备
CN108861855B (zh) * 2018-04-23 2020-12-29 绵阳聚贤自动化设备有限公司 一种智能排线绕线装置

Also Published As

Publication number Publication date
DE1560413A1 (de) 1970-12-10
CH434060A (de) 1967-04-15
BE670147A (de) 1966-01-17
GB1098583A (en) 1968-01-10

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Owner name: JOHN BROWN INDUSTRIES LTD.; 100 WEST TENTH ST., WI

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Effective date: 19810501

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Owner name: LEESONA CORPORATION

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Effective date: 19810331