EP0617153A1 - Process to influence the movement of a weft yarn drawn from a storage bobbin to the weft inserting device of a loom and loom to carry out the process - Google Patents

Process to influence the movement of a weft yarn drawn from a storage bobbin to the weft inserting device of a loom and loom to carry out the process Download PDF

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Publication number
EP0617153A1
EP0617153A1 EP93810220A EP93810220A EP0617153A1 EP 0617153 A1 EP0617153 A1 EP 0617153A1 EP 93810220 A EP93810220 A EP 93810220A EP 93810220 A EP93810220 A EP 93810220A EP 0617153 A1 EP0617153 A1 EP 0617153A1
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EP
European Patent Office
Prior art keywords
weft
compressed air
thread
weft thread
air nozzle
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.)
Granted
Application number
EP93810220A
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German (de)
French (fr)
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EP0617153B1 (en
Inventor
Wolfgang Greger
Paul Lincke
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Itema Switzerland Ltd
Maschinenfabrik Rueti AG
Original Assignee
Sultex AG
Maschinenfabrik Rueti AG
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Publication date
Application filed by Sultex AG, Maschinenfabrik Rueti AG filed Critical Sultex AG
Priority to DE59304128T priority Critical patent/DE59304128D1/en
Priority to EP93810220A priority patent/EP0617153B1/en
Priority to US08/184,317 priority patent/US5423355A/en
Publication of EP0617153A1 publication Critical patent/EP0617153A1/en
Application granted granted Critical
Publication of EP0617153B1 publication Critical patent/EP0617153B1/en
Anticipated expiration legal-status Critical
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    • DTEXTILES; PAPER
    • D03WEAVING
    • D03DWOVEN FABRICS; METHODS OF WEAVING; LOOMS
    • D03D47/00Looms in which bulk supply of weft does not pass through shed, e.g. shuttleless looms, gripper shuttle looms, dummy shuttle looms
    • D03D47/34Handling the weft between bulk storage and weft-inserting means

Definitions

  • the invention relates to a method for influencing the movement of a weft thread which is to be drawn off from a supply spool and runs against a weft insertion device of a weaving machine, in particular a projectile weaving machine, and which is transferred in each weaving cycle for a weft insertion to a weft insertion member penetrating the shed, the weft thread being passed through a compressed air nozzle arranged between the supply reel and the weft insertion device is additionally accelerated, is retracted by a predetermined length after each weft insertion by a deflecting element movable transversely to the weft insertion direction and locally deflected from an essentially stretched thread path into a loop-like angled thread path and out of this during a subsequent weft insertion is in each case returned against the stretched thread path.
  • the invention further relates to a weaving machine for carrying out the method.
  • a loom of the type mentioned at the beginning of EP-A-0 155 432 contains a nozzle arrangement with a compressed air nozzle for accelerating and a compressed air nozzle for braking the between the supply spool and the deflecting element Weft insertion device to be supplied, and a compressed air nozzle arranged between the deflecting element and the weft insertion device for transferring the weft thread to the insertion member.
  • the nozzle of the known arrangement intended to accelerate the weft thread is pressurized with compressed air during most of the weft insertion process in order to prevent the weft thread from being pulled off by the insertion element alone.
  • the compressed air supply to this acceleration nozzle is switched off and compressed air is applied to the brake nozzle acting in the opposite direction.
  • the thread transfer nozzle is only activated before the weft insertion in order to insert the end of the weft thread to be gripped into the insertion element.
  • the known design with the acceleration nozzle which is effective essentially throughout the entire weft insertion time requires a relatively complex arrangement and control of the compressed air supply and has a relatively high compressed air requirement.
  • the invention has for its object to provide a method, in particular further developed in this regard, for the controlled feeding of the weft thread to the weft insertion device and a correspondingly simplified weaving machine, which allows gentle guidance of the weft thread to be fed to the weft insertion device with less effort than before and by means of the one sudden stress on the weft thread, in particular when returning the deflected weft thread length against the stretched thread path is avoided.
  • the weft thread is only accelerated during the relatively short initial phase, which is critical for sudden stress, by means of a correspondingly short supply of compressed air. It has been shown that in this way, with a minimal compressed air requirement and with a simple nozzle arrangement, possibly with a single compressed air nozzle, a reliable return of the weft thread into the optimal stretch position for the weft insertion is guaranteed, the thread tension in the weft thread to be inserted only during a precise definable and variable time period is influenced according to different parameters. Accordingly, the occurrence of a "stretching blow" when stretching the deflected weft thread length can be prevented and thus an inadmissible stress on the weft thread can be avoided.
  • the weaving machine according to the invention for performing the method is the subject of claim 7.
  • a weft thread 1 is drawn off from a stationary weft thread supply bobbin 2, which is arranged outside the weaving shed 4 of the loom formed by warp threads 3.
  • the weft thread 1 running out of the supply spool 2 is wound onto a drum store 5, drawn off overhead in the axial direction and guided through a thread brake 7, a compressed air nozzle 6 and a deflection device 10 into a weft insertion device 11.
  • the deflection device 10 contains two fixed guide eyelets 8, 8 'and a deflection element 16 arranged movably between them and adjustable transversely to the weft insertion direction.
  • the end of the weft thread 1 is in each case passed through a transfer nozzle or, as illustrated, a thread clamp 12 to a weft insertion member , shown a projectile 14 provided with a weft thread clip 13.
  • the projectile 14 can be fired into the shed 4 by a striking lever 15, the weft thread 1 being inserted.
  • the projectile 14 is braked and pushed back into a thread release position by a defined amount.
  • the weft thread 1 is deflected by the deflecting element 16 from a substantially stretched thread path 1a shown in dash-dotted lines into a loop path-like thread path 1b also shown in dash-dotted lines, so that the weft thread 1 is held taut in the shed 4.
  • the weft thread 1 is struck in a known manner by a non-illustrated reed in the tip of the shed 4 on the fabric 18 formed there and cut off by a pair of scissors 17 on the weft side.
  • the end of the weft thread 1 remaining outside the shed 4 is then, as is also known, returned by the thread clamp 12 from the area of the scissors 17 into the position shown and for a subsequent weaving cycle to be transferred to another Projectile 14 ready.
  • the weft thread 1 is further deflected by the deflecting element 16 out of the thread path 1b into the angled thread path 1c shown with solid lines and is kept tensioned accordingly.
  • the weaving cycles can each be determined in a known manner by one revolution of a control shaft 20 of the weaving machine, from which the drives and control functions of all units of the weaving machine are derived.
  • the compressed air nozzle 6 is connected via a control valve 21, which can be triggered like a trigger, to a compressed air supply line 22, which is provided with a pressure gauge 23 and is connected to a compressed air source, not shown.
  • the control valve 21 can be adjusted in any manner, as shown via an electromagnetic actuating device, depending on the respective angular position of the control shaft 20 between a blocking position shown which blocks the compressed air supply to the compressed air nozzle 6 and a flow position which releases the compressed air supply.
  • the control valve 21 is held in the blocking position for most of the weaving cycle and can only be adjusted to the flow position by means of a switching segment 24 indicated in the drawing, during a precisely definable fraction of the weaving cycle, which corresponds to a partial rotation of the control shaft 20 by an angle of rotation ⁇ .
  • the switching segment 24, which extends over an angle of rotation ⁇ approximately 90 °, corresponds to an initial phase of the weft insertion process, in which the projectile 14 is shot into the shed 4 and which comprises at least part of the time period in which the deflection element 16 is out the deflected thread web 1c is returned against the stretched thread web 1a.
  • the compressed air nozzle 6 is supplied only during this defined initial phase by means of a relatively high pressure, for example approximately 2 to 3 bar Compressed air is applied so that the section 1 'of the weft thread 1 located upstream of the guide eyelet 8 is additionally accelerated during the return movement of the deflecting element 16 to the position 16' shown in dash-dotted lines by a strong compressed air blast in the weft insertion direction according to arrow 9. This prevents the weft thread 1 from being impermissibly stressed by a "stretching stroke" when the thread path 1c is stretched out.
  • a relatively high pressure for example approximately 2 to 3 bar Compressed air is applied so that the section 1 'of the weft thread 1 located upstream of the guide eyelet 8 is additionally accelerated during the return movement of the deflecting element 16 to the position 16' shown in dash-dotted lines by a strong compressed air blast in the weft insertion direction according to arrow 9.
  • the start and duration of the time period provided for the application of the compressed air nozzle 6 are variable within an adjustment range given by the design and the performance data of the weaving machine and can take place within the weaving cycle, e.g. according to the yarn material to be processed, adapted to the respective conditions.
  • the compressed air supply to the compressed air nozzle 6 can be controlled so that the maximum air pressure provided for the additional acceleration of the weft thread 1 essentially only in the second half of that for the return of the deflecting element 16 or Weft thread 1 is effective against the thread path 1a certain period. Accordingly, it can be achieved that the section 1 ′ of the weft thread 1 located upstream of the guide eyelet 8 is accelerated from the rest position to the desired speed only shortly before the stretched position of the weft thread 1 is reached, and thus an abrupt stress on the weft thread 1 is avoided at the crucial point in time.
  • the pressure of the compressed air provided for the additional acceleration of the weft thread 1 can expediently be built up essentially during the first half of the period of time intended for the return of the weft thread 1 against the thread path 1a.
  • the section 1 'of the weft thread 1 located upstream of the guide eyelet 8 can thus move from the rest position to the desired speed, regardless of the section 1' 'located downstream of the guide eyelet 8' which is already in motion due to the projectile 14 being fired be accelerated.
  • the start of the compressed air supply can be varied within a period of time within a period of time before the start of the time period provided for the return of the weft thread 1 against the thread path 1a, as determined by the time the projectile 14 was fired predetermined fraction, e.g. 10% of the time period mentioned or a rotation angle ⁇ of approximately 0 to 10 ° of the control shaft 20 corresponds.
  • a balanced loading of the weft thread 1 during the weft insertion process can be achieved by the compressed air supply to the compressed air nozzle 6 is controlled that the section 1 'of the weft thread 1 located upstream of the guide eye 8 is in each case pre-accelerated to a speed which is a predetermined fraction, for example half, of the speed of the section 1' located downstream of the guide eye 8 'and accelerated by the projectile 14 'corresponds to the weft thread 1.
  • a second compressed air nozzle in addition to the compressed air nozzle 6 blowing in the weft insertion direction (arrow 9), a second compressed air nozzle, not shown, which blows in the opposite direction can also be provided, which, in a known manner, for braking the weft thread 1 during an end phase of the weft insertion process, for example Compressed air can be applied via a correspondingly controllable control valve.
  • the thread brake 7 can optionally be omitted or, e.g. for the processing of fine weft yarns, only as an organ for holding and releasing the weft thread 1 and be controlled accordingly in certain angular sections of the weaving cycle.
  • the compressed air nozzle 6 and the brake nozzle can also be arranged in a combined, common unit, which can be controlled separately from one another.
  • thread brake 7 between the compressed air nozzle 6 and the deflection device 10 is arranged.
  • the invention can also be used for weaving machines with another weft insertion element, for example a rapier belt.

