EP0505317A1 - Weft guiding device at a weaving machine with fixed weft supply bobbin - Google Patents

Abstract

A fixed thread guide element (3) and an optical sensor (20) for monitoring the weft thread (2) are arranged between the supply spool and a thread store fed by it, which has a thread guide (12) which can be rotated about an axis of rotation (11) the sensor (20) and an entry channel (18) passing through the thread guide (12) in the axial direction are guided against the thread store (5). The entry channel (18) of the thread guide (12) is arranged eccentrically offset with respect to its axis of rotation (11), so that the section of the weft thread (2) running towards it is laterally deflected and this section detects a rotational movement about the axis of rotation (11) that can be detected by the sensor (20) ) is issued, which enables reliable monitoring of the weft thread (2) with minimal thread tension. A guide piece which can be attached to the thread guide (12) and has a guide channel arranged eccentrically with respect to the axis of rotation (11) can also be provided as a means for deflecting the weft thread (2). <IMAGE>

Description

The invention relates to a thread guiding device on a weaving machine with a stationary weft supply spool and a thread store fed by it, which has a thread guide rotatable about an axis of rotation with an entry channel for the weft thread passing through it in the axial direction, with a fixedly arranged between the supply spool and the thread store Thread guide element for the weft thread and a monitoring device which responds to the thread path between the thread guide element and the thread store.

In a device of this type known from DE-PS 29 08 743, an electronic thread monitor with a thread button is provided for monitoring the weft thread running towards the thread storage device, which is excited by the running weft thread and which has a scanning device and a logic circuit with a stop device in Series is switched. In the event of a weft break, the weaving machine is switched off via the stop device. Such electronic devices require one Relatively complex control and, depending on the weft material to be processed, their function can be impaired by contamination.

Piezoceramic elements are also known for monitoring the weft thread running towards the thread storage device, but these elements require additional deflections of the weft thread in order to achieve a specific thread tension necessary for the detection of the thread run and which, because they respond to the "noise" of the running thread Ambient noise, e.g. their function may be impaired by the hissing of compressed air flowing out of pneumatic weaving machines.

The invention is based on the object of providing a thread guide device of the type mentioned at the outset which is improved in this regard in particular in a simple, robust construction which allows monitoring of the weft thread approaching the thread store independent of the tension of the weft thread and of environmental influences.

This object is achieved according to the invention in that an optical sensor which can be penetrated by the weft thread is provided as the monitoring device, and in that the thread guide is assigned a guide means for laterally deflecting the portion of the weft thread running towards it.

The inventive design of the thread guiding device achieves simple, gentle guiding and reliable monitoring of the weft thread with minimal thread tension, with the guide means according to the invention for generating deflection movements of the weft thread overlaying the thread path, the use of a previously used especially for monitoring optical sensor provided for ballooning threads for monitoring the weft thread running towards the thread store in the stretched state. The sensor is automatically cleaned by the laterally deflected thread rotating in the optical sensor, thus ensuring the safe transmission of the corresponding control signals.

Embodiments of the invention are specified in the dependent claims.

• Fig. 1, 2, 3 Teilansichten von Vorrichtungen gemäss der Erfindung mit schematisch angedeuteten Teilen einer Webmaschine, je in einer an deren Ausführungsform;
• Fig. 4 eine Einzelheit aus der Fig. 1 in einer grösseren Darstellung in einem Teillängs schnitt;
• Fig. 5, 6 je eine Einzelheit aus der Fig. 2 in einer entsprechenden Darstellung je in einer anderen Ausführungsform;
• Fig. 7 eine Einzelheit aus der Fig. 3 in einer entsprechenden Darstellung.

Further details emerge from the following description of exemplary embodiments of the invention shown schematically in the drawing, in conjunction with the claims. Show it:

• Fig. 1, 2, 3 partial views of devices according to the invention with schematically indicated parts of a weaving machine, each in a different embodiment thereof;
• 4 shows a detail from FIG. 1 in a larger representation in a partial longitudinal section;
• 5, 6 each show a detail from FIG. 2 in a corresponding representation in a different embodiment;
• Fig. 7 shows a detail from Fig. 3 in a corresponding representation.

According to the greatly simplified representation according to FIG. 1, a weft thread 2 running from a stationary weft thread supply spool 1 is countered by a fixed guide eye 3 and a monitoring device 4 a thread store 5 and from this through an eyelet 6 into a pneumatic weft insertion nozzle 7. The weft thread 2 is inserted into a shed of a weaving machine, not shown, via the weft insertion nozzle 7 according to arrow 8.

The thread store 5 contains a stationary drum-like winding body 10 and a thread guide 12 which can be rotated about its axis 11 and which, according to the illustration, is coupled to a drive device 14 via a belt drive 13 and can be driven intermittently via the latter. The thread guide 12 contains a hollow guide shaft 15 and a hollow winding arm 16 for guiding the weft thread 2, which is wound up by the winding arm 16 onto the winding body 10 and is intermittently drawn off from it via the weft insertion nozzle 7 for a weft insertion in the axial direction overhead. The drive device 14 can be controlled via a control device 17 of the weaving machine, which can be influenced by control signals from the monitoring device 4.

