EP0012937B1 - Traversing device for yarn winding machines with variable yarn-guiding stroke and stepless collective adjustment of the flange angles of the packages - Google Patents

Traversing device for yarn winding machines with variable yarn-guiding stroke and stepless collective adjustment of the flange angles of the packages Download PDF

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Publication number
EP0012937B1
EP0012937B1 EP19790105113 EP79105113A EP0012937B1 EP 0012937 B1 EP0012937 B1 EP 0012937B1 EP 19790105113 EP19790105113 EP 19790105113 EP 79105113 A EP79105113 A EP 79105113A EP 0012937 B1 EP0012937 B1 EP 0012937B1
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EP
European Patent Office
Prior art keywords
lever
guide rail
arm lever
pivot
traversing device
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
Application number
EP19790105113
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German (de)
French (fr)
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EP0012937A1 (en
Inventor
Heinz Dipl.-Ing. Schippers
Fritz Urbahn
Herbert Streppel
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.)
Oerlikon Barmag AG
Original Assignee
Barmag Barmer Maschinenfabrik AG
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Publication date
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Publication of EP0012937A1 publication Critical patent/EP0012937A1/en
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Publication of EP0012937B1 publication Critical patent/EP0012937B1/en
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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
    • B65H54/28Traversing devices; Package-shaping arrangements
    • B65H54/32Traversing devices; Package-shaping arrangements with thread guides reciprocating or oscillating with variable stroke
    • B65H54/325Traversing devices; Package-shaping arrangements with thread guides reciprocating or oscillating with variable stroke in accordance with growth of the package
    • 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