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

Abstract

A weft thread (1) running off from a fixed storage bobbin (2) is guided, by a compressed-air nozzle (6) and a deflecting element (16), movable transversely to the weft-insertion direction (arrow 9), to the weft-insertion device (11) of a projectile weaving machine. After each weft insertion, the weft thread (1) is deflected by the deflecting element (16) out of an extended thread path (1a) into an angled thread path (1c) and, during a subsequent weft insertion, is returned towards the extended thread path (1a). During a predetermined fraction of the weaving cycle which comprises the return of the weft thread (1) into the extended thread path (1a), the compressed-air nozzle (6) is loaded by compressed air, so that the weft thread (1) is additionally accelerated for a short time. After the return of the weft thread (1), the supply of compressed air to the compressed-air nozzle (6) is stopped for the remaining part of the weaving cycle. As a result, with a minimum requirement of compressed air and by means of a simple nozzle arrangement, a careful guidance of the weft thread is guaranteed and a "stretch beat" is prevented from occurring when the weft thread is being stretched out. The method is especially suitable for the processing of sensitive yarn material in weaving machines with a high weft-insertion capacity. <IMAGE>

Description

Die Erfindung betrifft ein Verfahren zum Beeinflussen der Bewegung eines von einer Vorratsspule abzuziehenden, gegen eine Schusseintragseinrichtung einer Webmaschine, insbesondere einer Projektilwebmaschine, verlaufenden Schussfadens, der jeweils in einem Webzyklus für einen Schusseintrag an ein das Webfach durchsetzendes Schusseintragsorgan übergeben wird, wobei der Schussfaden jeweils durch eine zwischen der Vorratsspule und der Schusseintragseinrichtung angeordnete Druckluftdüse zusätzlich beschleunigt wird, nach jedem Schusseintrag durch ein quer zur Schusseintragsrichtung bewegliches Umlenkelement um eine vorbestimmte Länge zurückgezogen und örtlich aus einer im wesentlichen gestreckt verlaufenden Fadenbahn in eine schlaufenartig abgewinkelte Fadenbahn ausgelenkt und aus dieser bei einem folgenden Schusseintrag jeweils gegen die gestreckt verlaufende Fadenbahn zurückgeführt wird.The invention relates to a method for influencing the movement of a weft thread which is to be drawn off from a supply spool and runs against a weft insertion device of a weaving machine, in particular a projectile weaving machine, and which is transferred in each weaving cycle for a weft insertion to a weft insertion member penetrating the shed, the weft thread being passed through a compressed air nozzle arranged between the supply reel and the weft insertion device is additionally accelerated, is retracted by a predetermined length after each weft insertion by a deflecting element movable transversely to the weft insertion direction and locally deflected from an essentially stretched thread path into a loop-like angled thread path and out of this during a subsequent weft insertion is in each case returned against the stretched thread path.

