EP0976859A1 - Process for repairing faulty weftpicks in weaving looms, more especially air jet looms - Google Patents

Abstract

When a faulty pick is detected, the cutting action of the yarn cutters (6,7) is suppressed but the beating-up action continues due to the inertia of the loom. To facilitate withdrawal of the yarn loop (4a) by a suction nozzle (11), an air jet is directed by an assisting nozzle (13) against the action of the reed (3) to release the yarn from the edge-forming mechanism (10). An Independent claim is also included for an air jet loom incorporating an assisting nozzle (13) to direct an air jet against the edge-forming mechanism (10). An angled impact surface (14) directs the jet against the entrainment slot (10b).

Description

The invention relates to a method for eliminating a weft error on weaving machines, in particular air-jet weaving machines with pneumatic inserts, with the features of the preamble of patent claim 1.
The invention further relates to a weaving machine with the features according to the preamble of patent claim 5.

Weaving machines are known, in particular air jet weaving machines, which are equipped with purely pneumatically operated inserts for forming firm, closed fabric edges.
In each case, an insert is positioned on the input and output sides of a shed to be formed and close to the stop edge of a fabric in the weaving machine, in such a way that the weft thread entered into the shed when struck against the stop edge of the fabric by a reed at the same time over the approximately V-shaped trained weft thread inlet of the respective insert into an end-limited centering slot of the insert lying approximately in the plane of the stop edge of the fabric.
A weft thread correctly inserted into the shed is cut by weft scissors known to be arranged in this area after striking the stop edge, the weft end in question is held pneumatically in the respective insert and subsequently the weft ends are pneumatically returned to a shed, which generally follows the shed, whose warp threads have tied the previously entered weft thread.

If, in the course of the weft thread insertion process, any type of error in the weft thread insertion process is detected and detected by existing monitoring devices, a process sequence known per se is automatically initiated to remedy this error, which is usually in the weft thread. This process sequence is known to the person skilled in the art under the term "automatic shot break repair".
The process sequence of automatic weft breakage elimination requires, among other things, in air jet weaving machines that downstream and the exit side of the weft insertion channel of a reed there are means for grasping and pulling off the relevant weft thread, that the weft thread in question and struck on the stop edge of the fabric are not cut by the weft thread scissors and that So-called relay nozzles over the weaving width are present, which detach the relevant weft thread from the stop edge while forming a so-called weft thread loop when the shed is open.
Together with this detachment process, the means for pulling off the weft thread is active, so that a programmed weft thread length for eliminating the weft error can be pulled off the pulling means, which is usually a pneumatically acting suction nozzle.

Because of the different geometric inevitably in an air jet loom Conditions of the stop edge of the fabric, the position of the stationary pneumatic Insert and the position of the stationary suction nozzle, the of the Weft thread to be removed at an angle through the centering slot of the insert drawn. When loops form in the weft thread, this leads to the loop the warp thread side of the centering slot remains, i.e. cannot be removed without the risk that the weft sticks to the centering slot or leaves.

It is an object of the invention to take measures in the manufacture of tissue with pneumatically generated inlay edges, the automatic correction of a shot error support.

According to the invention, the object is achieved by means of a known process sequence automatic shot error correction solved additional procedural step, which consists in that the weft thread to be detached from the stop edge of the fabric during the Detaching downstream of the weft insertion in this way by means of at least one air pulse it is applied that the weft thread loop outside when the weft thread is pulled off of the insert centering slot or at least leaves the centering slot.

In order to carry out the additional method step, an air jet nozzle is provided according to the invention, the outlet of which is directed to a weft thread section which is on the exit side of the shed and which is preferably directed to the weft thread lying in the centering slot of the insert.
It is advantageous if the air pulse at least on the warp side affects the centering slot of the insert and thereby strikes the weft thread within the centering slot. This means that the air pulse emerges from the jet nozzle at an acute angle to the longitudinal center axis of the insert.
In a further embodiment of the invention it is provided that the centering slot of the insert on the warp thread side has a predetermined length L in the direction of the upper warp threads and an impact surface designed in the direction of the lower warp threads in order to achieve a sufficiently high effectiveness of the air pulse in the centering slot and to allow the weft thread to slide out support from the centering slot.
In addition to the first blasting nozzle according to the invention, it is conceivable to provide a further blasting nozzle on the output side, ie downstream of the centering slot, in order to support the effectiveness of the weft thread grinding out of the centering.