  • the invention relates to a traversing device on winding devices for threads, tapes or the like according to the preamble of patent claim 1.
  • Such a traversing device is known from DE-B 22 55 065. It also shows a device for jointly setting different flank angles on the bobbins for the entire winding device having a plurality of bobbins.
  • a lever is used in DE-B 22 55 065 as a transmission element, which is articulated on the guide rail for pivoting the thread guide and the actuating rod of the bobbin holding arm and in which - from the increase in the winding diameter on the one hand and the periodic back and forth Movement of a common push rod for changing the winding structure on the other hand - resulting adjusting forces for pivoting the guardrail can be initiated.
  • a disadvantage of the known arrangement is that the push rod, through which the adjusting forces from the periodic back-and-forth movement of the respiratory control are introduced into the lever, must constantly perform an oblique movement because the sliding block can only be moved between the inclined surfaces of the catch rail. However, guiding such a movement is structurally difficult.
  • Another disadvantage of the known device is the mechanical wear which necessarily occurs between the catches of the sliding block and the catches of the fixed catch rail and the associated increased effort for maintenance, downtime and downtime of the winding devices. Finally, it is felt to be disadvantageous that the flank angle on the coils cannot be adjusted continuously but only gradually between the provided catches of the catch rail.
  • the guidance of the connecting rod connected to the sliding block is also difficult in this embodiment, since it moves obliquely during its back and forth movement - due to the displacement of the sliding block on the wedge surface of the slide.
  • the flank angle on the coils is also adjusted in stages by adjusting the slide on the bars of the catch rail.
  • the object of the invention is to provide a traversing device on winding devices of the type specified in the preamble of claim 1 in such a way that the disadvantages of the known devices with regard to the guidance of the obliquely moved push rod are avoided, and that for all winding positions of the winding devices the flank angles of the coils simultaneously and can be continuously adjusted.
  • the specified solution also uses a lever arrangement to transmit the adjustment forces from the changes in diameter on the coils and breathing (periodic reciprocating movement of the push rod to influence the coil structure).
  • the lever in the known device is firmly articulated at its end remote from the pivot point and the sliding block has to be displaced by changing the geometric distance between the pivot point and its support surface in order to bring about a change in the flank angle of the coils
  • the subject of the invention is one at a Support rod movably mounted in the direction of the pivoting movement of the lever, which is arranged between the lever and the guide rail and whose distance to the pivot point of the lever is adjustable by the displacement of the guide rod.
  • a major advantage of the present arrangement is that the push rod of the cam control with which the coil assembly be is influenced, is moved back and forth alone to maintain breathing and the adjusting forces are transmitted to the support surface of the lever by a sliding block attached to the push rod.
  • the guide of the push rod in the winding device is therefore very easy to carry out.
  • the intermediate member between the possible end positions on the lever can be brought into any position between its free end and the support of the cam control. This means that any desired flank angle of a spool can be set collectively for all spool positions.
  • FIG. 1 shows a traversing thread guide 1 in a winding device for textile threads, tapes, glass fibers, wires or similar linear structures, of which only the parts essential for the present invention are shown.
  • a winding device for textile threads, tapes, glass fibers, wires or similar linear structures, of which only the parts essential for the present invention are shown.
  • several winding devices are arranged next to one another and, if necessary, one above the other in the associated textile machines, such as spinning, winding, twisting or texturing machines.
  • the thread guide 1 is attached to an angle lever 2, which is pivotally attached to a plate 3.
  • the plate 3 is driven, for example, via a pin 4 by a reversing thread roller (not shown) and a boat-shaped sliding block which is reciprocated in its reversing thread groove and is guided in a straight line by a guide rod 5.
  • the plate 3 could also be firmly connected to the guide rod 5, while the guide rod 5 is moved back and forth in a different, suitable manner by a traversing mechanism such as a cam, eccentric disc, etc.
  • the angle lever 2 is also guided by a roller 6, which is rotatably arranged at its other end, in a guide rail 9, which guide rail can be pivoted about the pin 8 rotatable in the bearing 7.
  • the guide rail 9 preferably has a U-shaped cross section for lateral guidance of the roller 6.
  • the position of the guide rail 9 during the traversing is decisive for the length of the traversing stroke, i.e. the traversing stroke remains constant during the winding cycle if the position of the guide rail 9 also remains unchanged during the entire winding cycle.
  • the position of the guide rail 9 is adjusted on the one hand depending on the growing diameter of the spool 10 via the spool lever arm (not shown) pivoting away from the friction roller and an actuating device 12 connected to it, for example, by the Bowden cable 11.
  • the actuating device 12 acts here to transmit the adjusting force to a one-armed lever 13, which is connected at 13.1 to the breathing lever 14 described later.
  • the adjusting force of the coil lever arm as the coil diameter grows is introduced at pivot point 13.2 at one end of the one-armed lever 13.
  • the part of the one-armed lever 13 between which the sum of the adjusting forces is transmitted to the guide rail 9 is designated 13.3.
  • the adjusting force generated by the breathing control of the winding device is additionally introduced into the one-armed lever 13, namely by the breathing lever 14 of the cam control 14 to 17.
  • This breathing lever 14 has a contact surface 14.1 and is pivoted at its other end on a pivot axis 15 on the machine frame.
  • the one is pivotably mounted on its connecting joint 13.1 on the breathing lever 14.
  • the textile machine has a push rod 16 which is guided parallel to the longitudinal direction of the machine and is driven and is moved back and forth during the bobbin travel according to a predefinable program. On this push rod 16 - according to the division of the winding positions in the textile machine - cams 17 are fastened, which have a support surface 17.1.
  • the bearing surface 14.1 of the breathing lever 14 is pressed against this supporting surface in a force-locking manner.
  • the support member 18 located between the one-armed lever 13 and the transmission lever 19, by its adjustment in the machine longitudinal direction according to the invention for all Winding positions of the desired flank angle
  • Coils 10 is collectively adjustable, is pivotally mounted on a guide rod 20 parallel to the push rod 16 or longitudinal axis of the machine on a pin 20.1. All support members 18 are arranged analogously to the cams 17 fastened on the push rod 16 at intervals, corresponding to the winding position division, on the guide rod 20.
  • the guide rod 20 itself is mounted together with the push rod 16 in a guide 21 fastened to the machine frame.
  • the support member 18 with the push-off roller 18.1 provided at its end is displaced between the one-armed lever 13 and the transmission lever 19, the distance between the connecting joint 13.3 to place the power transmission from a greatest distance to a smallest distance (shown as an invisible pressure roller) is changeable.
  • the pressing roller 18.1 is located above the connecting joint 13.1 of the one-armed lever 13, cylindrical coils are wound, while in all other positions of the pressing roller 18.1 coils with conical flanks are wound up to the greatest possible distance of the pressing roller 18.1 from the connecting joint.
  • the force transmitter is arranged beyond the lever system.
  • Fig. 2 differs from the embodiment of Fig. 1 essentially solely by the design of the transmission system for the adjusting forces of the spool arm and breathing control on the guide rail 90 of the traversing device.
  • the one-armed lever 130 is articulated at its one end in the pivot point 132 to the actuating device 120 of the coil lever arm.
  • Its support surface 131 is designed as a projection 134 with a convex shape and bears against the cam surface 171 of the sliding block 170.
  • the support surface 131 shifts only slightly as a result of the rolling movement of the projection 134 on the cam surface 171.
  • the adjustment force of the breathing control transmitted by the sliding block 170 is introduced into the one-armed lever 130 via the projection 134.
  • the support member 180 which is pivotably mounted on the guide rod 200 is arranged, but which, according to the exemplary embodiment of FIG. 2, transmits the adjusting forces directly to the guide rail 90 and the guardrail may be pivoted about the pivot bearing 70 as the coil diameter increases.
  • the support member 180 can also, as described above, be moved, for example, between the two indicated end positions, as a result of which the flank angle of the coil 10 can be continuously adjusted from a minimum biconus angle to an angle of 90 ° for cylindrical cross-wound bobbins.
  • the constant transmission ratio of the adjusting forces on the one-armed lever 130, that is, once set for the selected flank angle is advantageously used.
  • the slight displacement of the contact line of the support surface 131 of the one-armed lever 130 on the cam surface 171 can be compensated for by the shape of the support member 180.
  • the guide rail 90 is not pivoted when the support member 180 has been moved to the position shown in dashed lines and its contact surface has been eroded over the support line 131 of the one-armed lever 130.
  • This position of the support member 180 is provided for cylindrical cross-wound bobbins, while all other positions between this and the other end position result in bobbins 10 with different conical flank angles.

Landscapes

  • Winding Filamentary Materials (AREA)

Description

Die Erfindung bezieht sich auf eine Changiervorrichtung an Aufwickelvorrichtungen für Fäden, Bändchen oder dergleichen nach dem Oberbegriff des Patentanspruchs 1.The invention relates to a traversing device on winding devices for threads, tapes or the like according to the preamble of patent claim 1.