Ferner betrifft die Erfindung eine Webmaschine zur Durchführung des Verfahrens.The invention further relates to a weaving machine for carrying out the method.

Eine aus der EP-A-0 155 432 bekannte Webmaschine der eingangs genannten Art enthält zwischen der Vorratsspule und dem Umlenkelement eine Düsenanordnung mit einer Druckluftdüse zum Beschleunigen und einer Druckluftdüse zum Abbremsen des der Schusseintragseinrichtung zuzuführenden Schussfadens, sowie eine zwischen dem Umlenkelement und der Schusseintragseinrichtung angeordnete Druckluftdüse zum Uebergeben des Schussfadens an das Eintragsorgan. Die zum Beschleunigen des Schussfadens bestimmte Düse der bekannten Anordnung wird während des grössten Teils des Schusseintragsvorganges mit Druckluft beaufschlagt, um ein Abziehen des Schussfadens allein durch das Eintragsorgan zu vermeiden. Gegen Ende des Schusseintragsvorganges, wenn das Eintragsorgan zu der Fangseite der Webmaschine gelangt, wird die Druckluftzufuhr zu dieser Beschleunigungsdüse abgestellt und die in die entgegengesetzte Richtung wirkende Bremsdüse mit Druckluft beaufschlagt. Die Fadenübergabedüse wird jeweils nur vor dem Schusseintrag aktiviert, um das zu ergreifende Ende des Schussfadens in das Eintragsorgan einzuführen. Die bekannte Ausführung mit der im wesentlichen während der ganzen Schusseintragsdauer wirksamen Beschleunigungsdüse erfordert eine relativ aufwendige Anordnung und Steuerung der Druckluftversorgung und weist einen relativ hohen Druckluftbedarf auf. Bei Webmaschinen mit hoher Schusseintragsleistung kann zudem beim Zurückführen der schlaufenartig ausgelenkten Schussfadenlänge gegen die Strecklage, insbesondere beim Ausstrecken des ständig durch die Beschleunigungsdüse und durch das Schusseintragsorgan beschleunigten Schussfadenabschnitts, ein "Streckschlag" auftreten, der bei der Verarbeitung von empfindlichem Garnmaterial, z.B. Wolle, zu einem Schussfadenbruch führen kann.A loom of the type mentioned at the beginning of EP-A-0 155 432 contains a nozzle arrangement with a compressed air nozzle for accelerating and a compressed air nozzle for braking the between the supply spool and the deflecting element Weft insertion device to be supplied, and a compressed air nozzle arranged between the deflecting element and the weft insertion device for transferring the weft thread to the insertion member. The nozzle of the known arrangement intended to accelerate the weft thread is pressurized with compressed air during most of the weft insertion process in order to prevent the weft thread from being pulled off by the insertion element alone. Towards the end of the weft insertion process, when the entry member reaches the catching side of the weaving machine, the compressed air supply to this acceleration nozzle is switched off and compressed air is applied to the brake nozzle acting in the opposite direction. The thread transfer nozzle is only activated before the weft insertion in order to insert the end of the weft thread to be gripped into the insertion element. The known design with the acceleration nozzle which is effective essentially throughout the entire weft insertion time requires a relatively complex arrangement and control of the compressed air supply and has a relatively high compressed air requirement. In looms with a high weft insertion rate, when the loop-like deflected weft thread length is returned against the drawing position, especially when the weft thread section that is constantly accelerated by the acceleration nozzle and by the weft insertion member is stretched out, a "drawing stroke" can occur which occurs when processing sensitive yarn material, e.g. wool can cause a weft break.

Der Erfindung liegt die Aufgabe zugrunde, ein insbesondere in dieser Hinsicht weiter entwickeltes Verfahren zum gesteuerten Zuführen des Schussfadens an die Schusseintragseinrichtung und eine entsprechend vereinfachte Webmaschine zu schaffen, die mit geringerem Aufwand als bisher eine schonende Führung des der Schusseintragseinrichtung zuzuführenden Schussfadens gestattet und durch die eine schlagartige Beanspruchung des Schussfadens, insbesondere beim Zurückführen der ausgelenkten Schussfadenlänge gegen die gestreckte Fadenbahn, vermieden wird.The invention has for its object to provide a method, in particular further developed in this regard, for the controlled feeding of the weft thread to the weft insertion device and a correspondingly simplified weaving machine, which allows gentle guidance of the weft thread to be fed to the weft insertion device with less effort than before and by means of the one sudden stress on the weft thread, in particular when returning the deflected weft thread length against the stretched thread path is avoided.

Diese Aufgabe wird gemäss der Erfindung durch die im kennzeichnenden Teil des Patentanspruchs 1 angegebenen Merkmale gelöst.This object is achieved according to the invention by the features specified in the characterizing part of patent claim 1.

Durch das erfindungsgemässe Verfahren wird der Schussfaden nur während der relativ kurzen, für eine schlagartige Beanspruchung kritischen Anfangsphase, durch eine entsprechend kurzzeitige Druckluftzufuhr, zusätzlich beschleunigt. Es hat sich gezeigt, dass auf diese Weise, bei minimalem Druckluftbedarf und mit einer einfachen Düsenanordnung, gegebenenfalls mit einer einzigen Druckluftdüse, eine sichere Rückführung des Schussfadens in die für den Schusseintrag optimale Strecklage gewährleistet wird, wobei die Fadenspannung im einzutragenden Schussfaden nur während einer genau definierbaren und nach verschiedenen Parametern variierbaren Zeitspanne beeinflusst wird. Entsprechend kann die Entstehung eines "Streckschlags" beim Ausstrecken der ausgelenkten Schussfadenlänge verhindert und damit eine unzulässige Beanspruchung des Schussfadens vermieden werden.By means of the method according to the invention, the weft thread is only accelerated during the relatively short initial phase, which is critical for sudden stress, by means of a correspondingly short supply of compressed air. It has been shown that in this way, with a minimal compressed air requirement and with a simple nozzle arrangement, possibly with a single compressed air nozzle, a reliable return of the weft thread into the optimal stretch position for the weft insertion is guaranteed, the thread tension in the weft thread to be inserted only during a precise definable and variable time period is influenced according to different parameters. Accordingly, the occurrence of a "stretching blow" when stretching the deflected weft thread length can be prevented and thus an inadmissible stress on the weft thread can be avoided.

