EP0161376A1 - Air jet loom - Google Patents

Abstract

In the air jet waving machine (10) the weft thread deflecting means is formed by a suction pipe (1) which with its side opening (32) is movable directly into the airstream of a feed nozzle (3) which is provided with a mixer tube (5). As a result, the weft thread (18), following emission of a stoppage signal by the weft thread monitor (34, 35), can be immediately kept away from the shed (21) and can no longer be introduced into it. The thread (18) can be guided into a waste container. <IMAGE>

Description

The invention relates to an air jet weaving machine with a weft insertion nozzle arranged outside the shed and a weft deflection device arranged between it and the shed for keeping the weft away from the shed after a signal has been given to stop the loom as a result of a fault.

In a previous machine of this type (DE-OS 32 03 892), the weft deflection device consists of a plate controlled by an electromagnet and movable in the air jet of the entry nozzle. With this type of construction, the weft thread cannot be safely kept away from the shed when the machine is stopped, but the free end of the weft thread can nevertheless get into the shed or into an adjacent part of the weaving machine, which can result in further malfunctions on the weaving machine.

The object of the invention is to create a weaving machine that is particularly improved in this regard.

The invention consists in the fact that the weft deflection device has a - transverse to the weft direction - with an opening in the air jet generated by the entry nozzle movable channel.

In this way, it can be achieved that the air flowing out of the entry nozzle is discharged practically completely through the deflection channel and thus the thread can also be safely kept away from the shed or other parts of the weaving machine. Immediately after the stop signal is given, the weft thread is certainly kept away from the shed; no further weft thread can be inserted in whole or in part in an undesired manner, which would have to be pulled out later.

In one embodiment, the deflection channel is a suction pipe which can be displaced from a compressed air cylinder, the free end of which has the opening which can be moved into the air jet of the entry nozzle. This increases the deflection effect, and the end of the weft thread can be fed into a waste container immediately after being cut off.

• Fig. 1 ist eine Vorderansicht auf einige Teile einer erfindungsgemäss ausgebildeten Webmaschine, von der Warenseite her gesehen und in schematischer Darstellung,
• Fig. 2 ist ein Schnitt nach Linie II - II in Fig. l,
• Fig. 3 zeigt die Teile nach Fig. 1 in einer anderen Position,
• Fig. 4 ist ein Schnitt nach Linie IV - IV in Fig. 3,
• Fig. 5 ist eine der Fig. 1 entsprechende Vorderansicht einer abgewandelten Ausführungsform,
• Fig. 6 ein Schnitt nach Linie VI - VI in Fig. 5,
• Fig. 7 zeigt die Teile nach Fig. 5 in anderer Position und
• Fig. 8 ist ein Schnitt nach Linie VIII - VIII in Fig. 7.

Further features emerge from the following description of exemplary embodiments in conjunction with the drawing and the claims.

• 1 is a front view of some parts of a weaving machine designed according to the invention, seen from the goods side and in a schematic representation,
• Fig. 2 is a section along line II - II in Fig. 1,
• 3 shows the parts according to FIG. 1 in a different position,
• Fig. 4 is a section along line IV - IV in Fig. 3,
• 5 is a front view corresponding to FIG. 1 of a modified embodiment,
• 6 shows a section along line VI-VI in FIG. 5,
• Fig. 7 shows the parts of FIG. 5 in a different position and
• FIG. 8 is a section along line VIII - VIII in FIG. 7.

The weaving machine 10 contains a drawer 2, on which the reed 7 is fastened. A block 13 containing a pressure cylinder 12 is fastened on the drawer 2 by means of a screw 14, which moves back and forth together with the drawer 2 and the reed 7 in accordance with arrow 15. The shed 21 is formed by the warp threads 22, 23, which are controlled by strands 24, 25. The reed 7 contains lamellae 17, which form a central tunnel 16, in which the weft thread 18 is drawn off and inserted by a bobbin 25. The weft thread 18 runs over a weft thread store 26, a thread brake 27, an insertion nozzle 3 and a mixing tube 5. The rivet stop is labeled 61, the fabric 62.