Eine derartige Changiereinrichtung ist aus der DE-B 22 55 065 bekannt. Sie zeigt weiterhin auch eine Einrichtung zur gemeinsamen Einstellung unterschiedlicher Flankenwinkel an den Spulen für die gesamte, mehrere Spulstellen aufweisende Aufwickelvorrichtung. Hierzu wird bei der DE-B 22 55 065 als ,Übertragungsglied ein Hebel verwendet, der an der Leitschiene für die Schwenkung des Fadenführers und der Betätigungsstange des Spulenhaltearmes angelenkt ist und in dem die - aus dem Anwachsen des Wickeldurchmessers einerseits und der periodischen Hin- und Herbewegung einer gemeinsamen Schubstange für die Änderung des Wickelaufbaus andererseits - resultierenden Verstellkräfte zur Verschwenkung der Leitschiene eingeleitet werden. Bei der DE-B 22 55 065 ist dieser Hebel auf einem Kulissenstein abgestützt, der mit der allen Spulstellen gemeinsamen Schubstange verschiebbar ist und der entsprechend dem gewünschten Flankenwinkel an den Spulen in verschiedene Stellungen einer Rastenschiene eingerastet werden kann. Je nach Stellung des Kulissensteins werden dabei die geometrischen Längenverhältnisse am Hebel durch Verschiebung der Abstütztfläche des Kulissensteins am Hebel zwischen dessen Gelenken verändert.Such a traversing device is known from DE-B 22 55 065. It also shows a device for jointly setting different flank angles on the bobbins for the entire winding device having a plurality of bobbins. For this purpose, a lever is used in DE-B 22 55 065 as a transmission element, which is articulated on the guide rail for pivoting the thread guide and the actuating rod of the bobbin holding arm and in which - from the increase in the winding diameter on the one hand and the periodic back and forth Movement of a common push rod for changing the winding structure on the other hand - resulting adjusting forces for pivoting the guardrail can be initiated. In DE-B 22 55 065 this lever is supported on a sliding block which can be moved with the push rod common to all winding units and which can be snapped into different positions of a catch rail on the coils in accordance with the desired flank angle. Depending on the position of the sliding block, the geometric length ratios on the lever are changed by moving the support surface of the sliding block on the lever between its joints.

Nachteilig bei der bekannten Anordnung ist es, dass die Schubstange, durch welche die Verstellkräfte aus der periodischen Hin- und Herbewegung der Atmungssteuerung in den Hebel eingeleitet werden, ständig eine Schrägbewegung ausführen muss, weil der Kulissenstein nur zwischen den Schrägflächen der Rastenschiene bewegt werden kann. Die Führung einer derartigen Bewegung ist jedoch konstruktiv schwierig. Ein weiterer Nachteil der bekannten Vorrichtung ist der zwischen den Rasten des Kulissensteins und den Rasten der fest angeordneten Rastenschiene notwendigerweise auftretende mechanische Verschleiss und der damit verbundene erhöhte Aufwand für die Wartung, den Stillstand und die Ausfallzeiten der Aufwickeleinrichtungen. Schliesslich wird es noch als nachteilig empfunden, dass der Flankenwinkel an den Spulen nicht kontinuierlich sondern nur stufenweise zwischen den vorgesehenen Rasten der Rastenschiene einstellbar ist.A disadvantage of the known arrangement is that the push rod, through which the adjusting forces from the periodic back-and-forth movement of the respiratory control are introduced into the lever, must constantly perform an oblique movement because the sliding block can only be moved between the inclined surfaces of the catch rail. However, guiding such a movement is structurally difficult. Another disadvantage of the known device is the mechanical wear which necessarily occurs between the catches of the sliding block and the catches of the fixed catch rail and the associated increased effort for maintenance, downtime and downtime of the winding devices. Finally, it is felt to be disadvantageous that the flank angle on the coils cannot be adjusted continuously but only gradually between the provided catches of the catch rail.

In der Zusatz-Patentanmeldung DE-B 23 30 932 zur vorgenannten DE-B 22 55 065 wird vorgeschlagen, den auftretenden Verschleiss an den Rasten zwischen Kulissenstein und Rastenschiene durch eine Konstruktion zu vermeiden, bei der zwischen dem Kulissenstein und der Rastenschiene eine Leiste und ein Schieber vorgesehen sind, wobei der Kulissenstein auf dem Schieber gleitet und der Schieber an einer mit der Rastenschiene fest verbundenen Leiste durch Rasteneingriff arretierbar ist. Bei dieser Anordnung sind die Flächen des Kulissensteins und des Schiebers, mit denen beide Bauteile aneinanderliegen, als Keilflächen ausgebildet.In the additional patent application DE-B 23 30 932 to the aforementioned DE-B 22 55 065 it is proposed to avoid the wear on the catches between the sliding block and the locking rail by a construction in which a strip and a between the sliding block and the locking rail Sliders are provided, wherein the sliding block slides on the slider and the slider can be locked on a bar that is firmly connected to the locking rail by locking engagement. In this arrangement, the surfaces of the sliding block and the slide, with which the two components lie against one another, are designed as wedge surfaces.

Die Führung der mit dem Kulissenstein verbundenen Schubstange ist bei dieser Ausführung ebenfalls schwierig, da sie bei ihrer Hin- und Herbewegung - infolge der Verschiebung des Kulissensteins auf der Keilfläche des Schiebers - eine Schrägbewegung ausführt. Bei dieser Vorrichtung erfolgt die Verstellung des Flankenwinkels an den Spulen ebenfalls stufenweise durch Verstellung der Schieber an den Leisten der Rastenschiene.The guidance of the connecting rod connected to the sliding block is also difficult in this embodiment, since it moves obliquely during its back and forth movement - due to the displacement of the sliding block on the wedge surface of the slide. In this device, the flank angle on the coils is also adjusted in stages by adjusting the slide on the bars of the catch rail.

Aufgabe der Erfindung ist es, eine Changiervorrichtung an Aufwickelvorrichtungen der im Oberbegriff des Patentanspruchs 1 angegebenen Art derart auszubilden, dass die Nachteile der bekannten Vorrichtungen bezüglich der Führung der schräg bewegten Schubstange vermieden werden, und dass für sämtliche Spulstellen der Aufwickelvorrichtungen die Flankenwinkel der Spulen gleichzeitig und stufenlos eingestellt werden können.The object of the invention is to provide a traversing device on winding devices of the type specified in the preamble of claim 1 in such a way that the disadvantages of the known devices with regard to the guidance of the obliquely moved push rod are avoided, and that for all winding positions of the winding devices the flank angles of the coils simultaneously and can be continuously adjusted.