Die erfindungsgemässe Webmaschine zur Durchführung des Verfahrens ist Gegenstand des Anspruchs 7.The weaving machine according to the invention for performing the method is the subject of claim 7.

Ausgestaltungen des Erfindungsgegenstandes sind in den abhängigen Ansprüchen angegeben.Embodiments of the subject matter of the invention are specified in the dependent claims.

Weitere Einzelheiten ergeben sich aus der folgenden Beschreibung eines in der Zeichnung schematisch dargestellten Ausführungsbeispiels der Erfindung, in Verbindung mit den Ansprüchen. Die einzige Figur der Zeichnung zeigt einige für die Erfindung wesentliche Teile einer Projektil-Webmaschine.Further details emerge from the following description of an exemplary embodiment of the invention shown schematically in the drawing, in conjunction with the claims. The only figure in the drawing shows some parts of a projectile weaving machine that are essential to the invention.

Bei der dargestellten Webmaschine wird ein Schussfaden 1 von einer ortsfesten Schussfaden-Vorratsspule 2 abgezogen, die ausserhalb des durch Kettfäden 3 gebildeten Webfachs 4 der Webmaschine angeordnet ist. Der von der Vorratsspule 2 ablaufende Schussfaden 1 wird auf einen Trommelspeicher 5 aufgewickelt, von diesem in axialer Richtung über Kopf abgezogen und durch eine Fadenbremse 7, eine Druckluftdüse 6 und eine Umlenkvorrichtung 10 in eine Schusseintragseinrichtung 11 geführt. Die Umlenkvorrichtung 10 enthält zwei feststehende Führungsösen 8, 8' und ein zwischen diesen beweglich angeordnetes, quer zur Schusseintragsrichtung verstellbares Umlenkelement 16. In der Schusseintragseinrichtung 11 wird das Ende des Schussfadens 1 jeweils durch eine Uebergabedüse oder, wie darstellt, eine Fadenklemme 12 an ein Schusseintragsorgan, darstellungsgemäss ein mit einer Schussfadenklammer 13 versehendes Projektil 14, übergeben. Das Projektil 14 kann in bekannter Weise durch einen Schlaghebel 15 in das Webfach 4 geschossen werden, wobei der Schussfaden 1 eingetragen wird. Auf der nicht dargestellten Fangseite der Webmaschine wird das Projektil 14 abgebremst und um ein definiertes Mass in eine Fadenlösestellung zurückgeschoben.In the weaving machine shown, a weft thread 1 is drawn off from a stationary weft thread supply bobbin 2, which is arranged outside the weaving shed 4 of the loom formed by warp threads 3. The weft thread 1 running out of the supply spool 2 is wound onto a drum store 5, drawn off overhead in the axial direction and guided through a thread brake 7, a compressed air nozzle 6 and a deflection device 10 into a weft insertion device 11. The deflection device 10 contains two fixed guide eyelets 8, 8 'and a deflection element 16 arranged movably between them and adjustable transversely to the weft insertion direction. In the weft insertion device 11, the end of the weft thread 1 is in each case passed through a transfer nozzle or, as illustrated, a thread clamp 12 to a weft insertion member , shown a projectile 14 provided with a weft thread clip 13. The projectile 14 can be fired into the shed 4 by a striking lever 15, the weft thread 1 being inserted. On the catch side of the weaving machine, not shown, the projectile 14 is braked and pushed back into a thread release position by a defined amount.

Während der Rückschiebebewegung des Projektils 14 wird der Schussfaden 1 durch das Umlenkelement 16 aus einer strichpunktiert dargestellten, im wesentlichen gestreckten Fadenbahn 1a in eine ebenfalls strichpunktiert dargestellte, schlaufenartig abgewinkelte Fadenbahn 1b ausgelenkt, so dass der Schussfaden 1 im Webfach 4 gespannt gehalten wird. Hierauf wird der Schussfaden 1 in bekannter Weise durch ein nicht dargestelltes Webeblatt in der Spitze des Webfaches 4 an das dort gebildete Gewebe 18 angeschlagen und durch eine schussseitige Schere 17 abgeschnitten. Das ausserhalb des Webfaches 4 verbleibende Ende des Schussfadens 1 wird hierauf, wie ebenfalls bekannt, durch die Fadenklemme 12 aus dem Bereich der Schere 17 in die dargestellte Stellung zurückgeführt und für einen folgenden Webzyklus zur Uebergabe an ein weiteres Projektil 14 bereitgehalten. Während dieser Rückführbewegung der Fadenklemme 12 wird der Schussfaden 1 durch das Umlenkelement 16 aus der Fadenbahn 1b in die mit vollen Linien dargestellte abgewinkelte Fadenbahn 1c weiter ausgelenkt und entsprechend gespannt gehalten.During the push-back movement of the projectile 14, the weft thread 1 is deflected by the deflecting element 16 from a substantially stretched thread path 1a shown in dash-dotted lines into a loop path-like thread path 1b also shown in dash-dotted lines, so that the weft thread 1 is held taut in the shed 4. Thereupon, the weft thread 1 is struck in a known manner by a non-illustrated reed in the tip of the shed 4 on the fabric 18 formed there and cut off by a pair of scissors 17 on the weft side. The end of the weft thread 1 remaining outside the shed 4 is then, as is also known, returned by the thread clamp 12 from the area of the scissors 17 into the position shown and for a subsequent weaving cycle to be transferred to another Projectile 14 ready. During this return movement of the thread clamp 12, the weft thread 1 is further deflected by the deflecting element 16 out of the thread path 1b into the angled thread path 1c shown with solid lines and is kept tensioned accordingly.

Die Webzyklen können in bekannter Weise je durch eine Umdrehung einer Steuerwelle 20 der Webmaschine bestimmt sein, von der die Antriebe und Steuerfunktionen aller Aggregate der Webmaschine abgeleitet werden. Die Druckluftdüse 6 ist über ein triggerartig ansteuerbares Steuerventil 21 an eine Druckluft-Zuführleitung 22 angeschlossen, die mit einem Manometer 23 versehen und mit einer nicht dargestellten Druckluftquelle verbunden ist. Das Steuerventil 21 kann in beliebiger Weise, darstellungsgemäss über eine elektromagnetische Stelleinrichtung, in Abhängigkeit von der jeweiligen Winkelstellung der Steuerwelle 20 zwischen einer dargestellten, die Druckluftzufuhr zur Druckluftdüse 6 sperrenden Sperrstellung und einer die Druckluftzufuhr freigebenden Durchflussstellung verstellt werden. Das Steuerventil 21 wird während des grössten Teils des Webzyklus in der Sperrstellung gehalten und ist nur während eines genau definierbaren Bruchteils des Webzyklus, der einer Teilumdrehung der Steuerwelle 20 um einen Drehwinkel α entspricht, über ein in der Zeichnung angedeutetes Schaltsegment 24 in die Durchflussstellung verstellbar.The weaving cycles can each be determined in a known manner by one revolution of a control shaft 20 of the weaving machine, from which the drives and control functions of all units of the weaving machine are derived. The compressed air nozzle 6 is connected via a control valve 21, which can be triggered like a trigger, to a compressed air supply line 22, which is provided with a pressure gauge 23 and is connected to a compressed air source, not shown. The control valve 21 can be adjusted in any manner, as shown via an electromagnetic actuating device, depending on the respective angular position of the control shaft 20 between a blocking position shown which blocks the compressed air supply to the compressed air nozzle 6 and a flow position which releases the compressed air supply. The control valve 21 is held in the blocking position for most of the weaving cycle and can only be adjusted to the flow position by means of a switching segment 24 indicated in the drawing, during a precisely definable fraction of the weaving cycle, which corresponds to a partial rotation of the control shaft 20 by an angle of rotation α.

