EP0833968B1 - Loom rotor with retention plates - Google Patents

Loom rotor with retention plates Download PDF

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Publication number
EP0833968B1
EP0833968B1 EP96909000A EP96909000A EP0833968B1 EP 0833968 B1 EP0833968 B1 EP 0833968B1 EP 96909000 A EP96909000 A EP 96909000A EP 96909000 A EP96909000 A EP 96909000A EP 0833968 B1 EP0833968 B1 EP 0833968B1
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EP
European Patent Office
Prior art keywords
lamella
beat
shaft
warp thread
extent
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
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EP96909000A
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German (de)
French (fr)
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EP0833968A1 (en
Inventor
Alois Steiner
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Itema Switzerland Ltd
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Sulzer Textil AG
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Publication of EP0833968A1 publication Critical patent/EP0833968A1/en
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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D41/00Looms not otherwise provided for, e.g. for weaving chenille yarn; Details peculiar to these looms
    • D03D41/005Linear-shed multiphase looms

Definitions

  • the invention relates to a weaving rotor Stop slats according to the preamble of claim 1.
  • the invention has for its object a Webrotor to create the named disadvantages overcomes.
  • the sub-claim 2 relates to another advantageous one Embodiment of the invention.
  • the task continues solved by a method having the characteristics of Claim 4.
  • the sub-claim 5 relates to a further advantageous embodiment of the method.
  • An advantage of the invention is the fact that the Distance between two stop slats in Direction of the axis of rotation of the weaving rotor is enlarged can be so that a warp thread with increased Reliability between the two stop slats can be inserted. Another advantage is there too see that through the direction of rotation of the weaving rotor staggered stop slats the weft threads evenly struck against a fabric stop edge become.
  • FIG. 1b shows a cylindrical weaving rotor 1 its surface compartment-forming compartment holding elements 4 are arranged, which in the direction of rotation 7 of Weaving rotor 1 running warp threads 6a, 6b-6h in one High position or in a low position bring so that a weft insertion channel 4d arises, through which a weft thread using a fluid such as Air can be entered.
  • a weft insertion channel 4d runs parallel to the shaft 8 of the weaving rotor 1 and extends across the entire width of the weaving rotor.
  • Direction of rotation 7 are on the surface of the weaving rotor 1 alternating shelf holding elements 4 and Stop slats 3a, 3b arranged.
  • the stop slats are as whole stop slats 3a or as half Stop slats 3b executed.
  • the whole Stop slats 3a are designed such that they one completely between the warp threads 6a-6h registered, and immediately before the Weft thread 9b located on the fabric stop edge 9a Effect against the tissue stop edge 9a.
  • Fig. La shows a plan view of the surface of the cylindrical web rotor 1.