According to the invention, an additional flow channel can be provided in the insert on the outlet side be present, the output of which is directed to the weft.

According to the invention it can further be provided that the depositor at the time of the Fixing weft errors from the critical area of the weft movement controlled or by the pulling weft thread itself from its working position swung out and after the end of the shot error correction in its working position is pivoted back.

With the solution according to the invention it is achieved that the automatic removal of weft defects during the production of fabrics with insert edges produced by pneumatic inserts can be carried out without interrupting the process sequence.
Manual intervention by the operator in the process sequence is avoided and weaving machine stops due to this, with their sequelae, such as contact markings in the fabric, are reduced.
The solution according to the invention thus contributes to increasing the effectiveness of an air jet weaving machine with pneumatic inserts.

The invention is explained in more detail below using an exemplary embodiment.

Figur 1

die Schussfehlerbeseitigung auf einer Luftdüsenwebmaschine mit pneumatischem Einleger nach dem Stand der Technik;

Figur 2

die verbesserte Schussfehlerbeseitigung;

Figur 3

einen schematisch dargestellten pneumatischen Einleger gemäß Ansicht A in Figur 4;

Figur 4

den pneumatischen Einleger gemäß der Linie B-B in Figur 3;

Figur 5

den pneumatischen Einleger gemäß Ansicht C in Figur 3.

The drawings show:

Figure 1

the elimination of weft errors on an air jet weaving machine with a pneumatic insert according to the prior art;

Figure 2

improved bullet correction;

Figure 3

a schematically illustrated pneumatic insert according to view A in Figure 4;

Figure 4

the pneumatic insert according to the line BB in Figure 3;

Figure 5

the pneumatic insert according to view C in Figure 3.

According to the prior art, in the schematically illustrated air jet weaving machine 1 according to FIG. 1, a weft error is eliminated by first detecting a weft monitor 2 on the output side of the weft insertion channel 3a of a reed 3, an error in the weft 4 inserted into the entry channel 3a by the main blowing nozzle 5. The weft thread 4 passing through the weft monitor 2 is then gripped by a stationary suction nozzle 11 and held under tension.
In terms of control technology, the detection signal of the weft monitor 2 is used to prevent the cutting process of the weft shears 6 on the entry side and the weft shears 7 on the outlet side.
The weft thread 4 leading to a weft error and entered into the entry channel 3a of the reed 3 is struck by the reed 3 against the stop edge 8a of the fabric 8, although the drive of the sley (not shown) carrying the reed 3 is also switched off. The striking of the weft thread is due to the fact that moments of inertia are effective in the drive of the weaving machine and in the sley itself, and to that extent a rivet stop following the stop signal of the weft thread guard 2 on the stop edge 8a cannot be prevented.
The relevant weft thread 4 is thus inevitably struck against the stop edge 8a of the fabric 8 after a stop signal from the weft guard 2. With a method known to the person skilled in the art under the term "automatic weft breakage elimination", a process sequence is started in order to detach the weft thread 4 attached to the stop edge 8a of the fabric 8 from it.
The procedural steps up to the restarting of the weaving process are known, so that no further details are given here.
In the event that a fabric 8 with so-called insert edges 8b is to be produced and these insert edges 8b are realized by pneumatic inserts 9, 10, the difficulty shown in FIG. 1 arises, namely that in the course of detaching the weft thread 4 from the Weft thread loop 4a forming the stop edge 8a cannot pass through the weft thread inlet 10a or the centering slot 10b of the insert on the pull-out side, but rather the weft thread removal is prevented by the suction nozzle 11 and the automatic weft breakage elimination is blocked.
This is where the solution according to the invention comes in.