Das Schaltsegment 24, das sich darstellungsgemäss über einen Drehwinkel α = ca. 90° erstreckt, entspricht einer Anfangsphase des Schusseintragsvorganges, in welcher das Projektil 14 in das Webfach 4 eingeschossen wird und welche mindestens einen Teil des Zeitabschnitts umfasst, in dem das Umlenkelement 16 aus der ausgelenkten Fadenbahn 1c gegen die gestreckte Fadenbahn 1a zurückgeführt wird. Entsprechend wird die Druckluftdüse 6 nur während dieser definierten Anfangsphase durch die mit einem relativ hohen Druck - z.B. ca. 2 bis 3 bar - zugeführte Druckluft beaufschlagt, so dass der stromaufwärts der Führungsöse 8 gelegene Abschnitt 1' des Schussfadens 1 während der Rückführbewegung des Umlenkelementes 16 in die strichpunktiert dargestellte Stellung 16' durch einen kräftigen Druckluftstoss in Schusseintragsrichtung gemäss Pfeil 9 zusätzlich beschleunigt wird. Dadurch wird vermieden, dass der Schussfaden 1 beim Ausstrecken der Fadenbahn 1c durch einen "Streckschlag" unzulässig beansprucht wird. Wenn das Umlenkelement 16 nach der Teilumdrehung der Steuerwelle 20 um den Drehwinkel α seine Stellung 16' im Bereich der Fadenbahn 1a erreicht hat, wird das Steuerventil 21 in die Sperrstellung zurückgestellt und die Druckluftzufuhr während des restlichen Teils des Webzyklus gesperrt, in welchem der Schussfaden 1 ausschliesslich durch das Projektil 14 vom Trommelspeicher 5 abgezogen, in das Webfach 4 eingetragen und schliesslich, in einer Endphase des Schusseintragsvorganges, durch Betätigung der Fadenbremse 7 abgebremst wird.The switching segment 24, which extends over an angle of rotation α = approximately 90 °, corresponds to an initial phase of the weft insertion process, in which the projectile 14 is shot into the shed 4 and which comprises at least part of the time period in which the deflection element 16 is out the deflected thread web 1c is returned against the stretched thread web 1a. Correspondingly, the compressed air nozzle 6 is supplied only during this defined initial phase by means of a relatively high pressure, for example approximately 2 to 3 bar Compressed air is applied so that the section 1 'of the weft thread 1 located upstream of the guide eyelet 8 is additionally accelerated during the return movement of the deflecting element 16 to the position 16' shown in dash-dotted lines by a strong compressed air blast in the weft insertion direction according to arrow 9. This prevents the weft thread 1 from being impermissibly stressed by a "stretching stroke" when the thread path 1c is stretched out. When the deflection element 16 has reached its position 16 ′ in the region of the thread path 1a after the partial rotation of the control shaft 20 by the angle of rotation α, the control valve 21 is returned to the blocking position and the compressed air supply is blocked during the remaining part of the weaving cycle, in which the weft thread 1 drawn exclusively from the drum store 5 by the projectile 14, entered into the shed 4 and finally, in an end phase of the weft insertion process, is braked by actuating the thread brake 7.

Beginn und Dauer des zur Beaufschlagung der Druckluftdüse 6 vorgesehenen Zeitabschnitts sind innerhalb eines durch die Bauart und die Leistungsdaten der Webmaschine gegebenen Verstellbereichs variabel und können innnerhalb des Webzyklus, z.B. entsprechend dem zu verarbeitenden Garnmaterial, an die jeweiligen Verhältnisse angepasst werden. Der für die Beaufschlagung der Druckluftdüse 6 massgebende Drehwinkel α der Steuerwelle 20 kann daher innerhalb bestimmter Grenzen beliebig, z.B. innerhalb eines Bereichs von α = 60° bis 120°, frei gewählt und dem jeweiligen Bewegungsbereich des Umlenkelements zwischen den Stellungen 16 und 16' entsprechend genau eingestellt werden.The start and duration of the time period provided for the application of the compressed air nozzle 6 are variable within an adjustment range given by the design and the performance data of the weaving machine and can take place within the weaving cycle, e.g. according to the yarn material to be processed, adapted to the respective conditions. The angle of rotation α of the control shaft 20 which is decisive for the action of the compressed air nozzle 6 can therefore be arbitrary within certain limits, e.g. within a range of α = 60 ° to 120 °, freely selected and the respective movement range of the deflecting element between the positions 16 and 16 'can be set precisely.

Die Druckluftzufuhr zur Druckluftdüse 6 kann nach einer Ausführungsform so gesteuert werden, dass der für die zusätzliche Beschleunigung des Schussfadens 1 vorgesehene maxiamale Luftdruck im wesentlichen erst in der zweiten Hälfte des für das Zurückführen des Umlenkelements 16 bzw. des Schussfadens 1 gegen die Fadenbahn 1a bestimmten Zeitabschnitts wirksam ist. Entsprechend kann erreicht werden, dass der stromaufwärts der Führungsöse 8 gelegene Abschnitt 1' des Schussfadens 1 erst kurz vor dem Erreichen der Strecklage des Schussfadens 1 aus der Ruhelage auf die gewünschte Geschwindigkeit vorbeschleunigt und damit im entscheidenden Zeitpunkt eine schlagartige Beanspruchung des Schussfadens 1 vermieden wird.According to one embodiment, the compressed air supply to the compressed air nozzle 6 can be controlled so that the maximum air pressure provided for the additional acceleration of the weft thread 1 essentially only in the second half of that for the return of the deflecting element 16 or Weft thread 1 is effective against the thread path 1a certain period. Accordingly, it can be achieved that the section 1 ′ of the weft thread 1 located upstream of the guide eyelet 8 is accelerated from the rest position to the desired speed only shortly before the stretched position of the weft thread 1 is reached, and thus an abrupt stress on the weft thread 1 is avoided at the crucial point in time.