  • Compartment holding elements 4 are on the web rotor 1 Compartment holding elements 4 arranged, which protruding parts 4a, 4b, and in between a saddle surface 4c form.
  • the warp threads 6a-6h are attached to the Surface of the weaving rotor 1 placed that a warp thread 6a-6h either over a saddle surface 4c Compartment holding element 4 runs so that the warp thread is a Occupies a high position, or such that a Warp thread 6a-6h between two compartment holding elements 4 runs and occupies a low position. Consequently a loom is formed through which a Weft thread can be entered.
  • the weaving rotor For inserting the warp threads 6a-6h in the weaving rotor serve laying elements 5a-5h, which are movable parallel to the shaft 8 of the weaving rotor 1, and position the warp threads 6a-6h in such a way that they Web rotor can be inserted.
  • inserting the warp threads 6a-6h is in addition to the position of the compartment holding elements 4
  • the position of the stop slats 3a, 3b must be taken into account.
  • Warp threads 6a in the weaving rotor 1 have the advantage that even very densely arranged warp threads are safe insertable between adjacent stop slats 3a, 3b are, or that between two neighboring, with a small distance Stop slats 3a, 3b a warp thread 6a can be safely inserted is.
  • the scope for time increases for inserting the warp threads.
  • the weaving rotor which rotates in the direction of rotation 7, conveys an inserted weft thread 9b to the fabric stop edge 9a, the weft thread 9b being lifted out of the weft insertion channel 4d so that it can be struck against the fabric stop edge 9a of the fabric 6 through the entire stop slats 3a.
  • the weaving rotor which rotates in the direction of rotation 7, conveys an inserted weft thread 9b to the fabric stop edge 9a, the weft thread 9b being lifted out of the weft insertion channel 4d so that it can be struck against the fabric stop edge 9a of the fabric 6 through the entire stop slats 3a.
  • the stop plates 3a, 3b are arranged in the direction of rotation 7 of the weaving rotor 1 in such a way that four successively arranged rows of stop plates 3a, 3b each have a spacing of a / 4 in the direction of the shaft 8, so that after a distance A the stop blades 3a, 3b the stop blades 3a, 3b are again arranged in the same alignment.
  • the distances A1, A2, A3, A4 between the rows of stop slats 3a, 3b are of the same size.
  • the combs 3 with stop lamellae 3a, 3b arranged in succession in the direction of rotation 7 on the surface of the weaving rotor are arranged offset from comb 3 to comb 3 in the direction of the shaft 8.
  • Two whole stop lamellae 3a have a distance a in the direction of the shaft 8. 1c, adjacent combs 3 are each offset in the direction of the shaft 8 by an amount a / 4, so that the stop lamellae 3a, 3b of the fifth comb 3 are again arranged identically to those of the first comb 3, as shown in FIG. 1c are.
  • This offset of the stop slats 3a, 3b, in particular the entire stop slats 3a causes the weft threads 9b to be struck evenly over the width of the fabric 6, so that a uniform fabric 6 is formed. If the stop lamellae 3a were not arranged offset in the direction of the shaft 8, warp streaking could result in the fabric.
  • stop lamellae 3a, 3b can also be arranged offset in the direction of the shaft 8 by an amount other than a / 4, in particular by an integral fraction of a.

