EP0266343B1 - Verfahren und vorrichtung zum anspinnen einer friktionsspinnvorrichtung - Google Patents

Verfahren und vorrichtung zum anspinnen einer friktionsspinnvorrichtung Download PDF

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Publication number
EP0266343B1
EP0266343B1 EP86903237A EP86903237A EP0266343B1 EP 0266343 B1 EP0266343 B1 EP 0266343B1 EP 86903237 A EP86903237 A EP 86903237A EP 86903237 A EP86903237 A EP 86903237A EP 0266343 B1 EP0266343 B1 EP 0266343B1
Authority
EP
European Patent Office
Prior art keywords
thread
gripper
friction
nip
spinning
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired
Application number
EP86903237A
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German (de)
English (en)
French (fr)
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EP0266343A1 (de
Inventor
Kurt Lovas
Werner Billner
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Rieter Ingolstadt Spinnereimaschinenbau AG
Original Assignee
Schubert und Salzer Maschinenfabrik AG
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Filing date
Publication date
Application filed by Schubert und Salzer Maschinenfabrik AG filed Critical Schubert und Salzer Maschinenfabrik AG
Publication of EP0266343A1 publication Critical patent/EP0266343A1/de
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Publication of EP0266343B1 publication Critical patent/EP0266343B1/de
Expired legal-status Critical Current

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    • DTEXTILES; PAPER
    • D01NATURAL OR MAN-MADE THREADS OR FIBRES; SPINNING
    • D01HSPINNING OR TWISTING
    • D01H4/00Open-end spinning machines or arrangements for imparting twist to independently moving fibres separated from slivers; Piecing arrangements therefor; Covering endless core threads with fibres by open-end spinning techniques
    • D01H4/48Piecing arrangements; Control therefor
    • D01H4/52Piecing arrangements; Control therefor for friction spinning