According to FIG. 2, at least one air pulse from a jet nozzle 13 acts on the weft thread 4 at an angle α against the weft thread movement 3b of the reed 3 in such a way that a weft fault in the form of a weft loop 4a does not deal with the weft fault correction during the automatic weft break removal on the output side of the shed 12 Insert 10 is tangent or at least blown out of insert 10.
It is advantageous if the air pulse is directed at an acute angle α to the warp thread-side opening of the weft thread inlet 10a and the centering slot 10b of the insert 10, because here in connection with an inventive design of the warp thread-side opening of the weft thread inlet 10a and the centering slot 10b, the air impulse effect occurs Weft 4 is supported.
The further solution according to the invention consists in that the warp thread-side weft inlet 10a and the centering slot 10b form a baffle surface 14 for the at least one air pulse over a predetermined length L.
If, in a further advantageous embodiment of the invention, the insert 10 is also rotatably or at least pivotably mounted about an axis of rotation 16 located eccentrically to the longitudinal center axis 15 of the insert 10, the at least one air pulse acting on the baffle surfaces 14 leads to a pivoting movement of the insert 10 in the direction the double arrow 17.
Under certain circumstances, the pivoting movement can be supported in combination with the tensile force F of the suction nozzle 11 present in the relevant weft thread section. However, this presupposes that the relevant weft thread 4 is gripped by the suction nozzle 11 and that a weft thread loop 4a actually comes to rest on the insert 10 on the outlet side.

FIG. 3 shows the pneumatic insert according to view A according to FIGS. 2 and 4, as it is used in a schematically illustrated air jet weaving machine according to FIG. 2.
The insert 10 has a V-shaped weft inlet 10a which merges into the end-limited centering slot 10b, in which the weft end of the weft 4 to be inserted is held and finally in a shed 12 according to FIG. Figure 2 is returned.
According to the invention, the warp thread-side weft inlet 10a and the centering slot 10b each form an impact surface 14 between the upper and lower inlet legs 10c, 10d, on which the outlet 13a of a jet nozzle 13 can be aligned, see FIG. 2.
The lower and upper impact surface 14 of the insert 10, which is relevant for blowing out the weft thread 4, extends on the warp thread side approximately from the upper and lower edge of the insert leg 10c or 10d of the V-shaped weft thread inlet 10a to the upper and lower edge of the centering slot 10b.

According to FIG. 3, as an alternative to the jet nozzle 13 according to FIG. 2, in a further embodiment of the invention, a weft blowing nozzle 20 with compressed air connection 21 acting in the direction of the weft inlet 10 a can be provided in the end boundary 10 ″ of the centering slot 10 b.
The compressed air connection 21 is connected to a flexible compressed air line 22.

FIG. 4 shows the insert 10 on the extract side according to the line BB in FIG. 3.
The respective edge 10b 'of the lower inlet leg 10d or the upper inlet leg 10c marks the beginning of the centering slot 10b according to FIG. 3.
For the purpose of tensioning the weft end of a flawlessly inserted weft thread 4 struck on the stop edge 8a of the fabric, a weft thread tensioning channel 18 is provided in front of the end limit 10b ″ of the centering slot 10b, in which the end of the struck weft thread 4 on the exit side is held pneumatically becomes. As is known, for the purpose of inserting the weft end on the extract side into a shed 12 to be formed, a weft insertion channel 19 is provided which blows the weft end held in the weft tensioning channel 18 into the relevant shed 12.
In order to make the insert 10 pivotable in connection with the action of the jet nozzle 13 during the removal of the weft thread loop 4a, the insert 10 has an axis 16 which is rotatably mounted in a part of the weaving machine, not shown.

The impact surfaces 14 formed on the insert 10 in FIG. 5 each close one Angle β of more than 45 °.