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  • Engineering & Computer Science (AREA)
  • Textile Engineering (AREA)
  • Looms (AREA)

Description

Die Erfindung betrifft einen Webrotor mit Anschlaglamellen gemäss dem Oberbegriff von Anspruch 1.The invention relates to a weaving rotor Stop slats according to the preamble of claim 1.

Aus der Patentschrift EP 0 137 071 ist ein Webrotor für eine Reihenfachwebmaschine mit Anschlaglamellen für Schussfäden bekannt. Dabei sind in Drehrichtung des Webrotors aufeinanderfolgend angeordnete Anschlaglamellen jeweils mittig zwischen zwei vorhergehend angeordneten Anschlaglamellen plaziert. Aus der Druckschrift EP 0 456 599 A1 ist ein weiterer Webrotor für eine Reihenfachwebmaschine mit Anschlaglamellen für Schussfäden bekannt. Diese beiden Anordnungen weisen den Nachteil auf, dass die Anschlaglamellen in Verlaufsrichtung der Drehachse des Webrotors einen relativ geringen Abstand aufweisen, sodass es schwierig ist einen durch Legeelemente geführten Kettfaden sicher zwischen zwei benachbarte Anschlaglamellen einzulegen. Insbesondere bei einer hohen Kettfadendichte besteht die Gefahr, dass die einzelnen Kettfäden fehlerhaft in die Zwischenräume der Anschlaglamellen eingelegt werden, was zu einer Kettstreifigkeit oder zu einem Bindungsfehler führt. Der Erfindung liegt die Aufgabe zugrunde, einen Webrotor zu schaffen, der die benannten Nachteile überwindet. From the patent specification EP 0 137 071 a weaving rotor for a row shed weaving machine with slats for Known weft threads. Here are in the direction of rotation Webrotors successively arranged stop slats each centered between two previously arranged Stop slats placed. From EP 0 456 599 A1 is another weaving rotor for one Row shed loom with slats for Known weft threads. These two arrangements show the Disadvantage that the stop slats in Direction of the axis of rotation of the weaving rotor one have a relatively short distance, making it difficult is a warp thread guided by laying elements between two adjacent stop slats. This is particularly the case with a high warp thread density Danger that the individual warp threads incorrectly in the Gaps between the stop slats are inserted what chain streaking or binding failure leads. The invention has for its object a Webrotor to create the named disadvantages overcomes.