Der für die zusätzliche Beschleunigung des Schussfadens 1 vorgesehene Druck der Druckluft kann zweckmässigerweise im wesentlichen während der ersten Hälfte des für das Zurückführen des Schussfadens 1 gegen die Fadenbahn 1a bestimmten Zeitabschnitts aufgebaut werden. Während dieser Teilphase kann somit der stromaufwärts der Führungsöse 8 gelegene Abschnitt 1' des Schussfadens 1 - unabhängig von dem bereits durch den Abschuss des Projektils 14 in Bewegung befindlichen, stromabwärts der Führungsöse 8' gelegenen Abschnitt 1'' - aus der Ruhelage auf die gewünschte Geschwindigkeit vorbeschleunigt werden.The pressure of the compressed air provided for the additional acceleration of the weft thread 1 can expediently be built up essentially during the first half of the period of time intended for the return of the weft thread 1 against the thread path 1a. During this partial phase, the section 1 'of the weft thread 1 located upstream of the guide eyelet 8 can thus move from the rest position to the desired speed, regardless of the section 1' 'located downstream of the guide eyelet 8' which is already in motion due to the projectile 14 being fired be accelerated.

Zur Beeinflussung des Druckaufbaues in der Druckluftdüse 6 kann nach einer Ausführungsform der Beginn der Druckluftzufuhr zeitlich vor dem durch den Zeitpunkt des Abschusses des Projektils 14 bestimmten Beginn des für das Zurückführen des Schussfadens 1 gegen die Fadenbahn 1a vorgesehenen Zeitabschnitts innerhalb einer Zeitspanne variiert werden, die einem vorbestimmten Bruchteil, z.B. 10%, des genannten Zeitabschnitts bzw. einem Drehwinkel β von ca. 0 bis 10° der Steuerwelle 20 entspricht.In order to influence the pressure build-up in the compressed air nozzle 6, according to one embodiment, the start of the compressed air supply can be varied within a period of time within a period of time before the start of the time period provided for the return of the weft thread 1 against the thread path 1a, as determined by the time the projectile 14 was fired predetermined fraction, e.g. 10% of the time period mentioned or a rotation angle β of approximately 0 to 10 ° of the control shaft 20 corresponds.

Nach einer Ausführungsform der Erfindung, an einer Webmaschine mit einer Schusseintragsgeschwindigkeit, die z.B. 40 m/sec betragen kann, ist eine ausgeglichene Beanspruchung des Schussfadens 1 während des Schusseintragsvorganges dadurch erzielbar, dass die Druckluftzufuhr zur Druckluftdüse 6 so gesteuert wird, dass der stromaufwärts der Führungsöse 8 gelegene Abschnitt 1' des Schussfadens 1 jeweils auf eine Geschwindigkeit vorbeschleunigt wird, die einem vorbestimmten Bruchteil, z.B. der Hälfte, der Geschwindigkeit des durch das Projektil 14 beschleunigten, stromabwärts der Führungsöse 8' gelegenen Abschnitts 1'' des Schussfadens 1 entspricht.According to one embodiment of the invention, on a weaving machine with a weft insertion speed, which can be, for example, 40 m / sec, a balanced loading of the weft thread 1 during the weft insertion process can be achieved by the compressed air supply to the compressed air nozzle 6 is controlled that the section 1 'of the weft thread 1 located upstream of the guide eye 8 is in each case pre-accelerated to a speed which is a predetermined fraction, for example half, of the speed of the section 1' located downstream of the guide eye 8 'and accelerated by the projectile 14 'corresponds to the weft thread 1.

Eine schonende Beanspruchung des Schussfadens 1 kann ferner dadurch erzielt werden, dass die Druckluftzufuhr zur Druckluftdüse 6 so gesteuert wird, dass die zur Vorbeschleunigung des Abschnitts 1' des Schussfadens 1 vorgesehene Geschwindigkeit der Druckluft im wesentlichen innerhalb des ersten Drittels des für das Zurückführen des Schussfadens 1 gegen die Fadenbahn 1a vorgesehenen Zeitabschnitts, beim dargestellten Beispiel nach einer Teilumdrehung des Steuerwelle 20 um einen Drehwinkel Gamma = ca. 25° nach dem Abschuss des Projektils 14, erreicht wird.A gentle loading of the weft thread 1 can also be achieved in that the compressed air supply to the compressed air nozzle 6 is controlled in such a way that the speed of the compressed air provided for pre-accelerating the section 1 ′ of the weft thread 1 is essentially within the first third of that for the return of the weft thread 1 against the thread section 1a, in the example shown after a partial rotation of the control shaft 20 by an angle of rotation gamma = approx. 25 ° after the projectile 14 has been fired.

Nach einer abgewandelten Ausführungsform kann, zusätzlich zu der in Schusseintragsrichtung (Pfeil 9) blasenden Druckluftdüse 6, auch eine in die entgegengesetzte Richtung blasende, nicht dargestellte zweite Druckluftdüse vorgesehen sein, welche in bekannter Weise zur Bremsung des Schussfadens 1 während einer Endphase des Schusseintragsvorganges, etwa über ein entsprechend ansteuerbares Steuerventil, mit Druckluft beaufschlagbar ist. Dabei kann gegebenenfalls die Fadenbremse 7 weggelassen oder , z.B. für die Verarbeitung feiner Schussgarne, lediglich als Organ zum Festhalten und Freigeben des Schussfadens 1 beibehalten und in bestimmten Winkelabschnitten des Webzyklus entsprechend angesteuert werden. Die Druckluftdüse 6 und die Bremsdüse können auch - voneinander getrennt ansteuerbar - in einem kombinierten, gemeinsamen Aggregat angeordnet sein.According to a modified embodiment, in addition to the compressed air nozzle 6 blowing in the weft insertion direction (arrow 9), a second compressed air nozzle, not shown, which blows in the opposite direction can also be provided, which, in a known manner, for braking the weft thread 1 during an end phase of the weft insertion process, for example Compressed air can be applied via a correspondingly controllable control valve. The thread brake 7 can optionally be omitted or, e.g. for the processing of fine weft yarns, only as an organ for holding and releasing the weft thread 1 and be controlled accordingly in certain angular sections of the weaving cycle. The compressed air nozzle 6 and the brake nozzle can also be arranged in a combined, common unit, which can be controlled separately from one another.

Es ist auch eine Ausführung möglich, bei der die Fadenbremse 7 zwischen der Druckluftdüse 6 und der Umlenkvorrichtung 10 angeordnet ist. Ferner ist die Erfindung auch für Webmaschinen mit einem anderen Schusseintragsorgan, z.B. einem Greiferband, verwendbar.An embodiment is also possible in which the thread brake 7 between the compressed air nozzle 6 and the deflection device 10 is arranged. Furthermore, the invention can also be used for weaving machines with another weft insertion element, for example a rapier belt.