Die Lösung dieser Aufgabe erfolgt erfindungsgemäss nach den Merkmalen des Kennzeichenteils des Patentanspruchs 1.This object is achieved according to the invention according to the features of the characterizing part of patent claim 1.

Die angegebene Lösung verwendet zur Übertragung der Verstellkräfte aus den Durchmesseränderungen an den Spulen und der Atmung (periodische Hin- und Herbewegung der Schubstange zur Beeinflussung des Spulenaufbaus) ebenfalls eine Hebelanordnung. Während der Hebel bei der bekannten Vorrichtung an seinem vom Schwenkpunkt entfernten Ende fest angelenkt ist und der Kulissenstein unter Veränderung des geometrischen Abstandes zwischen Schwenkpunkt und seiner Abstützfläche verschoben werden muss, um eine Änderung des Flankenwinkels der Spulen herbeizuführen, wird beim Gegenstand der Erfindung ein an einer Führungsstange in Richtung der Schwenkbewegung des Hebels bewegbar gelagertes Abstützglied verschoben, welches zwischen dem Hebel und der Leitschiene angeordnet ist und dessen Abstand zum Schwenkpunkt des Hebels durch die Verschiebung der Führungsstange verstellbar ist. Hierbei ändert sich - unabhängig davon, ob das Abstützglied die in den Hebel eingeleiteten Verstellkräfte direkt oder indirekt auf die Leitschiene überträgt - praktisch nur der geometrische Abstand (Hebelarm) zwischen dem Schwenkpunkt des Hebels und dem Abstützglied bzw. der Stelle der Kraftübertragung auf die Leitschiene, während der Abstand zwischen dem Schwenkpunkt des Hebels und der Abstützung gegenüber der von der Nockensteuerung eingeleiteten Verstellkraft im wesentlichen unverändert ist.The specified solution also uses a lever arrangement to transmit the adjustment forces from the changes in diameter on the coils and breathing (periodic reciprocating movement of the push rod to influence the coil structure). While the lever in the known device is firmly articulated at its end remote from the pivot point and the sliding block has to be displaced by changing the geometric distance between the pivot point and its support surface in order to bring about a change in the flank angle of the coils, the subject of the invention is one at a Support rod movably mounted in the direction of the pivoting movement of the lever, which is arranged between the lever and the guide rail and whose distance to the pivot point of the lever is adjustable by the displacement of the guide rod. Here - regardless of whether the support member transmits the adjusting forces introduced into the lever directly or indirectly to the guide rail - practically only the geometric distance (lever arm) between the pivot point of the lever and the support member or the location of the power transmission on the guide rail changes, while the distance between the pivot point of the lever and the support is essentially unchanged from the adjusting force introduced by the cam control.

Ein wesentlicher Vorteil der vorliegenden Anordnung liegt darin, dass die Schubstange der Nockensteuerung, mit der der Spulenaufbau beeinflusst wird, zur Beibehaltung der Atmung allein hin- und herbewegt wird und durch einen an der Schubstange befestigten Gleitstein die Verstellkräfte auf die Abstützfläche des Hebels übertragen werden. Die Führung der Schubstange in der Aufwickelvorrichtung ist daher sehr einfach ausführbar. Nach der vorliegenden Erfindung kann das Zwischenglied zwischen den möglichen Endstellungen am Hebel in jede beliebige Stellung zwischen dessen freiem Ende und der Abstützung der Nockensteuerung gebracht werden. Dadurch lässt sich jeder gewünschte Flankenwinkel einer Spule für sämtliche Spulstellen kollektiv einstellen. Die Ansprüche 2 bis 4 geben vorteilhafte Weiterbildungen und bevorzugte konstruktive Ausgestaltungen der Erfindung an, die im folgenden anhand der Zeichnungen näher erläutert wird.A major advantage of the present arrangement is that the push rod of the cam control with which the coil assembly be is influenced, is moved back and forth alone to maintain breathing and the adjusting forces are transmitted to the support surface of the lever by a sliding block attached to the push rod. The guide of the push rod in the winding device is therefore very easy to carry out. According to the present invention, the intermediate member between the possible end positions on the lever can be brought into any position between its free end and the support of the cam control. This means that any desired flank angle of a spool can be set collectively for all spool positions. Claims 2 to 4 indicate advantageous developments and preferred constructive embodiments of the invention, which will be explained in more detail below with reference to the drawings.

Es zeigen:

  • Fig. 1 eine schematische Darstellung der erfindungsgemässen Kraftübertragung von Spulenhebelarm und Atmungssteuerung auf die Leitschiene für den Changierfadenführer;
  • Fig. 2 eine abgeänderte Ausführung mit am Hebel und an der Leitschiene anliegendem Abstützglied.
Show it:
  • Figure 1 is a schematic representation of the power transmission according to the invention of the bobbin lever arm and breathing control on the guide rail for the traversing thread guide.
  • Fig. 2 shows a modified version with the support member resting on the lever and on the guide rail.

Fig. 1 zeigt einen Changierfadenführer 1 in einer Aufwickelvorrichtung für Textilfäden, Bändchen, Glasfasern, Drähte oder ähnliche linienförmige Gebilde, von der nur die für die vorliegende Erfindung wesentlichen Teile dargestellt sind. Üblicherweise sind mehrere Aufwickelvorrichtungen nebeneinander und ggf. in Etagen übereinander in den zugehörigen Textilmaschinen, wie beispielsweise Spinn-, Spul-, Zwirn- oder Texturiermaschinen, angeordnet.1 shows a traversing thread guide 1 in a winding device for textile threads, tapes, glass fibers, wires or similar linear structures, of which only the parts essential for the present invention are shown. Usually, several winding devices are arranged next to one another and, if necessary, one above the other in the associated textile machines, such as spinning, winding, twisting or texturing machines.