Diese Aufgabe wird gelöst durch eine Vorrichtung aufweisend die Merkmale von Anspruch 1. Der Unteranspruch 2 bezieht sich auf eine weitere vorteilhafte Ausgestaltung der Erfindung. Die Aufgabe wird weiter gelöst durch ein Verfahren aufweisend die Merkmale von Anspruch 4. Der Unteranspruch 5 bezieht sich auf eine weitere vorteilhafte Ausgestaltung des Verfahrens.This object is achieved by a device having the features of claim 1. The sub-claim 2 relates to another advantageous one Embodiment of the invention. The task continues solved by a method having the characteristics of Claim 4. The sub-claim 5 relates to a further advantageous embodiment of the method.

Ein Vorteil der Erfindung ist darin zu sehen, dass der Abstand zwischen zwei Anschlaglamellen in Verlaufsrichtung der Drehachse des Webrotors vergrössert werden kann, sodass ein Kettfaden mit erhöhter Zuverlässigkeit zwischen die beiden Anschlaglamellen eingelegt werden kann. Ein weiterer Vorteil ist darin zu sehen, dass durch die in Drehrichtung des Webrotors versetzt angeordneten Anschlaglamellen die Schussfäden gleichmässig an eine Gewebeanschlagkante angeschlagen werden.An advantage of the invention is the fact that the Distance between two stop slats in Direction of the axis of rotation of the weaving rotor is enlarged can be so that a warp thread with increased Reliability between the two stop slats can be inserted. Another advantage is there too see that through the direction of rotation of the weaving rotor staggered stop slats the weft threads evenly struck against a fabric stop edge become.

Im weiteren wird die Erfindung an Hand eines Ausführungsbeispieles beschrieben. Es zeigen:

Fig. 1a
Eine Draufsicht auf einen Webrotor;
Fig. 1b
eine Seitenansicht des Webrotors;
Fig. 1c
eine weitere Draufsicht auf den Webrotor.
The invention is described below using an exemplary embodiment. Show it:
Fig. 1a
A top view of a weaving rotor;
Fig. 1b
a side view of the weaving rotor;
Fig. 1c
another top view of the weaving rotor.

Fig. 1b zeigt einen zylinderförmigen Webrotor 1, an dessen Oberfläche fachbildende Fachhalteelemente 4 angeordnet sind, welche die in Drehrichtung 7 des Webrotors 1 verlaufenden Kettfäden 6a,6b-6h in eine Hochfachstellung beziehungsweise in eine Tieffachstellung bringen, sodass ein Schusseintragskanal 4d entsteht, durch welchen ein Schussfaden mittels eines Fluides wie Luft eintragbar ist. Ein Schusseintragskanal 4d verläuft parallel zu der Welle 8 des Webrotors 1 und erstreckt sich über die gesamte Breite des Webrotors. In Drehrichtung 7 sind auf der Oberfläche des Webrotors 1 abwechslungsweise Fachhalteelemente 4 und Anschlaglamellen 3a, 3b angeordnet. Die Anschlaglamellen sind als ganze Anschlaglamellen 3a oder als halbe Anschlaglamellen 3b ausgeführt. Die ganzen Anschlaglamellen 3a sind derart ausgestaltet, dass sie auf einen vollständig zwischen die Kettfäden 6a-6h eingetragenen, und sich unmittelbar vor der Gewebeanschlagkante 9a befindlichen Schussfaden 9b ein Anschlagen an die Gewebeanschlagkante 9a bewirken.1b shows a cylindrical weaving rotor 1 its surface compartment-forming compartment holding elements 4 are arranged, which in the direction of rotation 7 of Weaving rotor 1 running warp threads 6a, 6b-6h in one High position or in a low position bring so that a weft insertion channel 4d arises, through which a weft thread using a fluid such as Air can be entered. A weft insertion channel 4d runs parallel to the shaft 8 of the weaving rotor 1 and extends across the entire width of the weaving rotor. In Direction of rotation 7 are on the surface of the weaving rotor 1 alternating shelf holding elements 4 and Stop slats 3a, 3b arranged. The stop slats are as whole stop slats 3a or as half Stop slats 3b executed. The whole Stop slats 3a are designed such that they one completely between the warp threads 6a-6h registered, and immediately before the Weft thread 9b located on the fabric stop edge 9a Effect against the tissue stop edge 9a.