Claims (8)

Verfahren zum Beeinflussen der Bewegung eines von einer Vorratsspule (2) abzuziehenden, gegen eine Schusseintragseinrichtung (11) einer Webmaschine, insbesondere einer Projektilwebmaschine, verlaufenden Schussfadens (1), der jeweils in einem Webzyklus für einen Schusseintrag an ein das Webfach (4) durchsetzendes Schusseintragsorgan (14) übergeben wird, wobei der Schussfaden (1) jeweils durch eine zwischen der Vorratsspule (2) und der Schusseintragseinrichtung (11) angeordnete Druckluftdüse (6) zusätzlich beschleunigt wird, nach dem Schusseintrag durch ein quer zur Schusseintragsrichtung (Pfeil 9) bewegliches Umlenkelement (16) um eine vorbestimmte Länge zurückgezogen und örtlich aus einer im wesentlichen gestreckt verlaufenden Fadenbahn (1a) in eine schlaufenartig abgewinkelte Fadenbahn (1c) ausgelenkt und aus dieser bei einem folgenden Schusseintrag jeweils gegen die gestreckt verlaufende Fadenbahn (1a) zurückgeführt wird , dadurch gekennzeichnet, dass die Druckluftdüse (6) zum zusätzlichen Beschleunigen des Schussfadens (1) jeweils innerhalb eines vorbestimmten Bruchteils des Webzyklus, welcher einer Anfangsphase des Schusseintragsvorganges entspricht, die mindestens einen Teil eines für das Zurückführen des Schussfadens (1) aus der abgewinkelten Fadenbahn (1c) gegen die im wesentlichen gestreckt verlaufende Fadenbahn (1a) bestimmten Zeitabschnitts umfasst, durch Druckluft beaufschlagt wird, und dass nach diesem Zurückführen des Schussfadens (1) die Druckluftzufuhr zur Druckluftdüse (6) während des restlichen Teils des Webzyklus gesperrt wird.Method for influencing the movement of a weft thread (1) which is to be drawn off from a supply spool (2) and runs against a weft insertion device (11) of a weaving machine, in particular a projectile weaving machine, and which in each case in a weaving cycle for a weft insertion to a weft insert (4) penetrating the shed (4) (14) is transferred, whereby the weft thread (1) is additionally accelerated by a compressed air nozzle (6) arranged between the supply spool (2) and the weft insertion device (11), after the weft insertion by a deflecting element movable transversely to the weft insertion direction (arrow 9) (16) withdrawn by a predetermined length and locally deflected from a substantially stretched thread path (1a) into a loop-like angled thread path (1c) and from which a subsequent weft insertion leads back to the stretched thread path (1a), characterized in that that the compressed air nozzle (6) for additionally accelerating the weft thread (1) in each case within a predetermined fraction of the weaving cycle, which corresponds to an initial phase of the weft insertion process, the at least part of one for returning the weft thread (1) from the angled thread path (1c) against the substantially stretched thread path (1a) includes a certain period of time, is acted upon by compressed air, and that after this return of the weft thread (1) the compressed air supply to the compressed air nozzle (6) is blocked during the remaining part of the weaving cycle. Verfahren nach Anspruch 1, dadurch gekennzeichnet, dass die Druckluftzufuhr zur Druckluftdüse (6) so gesteuert wird, dass ein für die zusätzliche Beschleunigung des Schussfadens (1) vorgesehener maximaler Druck der Druckluft im wesentlichen in der zweiten Hälfte des für das Zurückführen des Schussfadens (1) gegen die gestreckt verlaufende Fadenbahn (1a) bestimmten Zeitabschnitts wirksam ist.A method according to claim 1, characterized in that the compressed air supply to the compressed air nozzle (6) is controlled so that a maximum pressure of the compressed air provided for the additional acceleration of the weft thread (1) essentially in the second half of that for the return of the weft thread (1) is effective against the stretched thread path (1a) for a certain period of time. Verfahren nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass der für die zusätzliche Beschleunigung des Schussfadens (1) vorgesehene Druck der Druckluft im wesentlichen während der ersten Hälfte des für das Zurückführen des Schussfadens (1) gegen die gestreckt verlaufende Fadenbahn (1a) bestimmten Zeitabschnitts aufgebaut wird.A method according to claim 1 or 2, characterized in that the pressure of the compressed air provided for the additional acceleration of the weft thread (1) essentially during the first half of the time period determined for the return of the weft thread (1) against the stretched thread path (1a) is built up. Verfahren nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass der Beginn der Druckluftzufuhr zur Druckluftdüse (6) zeitlich vor dem Beginn des für das Zurückführen des Schussfadens (1) gegen die gestreckte Fadenbahn (1a) bestimmten Zeitabschnitts innerhalb einer Zeitspanne erfolgt, die einem vorbestimmten Bruchteil, z.B. 10%, des genannten Zeitabschnitts entspricht.Method according to one of the preceding claims, characterized in that the commencement of the supply of compressed air to the compressed air nozzle (6) occurs within a period of time which is a predetermined time before the start of the period of time intended for the return of the weft thread (1) against the stretched thread path (1a) Fraction, e.g. 10%, corresponds to the period mentioned. Verfahren nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass die Druckluftzufuhr zur Druckluftdüse (6) so gesteuert wird, dass ein stromaufwärts des Umlenkelementes (16) gelegener Abschnitt (1') des Schussfadens (1) auf eine Geschwindigkeit vorbeschleunigt wird, die einem vorbestimmten Bruchteil, z.B. der Hälfte, der Geschwindigkeit eines durch das Schusseintragsorgan (14) beschleunigten, stromabwärts des Umlenkelementes (16) gelegenen Abschnitts (1'') des Schussfadens (1) entspricht.Method according to one of the preceding claims, characterized in that the compressed air supply to the compressed air nozzle (6) is controlled such that a section (1 ') of the weft thread (1) located upstream of the deflecting element (16) is pre-accelerated to a speed which is a predetermined one Fraction, e.g. half corresponds to the speed of a section (1 '') of the weft thread (1) which is accelerated by the weft insertion element (14) and is located downstream of the deflecting element (16). Verfahren nach Anspruch 5, dadurch gekennzeichnet, dass die Druckluftzufuhr zur Druckluftdüse (6) so gesteuert wird, dass die zur Vorbeschleunigung des stromaufwärts des Umlenkelementes (16) gelegenen Fadenabschnitts (1') vorgesehene Geschwindigkeit der Druckluft im wesentlichen innerhalb des ersten Drittels des für das Zurückführen des Schussfadens (1) gegen die gestreckte Fadenbahn (1a) vorgesehenen Zeitabschnitts erreicht wird.A method according to claim 5, characterized in that the compressed air supply to the compressed air nozzle (6) is controlled so that the speed of the compressed air provided for pre-accelerating the thread section (1 ') located upstream of the deflecting element (16) is essentially within the first third of that for the Returning the weft thread (1) against the stretched thread path (1a) is achieved. Webmaschine zur Durchführung des Verfahrens nach einem der vorangehenden Ansprüche, dadurch gekennzeichnet, dass die Druckluftdüse (6) an ein nur zur kurzzeitigen Aktivierung innerhalb des vorbestimmten Bruchteils des Webzyklus bestimmtes Steuerventil (21) angeschlossen ist, welches beim Beginn des Schusseintragsvorganges aus einer eine Druckluftzufuhr sperrenden Sperrstellung in eine die Druckluftzufuhr zur Druckluftdüse freigebende Durchflussstellung, und nach der durch das Zurückführen des Umlenkelementes (16) gegen die gestreckt verlaufende Fadenbahn (1a) bestimmten Anfangsphase des Schusseintragsvorganges in die Sperrstellung verstellbar ist und welches diese Sperrstellung bis zum nächsten Schusseintrag einnimmt.Weaving machine for carrying out the method according to one of the preceding claims, characterized in that the compressed air nozzle (6) is connected to a control valve (21) which is only intended for brief activation within the predetermined fraction of the weaving cycle and which blocks a compressed air supply at the start of the weft insertion process Blocked position in a flow position releasing the compressed air supply to the compressed air nozzle, and after the initial phase of the weft insertion process determined by the return of the deflecting element (16) against the stretched thread path (1a) is adjustable into the blocked position and which this blocking position assumes until the next weft insertion. Webmaschine nach Anspruch 7, dadurch gekennzeichnet, dass bei einem jeweils durch eine Umdrehung einer Steuerwelle (20) bestimmten Webzyklus der zur Aktivierung der Druckluftdüse (6) vorbestimmte Bruchteil dieses Webzyklus einer Teilumdrehung der Steuerwelle (20) über einen Drehwinkel (α) von ca. 60° bis 120°, z.B. 90°, entspricht.Weaving machine according to claim 7, characterized in that in a weaving cycle determined in each case by one revolution of a control shaft (20), the fraction of this weaving cycle of a partial revolution of the control shaft (20) predetermined for activation of the compressed air nozzle (6) over a rotation angle (α) of approx. 60 ° to 120 °, e.g. 90 °.
EP93810220A 1993-03-26 1993-03-26 Process to influence the movement of a weft yarn drawn from a storage bobbin to the weft inserting device of a loom and loom to carry out the process Expired - Lifetime EP0617153B1 (en)