Der Fadenführer 1 ist an einem Winkelhebel 2 befestigt, der schwenkbar auf einer Platte 3 befestigt ist. Die Platte 3 ist beispielsweise über einen Zapfen 4 von einer nicht dargestellten Kehrgewindewalze und einem in deren Kehrgewindenut hin-und herbewegten, schiffchenförmigen Gleitstein angetrieben und durch eine Führungsstange 5 geradlinig geführt. Ebenso könnte die Platte 3 aber auch mit der Führungsstange 5 fest verbunden sein, während die Führungsstange 5 in einer anderen, geeigneten Weise von einem Changiermechanismus wie Kurven-, Exzenterscheibe etc. hin-und herbewegt wird. Der Winkelhebel 2 ist ferner durch eine an seinem anderen Ende drehbar angeordnete Rolle 6 in einer Leitschiene 9 geführt, welche Leitschiene um den im Lager 7 drehbaren Zapfen 8 schwenkbar ist. Die Leitschiene 9 weist zur seitlichen Führung der Rolle 6 bevorzugt einen U-förmigen Querschnitt auf. Die Stellung der Leitschiene 9 während der Changierung ist für die Länge des Changierhubes massgebend, d.h. der Changierhub bleibt während der Spulreise konstant, wenn die Stellung der Leitschiene 9 während der gesamten Spulreise auch unverändert bleibt.The thread guide 1 is attached to an angle lever 2, which is pivotally attached to a plate 3. The plate 3 is driven, for example, via a pin 4 by a reversing thread roller (not shown) and a boat-shaped sliding block which is reciprocated in its reversing thread groove and is guided in a straight line by a guide rod 5. Likewise, the plate 3 could also be firmly connected to the guide rod 5, while the guide rod 5 is moved back and forth in a different, suitable manner by a traversing mechanism such as a cam, eccentric disc, etc. The angle lever 2 is also guided by a roller 6, which is rotatably arranged at its other end, in a guide rail 9, which guide rail can be pivoted about the pin 8 rotatable in the bearing 7. The guide rail 9 preferably has a U-shaped cross section for lateral guidance of the roller 6. The position of the guide rail 9 during the traversing is decisive for the length of the traversing stroke, i.e. the traversing stroke remains constant during the winding cycle if the position of the guide rail 9 also remains unchanged during the entire winding cycle.

Die Stellung der Leitschiene 9 wird bei einer Aufwickelvorrichtung gemäss der Erfindung einerseits in Abhängigkeit vom wachsenden Durchmesser der Spule 10 über den nicht dargestellten, von der Reibwalze wegschwenkenden Spulenhebelarm und eine mit diesem beispielsweise durch den Bowdenzug 11 verbundene Betätigungseinrichtung 12 verstellt. Die Betätigungseinrichtung 12 wirkt hierbei zur Übertragung der Verstellkraft auf einen einarmigen Hebel 13, der bei 13.1 mit dem später beschriebenen Atmungshebel 14 verbunden ist. Die Verstellkraft des Spulenhebelarms beim Wachsen des Spulendurchmessers wird im Schwenkpunkt 13.2 an einem Ende des einarmigen Hebels 13 eingeleitet. Der Teil des einarmigen Hebels 13, zwischen dem die Summe der Verstellkräfte auf die Leitschiene 9 übertragen wird, ist mit 13.3 bezeichnet.In a winding device according to the invention, the position of the guide rail 9 is adjusted on the one hand depending on the growing diameter of the spool 10 via the spool lever arm (not shown) pivoting away from the friction roller and an actuating device 12 connected to it, for example, by the Bowden cable 11. The actuating device 12 acts here to transmit the adjusting force to a one-armed lever 13, which is connected at 13.1 to the breathing lever 14 described later. The adjusting force of the coil lever arm as the coil diameter grows is introduced at pivot point 13.2 at one end of the one-armed lever 13. The part of the one-armed lever 13 between which the sum of the adjusting forces is transmitted to the guide rail 9 is designated 13.3.

An der Verbindungsstelle 13.1 mit dem Atmungshebel 14 wird in den einarmigen Hebel 13 zusätzlich noch die von der Atmungssteuerung der Aufwickelvorrichtung erzeugte Verstellkraft eingeleitet, und zwar durch den Atmungshebel 14 der Nockensteuerung 14 bis 17. Dieser Atmungshebel 14 hat an seinem freien Ende eine Anlagefläche 14.1 und ist an seinem anderen Ende auf einer Schwenkachse 15 am Maschinenrahmen schwenkbar gelagert. Zur Übertragung der Verstellkraft aus der Nockensteuerung auf den einarmigen Hebel 13 ist jener an seinem Verbindungsgelenk 13.1 auf dem Atmungshebel 14 schwenkbar gelagert. Zur Erzeugung der Atmung während des Spulenaufbaus weist die Textilmaschine eine parallel zur Maschinenlängsrichtung geführte Schubstange 16 auf, die angetrieben ist und während der Spulreise nach einem vorgebbaren Programm hin- und herchangiert wird. Auf dieser Schubstange 16 sind - entsprechend der Teilung der Spulstellen in der Textilmaschine - Nocken 17 befestigt, die eine Abstützfläche 17.1 aufweisen. Gegen diese Abstützfläche wird die Anlagefläche 14.1 des Atmungshebels 14 kraftschlüssig angedrückt.At the connection point 13.1 with the breathing lever 14, the adjusting force generated by the breathing control of the winding device is additionally introduced into the one-armed lever 13, namely by the breathing lever 14 of the cam control 14 to 17. This breathing lever 14 has a contact surface 14.1 and is pivoted at its other end on a pivot axis 15 on the machine frame. To transmit the adjusting force from the cam control to the one-armed lever 13, the one is pivotably mounted on its connecting joint 13.1 on the breathing lever 14. To generate breathing during the build-up of the bobbin, the textile machine has a push rod 16 which is guided parallel to the longitudinal direction of the machine and is driven and is moved back and forth during the bobbin travel according to a predefinable program. On this push rod 16 - according to the division of the winding positions in the textile machine - cams 17 are fastened, which have a support surface 17.1. The bearing surface 14.1 of the breathing lever 14 is pressed against this supporting surface in a force-locking manner.