Fig. la zeigt eine Draufsicht auf die Oberfläche des zylinderförmigen Webrotors 1. Auf dem Webrotor 1 sind Fachhalteelemente 4 angeordnet, welche vorstehende Teile 4a, 4b aufweisen, und dazwischen eine Sattelfläche 4c ausbilden. Die Kettfäden 6a-6h werden derart an die Oberfläche des Webrotors 1 gelegt, dass ein Kettfaden 6a-6h entweder über eine Sattelfläche 4c eine Fachhalteelementes 4 verläuft, sodass der Kettfaden eine Hochfachstellung einnimmt, oder derart, dass ein Kettfaden 6a-6h zwischen zwei Fachhalteelementen 4 verläuft und dabei eine Tieffachstellung einnimmt. Somit wird ein Webfach ausgebildet, durch welches ein Schussfaden eintragbar ist. Zum Einlegen der Kettfäden 6a-6h in den Webrotor dienen Legeelemente 5a-5h, welche parallel zur Welle 8 des Webrotors 1 beweglich sind, und die Kettfäden 6a-6h derart positionieren, dass sie in den Webrotor eingelegt werden. Beim Einlegen der Kettfäden 6a-6h ist nebst der Lage der Fachhalteelemente 4 auch die Lage der Anschlaglamellen 3a, 3b zu berücksichtigen. Die in Verlaufsrichtung des Welle 8 abwechslungsweise Anordnung von halben und ganzen Anschlaglamellen 3a, 3b kann für den Einlegevorgang vorteilhaft genutzt werden, indem beim Einlegen ein Kettfaden 6a durch das Legeelement 5a vorerst derart positioniert wird, dass der Kettfaden 6a sicher zwischen zwei ganze Anschlaglamellen 3a zu liegen kommt. Sobald der Kettfaden 6a, durch den sich in Drehrichtung 7 drehenden Webrotor zwischen den beiden ganzen Anschlaglamellen 3a liegt kann das Legeelement 5a nochmals bewegt werden, um festzulegen, in welchen der beiden durch die zwischen den ganzen Anschlaglamellen 3a angeordnete halbe Anschlaglamelle 3b ausgebildeten Zwischenräume der Kettfaden 6a eingelegt werden soll. Dabei wird, wie in Fig. lb dargestellt, der Bewegungsspielraum des Kettfadens 6a durch die ganze Anschlaglamelle 3a begrenzt, wogegen die halbe Anschlaglamelle 3b die Bewegungsfreiheit des Kettfadens 6a noch nicht behindert. Somit kann das Legeelement 5a derart ausgelenkt werden, dass der Kettfaden 6a an der ganzen Anschlaglamelle 3a anliegt, sodass der Kettfaden 6a sicher zwischen den beiden Anschlaglamellen 3a, 3b eingelegt wird. Ein derartiges Verfahren zum Einlegen von Kettfäden 6a in den Webrotor 1 weist den Vorteil auf, dass auch sehr dicht angeordnete Kettfäden sicher zwischen benachbarte Anschlaglamellen 3a, 3b einlegbar sind, beziehungsweise, dass auch zwischen zwei benachbarten, einen geringen Abstand aufweisenden Anschlaglamellen 3a, 3b ein Kettfaden 6a sicher einlegbar ist. Gleichzeitig erhöht sich hiermit der Zeitspielraum für das Einlegen der Kettfäden.Fig. La shows a plan view of the surface of the cylindrical web rotor 1. Are on the web rotor 1 Compartment holding elements 4 arranged, which protruding parts 4a, 4b, and in between a saddle surface 4c form. The warp threads 6a-6h are attached to the Surface of the weaving rotor 1 placed that a warp thread 6a-6h either over a saddle surface 4c Compartment holding element 4 runs so that the warp thread is a Occupies a high position, or such that a Warp thread 6a-6h between two compartment holding elements 4 runs and occupies a low position. Consequently a loom is formed through which a Weft thread can be entered. For inserting the warp threads 6a-6h in the weaving rotor serve laying elements 5a-5h, which are movable parallel to the shaft 8 of the weaving rotor 1, and position the warp threads 6a-6h in such a way that they Web rotor can be inserted. When inserting the warp threads 6a-6h is in addition to the position of the compartment holding elements 4 The position of the stop slats 3a, 3b must be taken into account. The alternately in the direction of the shaft 8 Arrangement of half and whole stop slats 3a, 3b can be used advantageously for the insertion process, by inserting a warp thread 6a through the Laying element 5a is initially positioned such that the Warp thread 6a securely between two whole slats 3a comes to rest. As soon as the warp thread 6a, through the weaving rotor rotating in the direction of rotation 7 between the two whole stop slats 3a can do that Laying element 5a can be moved again to determine in which of the two by the between the whole Stop slats 3a arranged half stop slat 3b trained spaces of the warp thread 6a inserted shall be. Here, as shown in Fig. Lb, the Freedom of movement of the warp thread 6a through the whole Stop slat 3a limited, while half Stop slat 3b the freedom of movement of the warp thread 6a not yet disabled. The laying element 5a are deflected such that the warp thread 6a on the whole stop lamella 3a so that the warp thread 6a securely between the two stop slats 3a, 3b is inserted. Such a method of inserting Warp threads 6a in the weaving rotor 1 have the advantage that even very densely arranged warp threads are safe insertable between adjacent stop slats 3a, 3b are, or that between two neighboring, with a small distance Stop slats 3a, 3b a warp thread 6a can be safely inserted is. At the same time, the scope for time increases for inserting the warp threads.