A piston 20 is displaceable in the cylinder 12, to which a suction pipe 1 is fastened via a rod 52 and is connected to the suction side of a fan 6 via a suction line 53. Compressed air can be fed into the cylinder 12 via an air supply line 31, as a result of which the intake manifold 1 e.g. after weft breakage and delivery of a stop signal can be shifted into the upper position la shown in FIG. 3. In this there is a lateral opening 32 of the suction pipe 1 immediately in front of the outflow opening 33 of the mixing pipe 5 of the nozzle 3 and thus in the air jet 59 of the nozzle.

The mode of action is as follows. If e.g. If a weft break is detected by a sensor 34 of a weft monitor device designated as a whole as 35 and a signal for stopping the weaving machine 10 is given, the monitor device 35 emits a signal via an electrical line 36 to the control magnet 37 of a valve 38, thereby this reaches the open position according to FIG. 3. The air coming from a compressed air source 56 via a line 39 now passes via line 31 into the pressure cylinder 12, the piston 20 of which reaches the upper position according to FIG. 3, whereby the suction pipe 1 is moved into the position la. In this, all the air flowing out of the mixing tube 5 of the nozzle 3 (jet 59) and the weft thread 18 are directed into the suction tube 1 and thus in particular the weft thread 18 is kept away from the shed 21. In the time that passes until the weaving machine 10 comes to a standstill, no more weft thread 18 can be inserted into the compartment 21. The deflected weft thread 18 can be cut off using scissors 58 and guided into a waste container. The weft is then repaired.

Now the suction pipe 1 is moved back into the lower, ineffective position according to FIG. 1. The weaving machine 10 can then be switched on again and the weaving operation continued.

1-4, two-shot operation is provided, ie the nozzle 3 can be moved downward in FIG. 1 and a nozzle 3a with a mixing tube 5a can be moved in front of the shed 21. Then - the weft 18a can be drawn off from the bobbin 25a via the parts 26a, 27a and be entered.

In the embodiment according to FIGS. 5-8, the block 13 is arranged on a fixed part 41 of the loom frame. The suction pipe 1b can be lowered from the inactive position according to FIG. 5,6 into the lower working position 1c according to FIG. 7,8, in which the opening 32 is directly in front of the blow-out opening 33 of the mixing pipe 5 of the nozzle 3. The deflecting or suction pipe 1b has a curved deflecting surface 45. The weft thread 18 can be deflected via it, together with the air coming from the nozzle 3 and the pipe 5, and, after cutting, can be guided into a waste container.

In the deflecting tube 1 or lc, several successive weft threads can also be deflected and guided away after cutting, as e.g. may be necessary for a weft repair (synchronization of the weft sequence).

Claims (6)

1. Air jet weaving machine with a weft insertion nozzle (3, 3a) arranged outside the shed (21) and a weft deflection device arranged between it and the shed (21) for keeping the weft away from the shed (21) after a signal for stopping the Weaving machine as a result of a malfunction, characterized in that the weft deflecting device contains a channel (1) which is movable - transversely to the weft direction - with an opening (32) in the air jet (59) generated by the entry nozzle (3,3a). 2. Machine according to claim 1, characterized in that the deflection channel is a suction tube (1) which can be displaced from a compressed air cylinder (13), the free end of which is the opening (32) which is movable into the air jet (59) of the entry nozzle (3, 3a). having. 3. Machine according to claims 1 and 2, characterized in that the opening 32 contains a curved deflecting surface (50). 4. Machine according to claims 1 and 2, characterized in that the deflection channel (lc) is arranged stationary on the machine frame (41). 5. Machine according to one of the preceding claims, characterized in that the deflection channel (1) is arranged on the drawer (2) of the weaving machine and can be moved back and forth with it. 6. Machine according to one of the preceding claims, characterized in that the deflection channel of one Control device (35) is actuated, which is operatively connected to a weft monitor device (34) of the weaving machine.

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