Wird nun die Schubstange 16 zwischen den nicht dargestellten Entschaltern hin- und herbewegt, so gleitet die Anlagefläche 14.1 an der schrägen Abstützfläche 17.1 des Nockens 17 nach oben bzw. nach unten, wobei über den Atmungshebel 14 eine entsprechende Verstellkraft in das Verbindungsgelenk 13.1 des einarmigen Hebels 13 eingeleitet wird. Beide Verstellkräfte, nämlich die aus der Durchmesservergrösserung der Spule 10 (durch Wegschwenken des Spulenhebelarmes von der Reibwalze) und die aus der Atmungssteuerung (durch die Hin- und Herbewegung der Schubstange 16) werden von dem Teil 13.3 des einarmigen Hebels 13 über ein Abstützglied 18 auf die Leitschiene 9 übertragen und bewirken dort ggf. deren Verschwenkung. Die Übertragung der Verstellkräfte erfolgt dabei nach Fig. 1 indirekt, d.h. über einen Obertragunshebel 19, der bei 19.1 am Maschinenrahmen einen Schwenkpunkt hat und um diesen schwenkbar gelagert ist.If the push rod 16 is now moved back and forth between the disconnectors (not shown), the contact surface 14.1 slides up or down on the oblique support surface 17.1 of the cam 17, with a corresponding adjusting force in the connecting joint 13.1 of the one-armed lever via the breathing lever 14 13 is initiated. Both adjustment forces, namely those from the increase in diameter of the coil 10 (by pivoting the coil lever arm away from the friction roller) and those from the respiratory control (by the reciprocating movement of the push rod 16) are applied to part 13.3 of the one-armed lever 13 via a support member 18 transfer the guide rail 9 and, if necessary, cause it to be pivoted there. The adjustment forces are transmitted indirectly according to Fig. 1, i.e. via a transmission lever 19, which has a pivot point at 19.1 on the machine frame and is pivotably mounted about this.

Das zwischen dem einarmigen Hebel 13 und dem Übertragungshebel 19 befindliche Abstützglied 18, durch dessen Verstellung in Maschinenlängsrichtung gemäss der Erfindung für sämtliche Spulstellen der gewünschte Flankenwinkel derThe support member 18 located between the one-armed lever 13 and the transmission lever 19, by its adjustment in the machine longitudinal direction according to the invention for all Winding positions of the desired flank angle

Spulen 10 kollektiv einstellbar ist, ist auf einer zur Schubstange 16 bzw. Maschinenlängsachse parallelen Führungsstange 20 auf einem Zapfen 20.1 schwenkbar gelagert. Alle Abstützglieder 18 sind dabei analog zu den auf der Schubstange 16 befestigten Nocken 17 in Abständen, entsprechend der Spulstellenteilung, auf der Führungsstange 20 angeordnet. Die Führungsstange 20 selbst ist gemeinsam mit der Schubstange 16 in einer am Maschinenrahmen befestigten Führung 21 gelagert. Durch Verschiebung der Führungsstange 20 in Maschinenlängsrichtung wird das Abstützglied 18 mit der an seinem Ende beispielsweise vorgesehenen Abdrückrolle 18.1 zwischen dem einarmigen Hebel 13 und dem Übertragungshebel 19 verschoben, wobei der Abstand des Verbindungsgelenkes 13.3 zur Stelle der Kraftübertragung von einem grössten Abstand bis zu einem kleinsten Abstand (als unsichtbare Abdrückrolle dargestellt) veränderbar ist. Bei einer Einstellung, bei der sich die Abdrückrolle 18.1 über dem Verbindungsgelenk 13.1 des einarmigen Hebels 13 befindet, werden dabei zylindrische Spulen gewickelt, während in allen anderen Stellungen der Abdrückrolle 18.1 bis zum grösstmöglichen Abstand der Andrückrolle 18.1 vom Verbindungsgelenk Spulen mit konischen Flanken gewickelt werden. Dies ergibt sich infolge der am einarmigen Hebel 13 vorliegenden Übersetzungsverhältnisse für die Übertragung der Verstellkräfte auf die Leitschiene 9. Damit die Leitschiene immer am Übertragungshebel 19 anliegt, steht die Leitschiene 9 ständig unter der Wirkung eines elastischen Kraftgebers 22, beispielsweise einer Feder. Der Kraftgeber ist im Hinblick auf das Schwenklager 7 der Leitschiene 9 jenseits des Hebelsystems angeordnet.Coils 10 is collectively adjustable, is pivotally mounted on a guide rod 20 parallel to the push rod 16 or longitudinal axis of the machine on a pin 20.1. All support members 18 are arranged analogously to the cams 17 fastened on the push rod 16 at intervals, corresponding to the winding position division, on the guide rod 20. The guide rod 20 itself is mounted together with the push rod 16 in a guide 21 fastened to the machine frame. By displacing the guide rod 20 in the longitudinal direction of the machine, the support member 18 with the push-off roller 18.1 provided at its end, for example, is displaced between the one-armed lever 13 and the transmission lever 19, the distance between the connecting joint 13.3 to place the power transmission from a greatest distance to a smallest distance (shown as an invisible pressure roller) is changeable. With a setting in which the pressing roller 18.1 is located above the connecting joint 13.1 of the one-armed lever 13, cylindrical coils are wound, while in all other positions of the pressing roller 18.1 coils with conical flanks are wound up to the greatest possible distance of the pressing roller 18.1 from the connecting joint. This results from the transmission ratios present on the one-armed lever 13 for the transmission of the adjusting forces to the guardrail 9. So that the guardrail always bears against the transmission lever 19, the guardrail 9 is constantly under the action of an elastic force sensor 22, for example a spring. With regard to the pivot bearing 7 of the guide rail 9, the force transmitter is arranged beyond the lever system.