Der sich in Drehrichtung 7 drehende Webrotor fördert einen eingetragenen Schussfaden 9b zur Gewebeanschlagkante 9a hin, wobei der Schussfaden 9b aus dem Schusseintragskanal 4d gehoben wird, sodass er durch die ganzen Anschlaglamellen 3a an die Gewebeanschlagkante 9a des Gewebes 6 angeschlagen werden kann. Im Ausführungsbeispiel gemäss Fig. 1a sowie Fig. 1c sind die Anschlaglamellen 3a, 3b in Drehrichtung 7 des Webrotors 1 derart angeordnet, dass vier aufeinanderfolgend angeordnete Reihen von Anschlaglamellen 3a, 3b in Verlaufsrichtung der Welle 8 jeweils einen Abstand von a/4 aufweisen, sodass nach einem Abstand A die Anschlaglamellen 3a, 3b die Anschlaglamellen 3a, 3b wieder gleich fluchtend angeordnet sind. Die Abstände A1,A2,A3,A4 zwischen den Reihen von Anschlaglamellen 3a,3b sind gleich gross ausgestaltet.
Die in Drehrichtung 7 aufeinanderfolgend auf der Oberfläche des Webrotors angeordneten Kämme 3 mit Anschlaglamellen 3a,3b sind, von Kamm 3 zu Kamm 3, in Verlaufsrichtung der Welle 8 versetzt angeordnet. Zwei ganze Anschlaglamellen 3a weisen in Verlaufsrichtung der Welle 8 einen Abstand a auf. In Drehrichtung 7 benachbarte angeordnete Kämme 3 sind, wie in Fig. 1c dargestellt, jeweils in Verlaufsrichtung der Welle 8 um einen Betrag a/4 versetzt angeordnet, sodass die Anschlaglamellen 3a, 3b des fünften Kammes 3 wieder identisch zu denjenigen des ersten Kammes 3 angeordnet sind. Dieser Versatz der Anschlaglamellen 3a,3b, insbesondere der ganzen Anschlaglamellen 3a, bewirkt, dass die Schussfäden 9b gleichmässig über die Breite des Gewebes 6 verteilt angeschlagen werden, sodass ein gleichmässiges Gewebe 6 entsteht. Wären die Anschlaglamellen 3a nicht in Richtung der Welle 8 versetzt angeordnet, so könnte im Gewebe eine Kettstreifigkeit entstehen. Ohne eine versetzte Anordnung von einem Viertel des Abstandes a müssten pro angeordnete Reihe von Anschlaglamellen 3a,3b vier Mal so viele Anschlaglamellen 3a, 3b angeordnet sein, um die etwa gleiche Anschlagqualität eines Schussfadens an die Gewebeanschlagkante zu erzielen. Die Anschlaglamellen 3a, 3b können in Verlaufsrichtung der Welle 8 auch um einen anderen Betrag als a/4 versetzt angeordnet sein, insbesondere um einen ganzzahligen Bruchteil von a.The weaving rotor, which rotates in the direction of rotation 7, conveys an inserted weft thread 9b to the fabric stop edge 9a, the weft thread 9b being lifted out of the weft insertion channel 4d so that it can be struck against the fabric stop edge 9a of the fabric 6 through the entire stop slats 3a. In the exemplary embodiment according to FIGS. 1a and 1c, the stop plates 3a, 3b are arranged in the direction of rotation 7 of the weaving rotor 1 in such a way that four successively arranged rows of stop plates 3a, 3b each have a spacing of a / 4 in the direction of the shaft 8, so that after a distance A the stop blades 3a, 3b the stop blades 3a, 3b are again arranged in the same alignment. The distances A1, A2, A3, A4 between the rows of stop slats 3a, 3b are of the same size.
The combs 3 with stop lamellae 3a, 3b arranged in succession in the direction of rotation 7 on the surface of the weaving rotor are arranged offset from comb 3 to comb 3 in the direction of the shaft 8. Two whole stop lamellae 3a have a distance a in the direction of the shaft 8. 1c, adjacent combs 3 are each offset in the direction of the shaft 8 by an amount a / 4, so that the stop lamellae 3a, 3b of the fifth comb 3 are again arranged identically to those of the first comb 3, as shown in FIG. 1c are. This offset of the stop slats 3a, 3b, in particular the entire stop slats 3a, causes the weft threads 9b to be struck evenly over the width of the fabric 6, so that a uniform fabric 6 is formed. If the stop lamellae 3a were not arranged offset in the direction of the shaft 8, warp streaking could result in the fabric. Without an offset arrangement of a quarter of the distance a, four times as many stop slats 3a, 3b would have to be arranged per arranged row of stop slats 3a, 3b in order to achieve approximately the same quality of touch of a weft thread on the fabric stop edge. The stop lamellae 3a, 3b can also be arranged offset in the direction of the shaft 8 by an amount other than a / 4, in particular by an integral fraction of a.