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DE59304128T DE59304128D1 (en) 1993-03-26 1993-03-26 Method for influencing the movement of a weft thread to be drawn off from a supply spool and running against a weft insertion device of a weaving machine and weaving machine for carrying out the method
EP93810220A EP0617153B1 (en) 1993-03-26 1993-03-26 Process to influence the movement of a weft yarn drawn from a storage bobbin to the weft inserting device of a loom and loom to carry out the process
US08/184,317 US5423355A (en) 1993-03-26 1994-01-21 Method and apparatus for limiting stresses in weft yarn advancing towards a weft insertion mechanism

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CN102767036A (en) * 2011-05-06 2012-11-07 株式会社丰田自动织机 Weft storage device of loom
CN102797103A (en) * 2011-05-27 2012-11-28 株式会社丰田自动织机 Weft yarn storing device in weaving machine
CN109415850A (en) * 2016-07-06 2019-03-01 Iro有限公司 Form the weft yarn feed apparatus of Intermediate yarn buffer and the method for controlling weft yarn feed apparatus

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EP0919654B1 (en) * 1997-11-28 2002-07-31 Sulzer Textil Ag Process and device for weft-insertion in linear shed multiphase looms
DE102010044127B3 (en) * 2010-11-18 2011-12-29 Lindauer Dornier Gesellschaft Mit Beschränkter Haftung Gripper head for the entry of weft threads on a rapier loom and a rapier loom with such a gripper head
DE102012208158B3 (en) * 2012-05-15 2013-09-05 Lindauer Dornier Gmbh Air jet loom with a device for compressed air supply

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EP0189497A1 (en) * 1985-01-28 1986-08-06 GebràœDer Sulzer Aktiengesellschaft Arrangement for the insertion of at least one weft thread into looms
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EP0189497A1 (en) * 1985-01-28 1986-08-06 GebràœDer Sulzer Aktiengesellschaft Arrangement for the insertion of at least one weft thread into looms
EP0389410A1 (en) * 1989-03-17 1990-09-26 Sulzer RàœTi Ag Weft threading system for a loom

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EP0796936A2 (en) * 1996-03-22 1997-09-24 Lindauer Dornier Gesellschaft M.B.H Method and device to pneumatically assist the insertion and the tensioning of a weft thread on looms
DE19611320A1 (en) * 1996-03-22 1997-09-25 Dornier Gmbh Lindauer Method and device for pneumatically supporting the insertion and tensioning of a weft thread in weaving machines
US5816296A (en) * 1996-03-22 1998-10-06 Lindauer Dornier Gesellschaft Mbh Method and apparatus for controlling the tension and the presentation of a weft thread for insertion into a loom shed
EP0796936A3 (en) * 1996-03-22 1999-02-24 Lindauer Dornier Gesellschaft M.B.H Method and device to pneumatically assist the insertion and the tensioning of a weft thread on looms
DE19611320C2 (en) * 1996-03-22 1999-05-20 Dornier Gmbh Lindauer Method and device for pneumatically supporting the insertion and tensioning of a weft thread in weaving machines
CN102767036A (en) * 2011-05-06 2012-11-07 株式会社丰田自动织机 Weft storage device of loom
CN102767036B (en) * 2011-05-06 2014-05-07 株式会社丰田自动织机 Weft storage device of loom
CN102797103A (en) * 2011-05-27 2012-11-28 株式会社丰田自动织机 Weft yarn storing device in weaving machine
CN109415850A (en) * 2016-07-06 2019-03-01 Iro有限公司 Form the weft yarn feed apparatus of Intermediate yarn buffer and the method for controlling weft yarn feed apparatus
EP3481979A4 (en) * 2016-07-06 2020-03-04 IRO Aktiebolag Weft yarn feeding device forming an intermediate yarn buffer and a method for controlling a weft yarn feeding device
CN109415850B (en) * 2016-07-06 2021-05-11 范德威尔瑞典公司 Weft feeding device forming intermediate yarn buffer and method for controlling weft feeding device

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DE59304128D1 (en) 1996-11-14
US5423355A (en) 1995-06-13
EP0617153B1 (en) 1996-10-09

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