DRAWING LEGEND

01

Air jet loom

02

Gunman

03

Advised

03a

Weft insertion channel

03b

arrow

04

Weft

04a

Weft loop

05

Main blowing nozzle

06

Weft scissors

07

Weft scissors

08

tissue

08a

Stop edge

08b

Insert edge

09

Depositor

10th

Depositor

10a

Weft infeed

10b

Centering slot

10b '

Edge

10b ''

End limit

10c

Weft inlet leg

10d

Weft inlet leg

11

Suction nozzle

12th

Shed

13

Jet nozzle

13a

output

14

Baffle

15

Longitudinal center axis

16

axis

17th

Double arrow

18th

Weft thread tension channel

19th

Weft insertion channel

20th

Exhaust nozzle

21

Compressed air connection

22

Compressed air line

Claims (11)

Method for eliminating a weft error on weaving machines, in particular on air jet weaving machines with a pneumatic insert arranged on the entry and exit sides of a shed, after which a weft thread is inserted from a main nozzle into the weft thread entry channel of a reed and is recognized and detected as a weft error by a weft thread monitor present on the exit side of the reed, after which the beginning of the weft thread is held by a stationary suction nozzle arranged on the outlet side of the weft thread monitor, after which cutting of the weft thread between the main nozzle and the insert-side insert on the one hand and between the insert on the extract side and the stationary suction nozzle on the other hand is prevented, after which the weft thread is struck by the reed against the stop edge of a fabric and tied by warp threads, after which the previous setting of the weft thread is dissolved again, After which the weft is pulled from the weaving shed by means of air impulses to form a weft thread loop and under the suction effect of the suction nozzle, characterized in that during or at least after the weft thread has been detached from the stop edge at least one additional air pulse the weft thread approximately counter to the weft thread stop movement of the Rietes charged. A method according to claim 1, characterized in that the at least one air pulse is directed at the shed opening of the weft thread inlet and in the insert. A method according to claim 1, characterized in that the at least one air pulse causes the insert on the discharge side to pivot from its working position. A method according to claim 1, characterized in that the at least one air pulse together with a thread loop present in the tension-loaded weft thread and in contact with the insert causes the insert on the extract side to pivot from its working position. Weaving machine, in particular air jet weaving machine with at least two heald frames (1) forming a shed, with a main blowing nozzle (5), with a plurality of relay nozzles (5a), with a weft thread (4) striking the edge (8a) of a fabric (8) Riet (3) with a weft insertion channel (3a), with at least one weft monitor (2) provided on the exit side of the weft insertion channel (3a), with a stationary suction nozzle (11) arranged on the exit side of the weft monitor, with a pneumatic insert (9) on the entry side and with an outlet side pneumatic insert (10) and in each case an entry-side and an exit-side weft scissors (6, 7), characterized in that the outlet (13a) of an air jet nozzle (13) lies on one between the outlet of the shed and the shed-side opening of the insert on the exit side (10) Section of the weft thread (4) is directed and at least one air pulse on the weft thread section. Weaving machine according to claim 5, characterized in that the air pulse is generated by means of an additional flow channel (20) in the insert (10) on the outlet side. Weaving machine according to claim 5, characterized in that the outlet (13a) of the air jet nozzle (13) is oriented at an acute angle α to the longitudinal center axis (15) of the insert (10). Weaving machine according to claim 5, characterized in that the area of the insert on the shed side has impact surfaces (14) on the weft thread leg (10c, 10d) and the centering slot (10b). Weaving machine according to claim 8, characterized in that the impact surfaces (14) are aligned at an angle β greater than 45 ° to the longitudinal center axis (15) of the insert (10). Weaving machine according to claim 5, characterized in that the insert (10) on the pull-out side is pivotally mounted eccentrically to its longitudinal center axis (15) at a pivot point (16). Weaving machine according to claim 6, characterized in that the flow channel (20) present in the insert (10) in addition to a weft thread tensioning channel (18) and a weft thread insertion channel (19) is arranged and effective in the direction of the longitudinal center axis (15) of the insert (10).

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