As can be seen in particular from FIG. 4, the winding shaft 15 of the thread guide 12 is designed with an inlet channel arranged eccentrically with respect to its axis of rotation 11 in the form of a bore 18, through which the weft thread 2, with the winding arm 16 rotating, coaxial with the axis 11 in the example shown Arranged guide eyelet 3 laterally deflected and in accordance with the thread course shown with full lines and a half-revolution of the winding shaft 15, the dashed line 2 'shown around the axis of rotation 11 is guided. The monitoring device 4 contains an optical sensor 20 in the form of a guide eye, which contains a transmitter 21 and a receiver 22 for light beams in a control ring. With the driven Thread guide 12, weft thread 2 rotating conically around axis 11, generates a control signal which does not occur in the event of a weft thread breakage. If this control signal fails to appear during a drive phase of the thread guide 12, the drive device 14 and the weaving machine are accordingly switched off via the control device 17.

The supply reel 1 can be arranged in a position coaxial with the winding body 10 or in an angular position in which its longitudinal axis includes any angle α with the axis 11 of the winding body 10, which according to FIG. Can be 90 °. As can be seen from FIGS. 2 and 5, the thread guide 12 can have a winding shaft 15a with an inlet channel central to the axis 11 in the form of a bore 18a and a guide piece 23 which can be fastened on the winding shaft 15a and which has a desired axial direction according to the arrows 9 Includes adjustable guide eyelet 24 for the weft thread 2, which is adjustable eccentrically to the axis 11, from the entry side of the winding shaft 15a. 6, a corresponding guide piece 23a which can be placed on the winding shaft 15a can be designed with a bore 19 which runs obliquely to the axis 11 and which has a correspondingly eccentric inlet opening for the weft thread 2. The guide pieces 23 and 23a can be made of a plastic.

In these versions too, the weft thread 2 guided through the guide eyelet 24 or through the bore 19 is deflected in relation to the axis of rotation 11 and guided around it in the manner described above, the corresponding control signals being able to be generated via the monitoring device 4. This embodiment allows in particular the use of the arrangement according to the invention in connection with existing ones Thread stores, in which the winding shaft is each designed in a known manner with a central entry channel. Correspondingly, the winding shafts of known thread stores can each be provided with a guide piece 23 or 23a, which enables the lateral deflection of the weft thread 2 and thus cooperation with the optical monitoring device 4 arranged according to the invention. It goes without saying that in each case a winding shaft 15 with an eccentric bore 18 can also be provided with a corresponding guide piece 23 or 23a, whereby, for example, a greater deflection of the weft thread 2 can be achieved.

3, the weft thread 2 can be guided against the thread guide 12 in a section running approximately at right angles to the axis of rotation 11, which in this embodiment has a winding shaft 15b with an end face 25 inclined to the axis of rotation 11. The winding shaft 15b can also be designed with a central bore or, as shown in FIG. 7, with a bore 18 eccentric to the axis 11. 7 can with a revolution of the winding shaft 15 b of the weft thread 2 periodically deflected by a deflection A from the position shown in full lines in the position shown in dashed lines 2 'and returned to the position shown in full lines. In the angular position 15b 'indicated by dash-dotted lines, which is offset by 180 ° with respect to the position of the winding shaft 15b shown in full lines, the weft thread 2 is deflected at the correspondingly rounded transition part 26 between the end face 25 and the peripheral surface of the winding shaft 15b and along the end face 25 into the bore 18. With this embodiment, a lateral deflection of the weft thread 2 tapering at an angle to the winding shaft 15b can be easily achieved, whereby the version shown with an eccentric bore, compared to a version with a central bore, allows a correspondingly greater deflection.

Designs with another guide means for lateral deflection of the weft thread are also possible, e.g. For example, a deflection element for the weft thread 2, which can be driven in any manner transverse to the thread path, can be provided between the guide eye 3 and the thread guide 12.

Claims (4)

Thread guiding device on a weaving machine with a stationary weft supply spool (1) and a thread store (5) fed by it, which has a thread guide (12) rotatable about an axis of rotation (11) with an entry channel (18, 18a) passing through it in the axial direction for the Has weft thread (2), with a thread guide element (3) for the weft thread arranged fixedly between the supply spool (1) and the thread store (5) and a monitoring device (4) which responds to the thread path between the thread guide element (3) and the thread store (5) ), characterized in that an optical sensor (20) which can be penetrated by the weft thread (2) is provided as the monitoring device (4) and that the thread guide (12) is assigned a guide means for laterally deflecting the portion of the weft thread (2) which is coming towards it. Apparatus according to claim 1, characterized in that as the guide means for deflecting the weft thread (2) the inlet channel (18) of the thread guide (12) is arranged eccentrically offset with respect to its axis of rotation (11). Apparatus according to claim 1, characterized in that as guide means for deflecting the weft thread (2) a guide piece (23, 23a) which is assigned to the thread guide (12) and which is assigned to the entry side of the entry channel (18a) and is arranged eccentrically with respect to the axis of rotation (11) Guide channel (19, 24) is provided. Apparatus according to claim 1 or 2, characterized in that an end face (25) of the thread guide (12) which contains the entry side of the entry channel (18) and is inclined with respect to the axis of rotation (11) is provided as guide means for deflecting the weft thread (2).

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