Fig. 2 unterscheidet sich von dem Ausführungsbeispiel der Fig. 1 im wesentlichen allein durch die konstruktive Ausbildung des Übertragungssystems für die Verstellkräfte von Spulenhebelarm und Atmungssteuerung auf die Leitschiene 90 der Changiervorrichtung.Fig. 2 differs from the embodiment of Fig. 1 essentially solely by the design of the transmission system for the adjusting forces of the spool arm and breathing control on the guide rail 90 of the traversing device.

In Fig. 2 ist der einarmige Hebel 130 mit seinem einen Ende im Schwenkpunkt 132 an der Betätigungseinrichtung 120 des Spulenhebelarms angelenkt. Seine Abstütztfläche 131 ist als Vorsprung 134 mit konvexer Form ausgebildet und liegt an der Nockenfläche 171 des Gleitsteins 170 an. Während der gesamten Spulreise, in der die Betätigungseinrichtung 120 zwischen ihrer oberen und unteren Endstellung bewegt wird, verschiebt sich die Abstützfläche 131 infolge der Abrollbewegung des Vorsprungs 134 auf der Nockenfläche 171 nur geringfügig. Über den Vorsprung 134wird dabei die vom Gleitstein 170 übertragene Verstellkraft der Atmungssteuerung in den einarmigen Hebel 130 eingeleitet. Zwischen dem freien Ende des einarmigen Hebels 133 und der Leitschiene 90 ist, wie bei Fig. 1 beschrieben, das auf der Führungsstange 200 schwenkbar gelagerte Abstützglied 180 angeordnet, das nach dem Ausführungsbeispiel von Fig. 2 jedoch die Verstellkräfte direkt auf die Leitschiene 90 überträgt und die Leitschiene mit wachsendem Spulendurchmesser ggf. um das Schwenklager 70 verschwenkt. Das Abstützglied 180 kann hierbei ebenfalls, wie zuvor beschrieben, beispielsweise zwischen den beiden angedeuteten Endstellungen verschoben werden, wodurch die Flankenwinkel der Spule 10 kontinuierlich von einem minimalen Bikonuswinkel bis zu einem Winkel von 90° für zylindrische Kreuzspulen einstellbar sind. Dabei wird in vorteilhafter Weise über das einmal für den gewählten Flankenwinkel eingestellte, konstante Übersetzungsverhältnis der Verstellkräfte am einarmigen Hebel 130, d.h. über den Abstand zwischen der Auflagelinie von Abstützfläche 131 und Nockenfläche 171 und der Krafteinleitung vom Abstützglied 180 in die Leitschiene 90 - unter Berücksichtigung dessen Abstandes vom Schwenklager 70 der Leitschiene 90 - die Hubverkürzung gesteuert, die bei Spulen 10 mit von zylindrischen Spulen abweichenden Flankenwinkeln mit wachsendem Spulendurchmesser vorgenommen werden muss. Dies geschieht dadurch, dass die Leitschiene 90 mehr und mehr verschwenkt wird.In FIG. 2, the one-armed lever 130 is articulated at its one end in the pivot point 132 to the actuating device 120 of the coil lever arm. Its support surface 131 is designed as a projection 134 with a convex shape and bears against the cam surface 171 of the sliding block 170. During the entire winding cycle in which the actuating device 120 is moved between its upper and lower end positions, the support surface 131 shifts only slightly as a result of the rolling movement of the projection 134 on the cam surface 171. The adjustment force of the breathing control transmitted by the sliding block 170 is introduced into the one-armed lever 130 via the projection 134. Between the free end of the one-armed lever 133 and the guide rail 90, as described in FIG. 1, the support member 180 which is pivotably mounted on the guide rod 200 is arranged, but which, according to the exemplary embodiment of FIG. 2, transmits the adjusting forces directly to the guide rail 90 and the guardrail may be pivoted about the pivot bearing 70 as the coil diameter increases. The support member 180 can also, as described above, be moved, for example, between the two indicated end positions, as a result of which the flank angle of the coil 10 can be continuously adjusted from a minimum biconus angle to an angle of 90 ° for cylindrical cross-wound bobbins. In this case, the constant transmission ratio of the adjusting forces on the one-armed lever 130, that is, once set for the selected flank angle, is advantageously used. Via the distance between the contact line of the support surface 131 and the cam surface 171 and the introduction of force from the support member 180 into the guide rail 90 - taking into account its distance from the pivot bearing 70 of the guide rail 90 - the stroke shortening, which increases with coils 10 with flank angles deviating from cylindrical coils, increases Coil diameter must be made. This happens because the guide rail 90 is pivoted more and more.

Die geringfügige Verschiebung der Auflagelinie der Abstützfläche 131 des einarmigen Hebels 130 auf der Nockenfläche 171 kann dabei durch die Formgebung des Abstützgliedes 180 ausgeglichen werden.The slight displacement of the contact line of the support surface 131 of the one-armed lever 130 on the cam surface 171 can be compensated for by the shape of the support member 180.