Claims (5)

  1. Weaving rotor for a series shed weaving machine with beat-up lamella (3a, 3b) which are arranged at the surface of the weaving rotor (1) and extend in a direction of rotation (7), with the weaving rotor (1) having a shaft (8),wherein beat-up lamella (3a, 3b) which are arranged to follow one another in the direction of rotation (7) are offset in the direction of extent of the shaft (8) and spaced regularly in the direction of extent of the shaft (8), wherein a whole beat-up lamella (3a) and a half beat-up lamella (3b) are alternatively arranged in the direction of extent of the shaft (8) and wherein two whole beat-up lamella (3a) which are arranged adjacently in the direction of extent of the shaft (8) have a spacing (a), characterised in that beat-up lamella (3a, 3b) which are arranged following one another in the direction of rotation (7) have a spacing of a integral fraction of the distance (a) in the direction of extent of the shaft (8), and in that the value of the integer amounts to at least 3.
  2. Weaving rotor in accordance with claim 1,
    characterised in that beat-up lamella (3a, 3b) which are arranged following one another in the direction of rotation (7) have a spacing of one quarter of the spacing (a) in the direction of extent of the shaft (8) .
  3. Series shed weaving machine with a weaving rotor in accordance with one of the claims 1 to 2.
  4. Method for inserting warp threads (6a, 6b) by means of laying in elements (5a, 5b) into a weaving rotor (1) of a series shed weaving machine in accordance with claim 3 having beat-up lamella (3a, 3b), wherein, in a first method step, a warp thread (6a, 6b) is positioned by the laying-in element (5a, 5b) between the beat-up lamella (3a, 3b) and, in a second method step, after the weaving rotor (1) has been rotated by an angular amount in the direction of rotation, the position of the warp thread (6a, 6b) is changed by the laying in element (5a, 5b) in such a manner that the warp thread (6a, 6b) lies in contact with one of the beat-up lamella (3a, 3b) so that the warp thread (6a, 6b) is guided by the beat-up lamella (3a, 3b) during the laying-in process.
  5. Method in accordance with claim 4, characterised in that a whole beat-up lamella (3a) and a half beat-up lamella (3b) are alternately arranged in the direction of extent of the shaft (8); in that the laying-in element (5a, 5b) is controlled in a first method step such that the warp thread (6a) comes to lie reliably between two whole beat-up lamella (3a); and in that the laying-in element (5a, 5b) is moved once again in order to determine in which of the two intermediate spaces formed by the half beat-up lamella (3b) between the whole beat-up lamella (3a) the warp thread (6a) is laid.
EP96909000A 1995-06-22 1996-04-26 Loom rotor with retention plates Expired - Lifetime EP0833968B1 (en)

Applications Claiming Priority (4)

Application Number Priority Date Filing Date Title
CH1824/95 1995-06-22
CH182495 1995-06-22
CH182495 1995-06-22
PCT/CH1996/000157 WO1997000986A1 (en) 1995-06-22 1996-04-26 Loom rotor with retention plates

Publications (2)

Publication Number Publication Date
EP0833968A1 EP0833968A1 (en) 1998-04-08
EP0833968B1 true EP0833968B1 (en) 2000-05-24

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Application Number Title Priority Date Filing Date
EP96909000A Expired - Lifetime EP0833968B1 (en) 1995-06-22 1996-04-26 Loom rotor with retention plates

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US (1) US5947163A (en)
EP (1) EP0833968B1 (en)
JP (1) JPH11507998A (en)
AU (1) AU5267996A (en)
DE (1) DE59605313D1 (en)
WO (1) WO1997000986A1 (en)

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US7073545B2 (en) * 2003-10-14 2006-07-11 Smith Mike L Inflation and deflation apparatus

Family Cites Families (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CH657876A5 (en) * 1982-04-28 1986-09-30 Rueti Ag Maschf ROW SPECIAL WAVING MACHINE WITH A WEB ROTOR.
DE3369711D1 (en) * 1982-12-14 1987-03-12 Rueti Ag Maschf Linear shed multiphase loom with a weaving rotor
US4503159A (en) * 1983-08-19 1985-03-05 Phillips Petroleum Company Polyolefin polymerization process and catalyst
DE3364083D1 (en) * 1983-10-12 1986-07-17 Rueti Ag Maschf Linear-shed multiphase loom with a weaving rotor
EP0456599B1 (en) * 1990-05-11 1998-05-27 Sulzer RàœTi Ag Linear shed multiphase loom
US5188154A (en) * 1991-05-21 1993-02-23 Sulzer Brothers Limited Weaving rotor comb fin design for series-shed loom

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Publication number Publication date
DE59605313D1 (en) 2000-06-29
EP0833968A1 (en) 1998-04-08
WO1997000986A1 (en) 1997-01-09
JPH11507998A (en) 1999-07-13
AU5267996A (en) 1997-01-22
US5947163A (en) 1999-09-07

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