Wie aus Fig. 2 ersichtlich, erfolgt eine Verschwenkung der Leitschiene 90 nicht, wenn das Abstützglied 180 auf die nur gestrichelt dargestellte Position verschoben ist und seine Anlagefläche über der Auflagelinie der Abstützfläche 131 des einarmigen Hebels 130 angerodnet ist. Diese Position des Abstützgliedes 180 ist für zylindrische Kreuzspulen vorgesehen, während sämtliche anderen Positionen zwischen dieser und der anderen Endposition Spulen 10 mit jeweils anderen konischen FLankenwinkeln ergeben.As can be seen from FIG. 2, the guide rail 90 is not pivoted when the support member 180 has been moved to the position shown in dashed lines and its contact surface has been eroded over the support line 131 of the one-armed lever 130. This position of the support member 180 is provided for cylindrical cross-wound bobbins, while all other positions between this and the other end position result in bobbins 10 with different conical flank angles.

BezugszeichenaufstellungList of reference symbols

Figure imgb0001
Figure imgb0001
Figure imgb0002
Figure imgb0002

Claims (4)

1. Traversing device in machines for winding threads, ribbons or the like with variable thread guiding stroke, which comprises: a thread guide (1) which is fixed to a swivelling bell crank lever (2), which bell crank lever (2) is moved to and fro by a reverse thread roller or the like, the free end of its other arm being guided in a swivelling guide rail (9; 90) in such a way that the reciprocating bell crank lever (2) performs a swivelling movement, while the guide rail (9; 90) is swivelled about anone-arm lever (13; 130), the pivot (13.2); 132) of which is displaceable in dependence on the growing diameter of the package of the bobbin (10) to be wound, and with the one-arm lever (13; 130) being subjected to a periodical swivelling movement which is performed by a cam gear (14 to 17 or 160, 170, 171) arranged within a distance from the pivot (13.2; 132) of the one-arm lever (13; 130), and which is transmitted to the guide rail (9; 90), as well as means for varying the amount of the swivelling movement performed by the said guide rail (9; 90), characterized by the fact that the means for varying the amount of the swivelling movement performed by the said guide rail (9; 90) comprises a support member (18; 180) which is arranged between the one-arm lever (13; 130) and the said guide rail (9; 90) and whose distance from the pivot (13.2; 132) of the one-arm lever (13; 130) is adjusted by means of a displaceable guide bar (20; 200), onto which the support member (18; 180) is mounted to move in the direction of the swivelling movement of the one-arm lever (13; 130).
2. Traversing device as claimed in claim 1, characterized by the fact that the support member (18) abuts upon a swivelling transmission lever (19) substantially supported parallel with the one-arm lever (13), whose pivot (19.1) is poisitioned on the same side with respect to the support member (18) as is the pivot (13.2) of the one-arm lever (13), and whose free end, projecting beyond the one-arm lever (13), abuts upon the guide rail (9).
3. Traversing device as claimed in claim 1, characterized by the fact that the cam gear (160, 170, 171 ( consists of a supporting surface (131), which is shaped as a cam and arranged as a part of the one-arm lever (130) within a distance from the pivot (132), and of a sliding member (170) which is provided with a cam (171) and moved to and fro with respect to the said one-arm lever (130).
4. Traversing device as claimed in claim 1 or 2, characterized by the fact that the cam gear (14 to 17) is equipped with a lever (14) for adjusting the breathing, the one end of which swivels about a stationary axis (15) and the other end of which is provided with an abutting surface (14.1) for a reciprocated cam (17) and supported at the one-arm lever (13) within a distance from its pivot (13.2).
EP19790105113 1978-12-23 1979-12-12 Traversing device for yarn winding machines with variable yarn-guiding stroke and stepless collective adjustment of the flange angles of the packages Expired EP0012937B1 (en)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE2856014 1978-12-23
DE19782856014 DE2856014C2 (en) 1978-12-23 1978-12-23 Traversing device on winding devices for threads, tapes or the like.

Publications (2)

Publication Number Publication Date
EP0012937A1 EP0012937A1 (en) 1980-07-09
EP0012937B1 true EP0012937B1 (en) 1983-02-23

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EP19790105113 Expired EP0012937B1 (en) 1978-12-23 1979-12-12 Traversing device for yarn winding machines with variable yarn-guiding stroke and stepless collective adjustment of the flange angles of the packages

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EP (1) EP0012937B1 (en)
DE (1) DE2856014C2 (en)
IT (1) IT7936252V0 (en)

Families Citing this family (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2937601A1 (en) * 1979-09-18 1981-04-02 Barmag Barmer Maschinenfabrik Ag, 5630 Remscheid METHOD FOR WINDING THREADS
DE3732575C1 (en) * 1987-09-28 1989-03-02 Sahm Georg Fa Traversing device on winding appliances for threads, tapes or the like with a variable thread-guide stroke
FR2621570A1 (en) * 1987-10-12 1989-04-14 Icbt Roanne Device enabling the rewinding means on a textile machine to be controlled
JPH0350123Y2 (en) * 1987-12-29 1991-10-25
DE19522304C1 (en) * 1995-06-20 1996-06-13 Saurer Allma Gmbh Thread-feed system to winding mechanism
DE59907306D1 (en) 1998-06-12 2003-11-13 Rieter Ag Maschf FADENCHANGIERUNG

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE1916580C3 (en) * 1969-04-01 1974-02-28 Barmag Barmer Maschinenfabrik Ag, 5600 Wuppertal Traversing device on winding devices
DE2150301A1 (en) * 1971-10-08 1973-04-12 Schuster & Co F M N WINDING AND CHANGING DEVICE FOR MANUFACTURING LAPS FROM YARN AND THE LIKE
DE2330932C3 (en) * 1973-06-18 1979-04-19 F.M.N. Schuster & Co, 5030 Huerth Cross-winding machine with several winding units and thread guides with adjustable traverse width

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DE2856014C2 (en) 1986-10-30
EP0012937A1 (en) 1980-07-09
DE2856014A1 (en) 1980-07-10
IT7936252V0 (en) 1979-12-20

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