Definitions

  • the present invention relates to a method for piecing an open-end friction spinning device which has two friction elements which are driven in the same direction and form a suction wedge gap, in which fibers are fed to a wedge gap, from which they are drawn off again as a continuous thread which is wound onto a winding device.
  • the fiber bundle is separated from the remaining thread before the thread is transferred to the winding device.
  • the piecer forming a defect is eliminated.
  • the thread now transferred to the empty tube is thus free of piecing.
  • no flying reel change is required, so that without adverse consequences for. maintenance of the spinning device can be connected to the new bobbin with the bobbin change.
  • the fiber feed is switched off, then the fiber bundle is partially pneumatically guided out of the wedge gap of the friction spinning elements, detected there and secured against rotation at the leading end, whereupon the fiber feed is switched on again and the newly produced thread is removed is deducted from the wedge gap.
  • the temporary switching off of the fiber feed ensures that no individual fibers get into the wedge gap during the pneumatic conveying of the fiber bundle, which would otherwise immediately leave the wedge gap.
  • This interruption of the fiber feed does not impair piecing security; otherwise, a possibly missing amount of fiber can be compensated for by appropriately dimensioning the dwell time of the fiber bundle in the wedge gap, after its leading end is secured against rotation, by controlling the speed of the friction spinning elements, etc.
  • the pneumatic conveying of the fiber bundle can be carried out in various ways.
  • the fiber bundle is partially pulled out of the wedge gap by means of a suction air flow acting on the extraction side of the wedge gap, then the leading end of the fiber bundle is temporarily brought into contact with a swirl brake after leaving the wedge gap, then released again by the swirl brake and then released Newly created thread is withdrawn from the wedge gap.
  • an auxiliary conveyor device for transporting the fiber bundle out of the thread formation zone to the end of the friction spinning elements on the take-off side and a gripper for gripping the fiber bundle leaving the wedge gap of the friction spinning elements and for transferring the thread forming to a take-off device.
  • the auxiliary conveyor ensures that the fiber bundle is presented to the gripper for picking up, while the gripper leads by detecting the lead.
  • the end of the fiber bundle prevents the fiber bundle from rotating in the detected area, so that a real rotation is generated in the remaining area of the fiber bundle, which is necessary for screwing in and binding in the newly fed fibers.
  • the newly formed thread is then transferred to a take-off device so that it is continuously drawn off from the thread formation zone.
  • a thread separating device can be assigned to the gripper in a further embodiment of the invention, with the aid of which this piecer can be separated from the remaining thread.
  • the gripper can be designed differently. So it is conceivable to arrange the gripper stationary on the trigger-side end of the open-end friction spinning elements. A transfer device can then serve as the take-off device, to which the thread is fed by means of a bracket or the like, or which pulls the thread from the gripper itself and pulls it off the spinning device by a suitable movement and presents it to the winding device.
  • the gripper itself is preferably designed to be movable, in which case the take-off device to which the newly formed thread is transferred is formed by the winding device. This results in a simple design of the subject matter of the invention.
  • the gripper is designed as the mouth of a suction pipe, in front of which a swirl brake is arranged.
  • the intake manifold takes up the thread, while the swirl brake prevents the leading end of the fiber bundle from rotating.
  • the swirl brake is designed mechanically, wherein it is expediently formed by a contact surface for the thread with a high coefficient of friction.
  • the swirl brake is designed as a sieve which can be subjected to negative pressure and which, when the intake pipe is in the receiving position, extends parallel to the conveying direction of the fiber bundle to the intake pipe.
  • the intake manifold expediently has a switching device for alternately applying the negative pressure to the screen or to the mouth of the intake manifold.
  • the thread separating device is advantageously formed by the switching device.
  • the swirl brake has a wedge shape to adapt to the thread formation zone of the friction spinning elements. It is advantageous here if the swirl brake is adjustable relative to the mouth of the intake manifold, since the swirl brake can then not only be brought to one end of the thread formation zone.
  • the air flow sucked into the mouth is advantageously prevented from having a movement component directed against the swirl brake, so that the piezier can be easily released from the swirl brake.
  • the mouth of the suction pipe is surrounded radially by a free space.
  • the air supplied to the mouth of the intake manifold thus flows axially and not radially against the swirl brake in the area of the swirl brake.
  • the axially adjustable swirl brake is arranged in its transfer position at an axial distance from the mouth of the intake manifold.
  • a mechanical gripper can alternatively be provided, which advantageously consists of at least two elements that can be moved relative to one another to assume a holding position or a release position.
  • one of the elements is formed as a plurality of Garnitumadeln, while the other, this bewe g- Liche element is formed as a stripper, to release by a movement in the direction of the needle tips of the previously captured by the clothing needles thread.
  • the gripper is advantageously designed as a thread clamp, since this enables a simple design of the gripper and safe thread release.
  • a thread connecting device for. B. a knotting or splicing device, in the thread run between the open-end friction spinning device and the winding device can be brought, with the help of which the newly attached thread can be connected to a thread end pulled off the spool.
  • the device according to the invention is designed such that on the one hand it enables piecing without piecing thread at the start of the bobbin, but that it does on the other hand, when removing the thread break, the possibility does not preclude pulling the thread off the spool for piecing and presenting it to the spinning device.
  • the gripper is simultaneously designed as a thread feeder to the open-end friction spinning device.
  • the auxiliary conveyor can be designed differently.
  • the auxiliary conveyor for the fiber bundle is also advantageously formed by this suction tube.
  • the auxiliary conveying device for the fiber bundle can be formed by a compressed air nozzle directed into the wedge gap, which is arranged on the side of the friction spinning elements facing away from the trigger side.
  • auxiliary conveyor device is independent of an air flow, in which the auxiliary conveyor device is formed by a screw-like profile of at least one of the friction spinning elements.
  • the pitch of the thread-like profiling depends on the thread pulling speed and the rotational speed of the thread It is coordinated with friction spinning elements that the conveying speed caused by the helical profile is lower than the thread take-off speed.
  • the method and the device according to the invention enable piecing without piecing thread in a simple manner. This is of great advantage especially for the new start of the bobbin build-up on newly inserted empty tubes, because the usual preparatory work for providing a piecing thread is eliminated, along with the mechanical and time expenditure required for this. If desired, the thread breakage removal can also be carried out without the piecing thread usually retrieved from the spool and inserted into the spinning device, so that it is only necessary to connect the thread extending to the spool with the newly spun thread in a manner known per se.
  • the subject of the invention also allows the possibility of working in a conventional manner when piecing at the beginning of a bobbin build-up without piecing thread and when piecing for thread breakage elimination with the thread returned from the bobbin to the spinning unit. This enables rational piecing in all operating conditions.
  • FIG. 1 shows an open-end friction spinning device 10, to which the fiber material 3 is fed by means of a feed and dissolving device 2.
  • a take-off device 4 is provided for pulling off the spun thread 30.
  • the drawn-off yarn is wound by means of a winding device 40 onto a bobbin 400 which can be driven by a winding roller 401.
  • the open-end friction spinning device 10, together with the feed and dissolving device 2, is provided in a stationary manner at the spinning station 1, of which a plurality are usually arranged next to one another in a machine.
  • a maintenance carriage 5 with a piecing device 50 can be moved along these spinning positions 1.
  • the open-end friction spinning device 10 has a housing 13 with two rotationally symmetrical friction spinning elements 100 and 101 (FIG. 4), which form a wedge gap 102. At least one of the friction spinning elements, e.g. B. the friction spinning element 101 is perforated and sucked during spinning in the area of the wedge gap 102. For this purpose, it is connected to a suction air line 11 via a valve 110 (FIG. 1).
  • each friction spinning element 100 and 101 which are formed in the exemplary embodiment of the rollers shown, are driven in the same direction (see arrows P1 in FIG. 4).
  • each friction spinning element 100 and 101 has a whorl 103 which is driven by means of a drive belt 12. This receives its drive in a manner not shown.
  • the feed and dissolving device 2 arranged upstream of the open-end friction spinning device 10 has a feed hopper 20, by means of which the band-shaped fiber material 3 is fed to a feed roller 21, with which a pressure roller or feed trough (not shown) cooperates in the usual way.
  • the fiber material 3 is fed from the feed roller 21 to a dissolving roller 22, which dissolves the band-shaped fiber material into individual fibers.
  • the opening roller 22 is driven in a known manner by a belt 23.
  • a fiber feed channel 24 extends from the opening roller 22 into the wedge gap 102 of the friction spinning elements 100, 101.
  • the maintenance carriage 5 carries an auxiliary conveyor 6 for a fiber bundle 31 (FIG. 4) which forms in the wedge gap 102, as will be described in detail later.
  • this auxiliary conveying device 6 is formed by a suction pipe 60 det. This is connected to a suction line 61 and is pivotally mounted about an axis 62.
  • the mouth 70 of the suction tube 60 forms a movable gripper 7 for gripping the thread 30 leaving the wedge gap 102 of the friction spinning elements 100, 101.
  • a swirl brake 71 is arranged, which consists of a sieve 710, which can be subjected to negative pressure.
  • the sieve surface of the sieve 710 extends parallel to the conveying direction of the fiber bundle 31 delivered from the wedge gap 102 to the suction tube 60.
  • a controllable switching device 8 is provided according to FIGS. 1 and 2.
  • This has a closure member 80 (Fig. 2) which is adjustable along the arrow P2.
  • the closure member 80 is designed as a slide which releases the mouth 70 in the position shown and blocks it in the other position.
  • the suction pipe 60 carries a bearing 81 for an angle lever 82, one end 820 of which comprises a bolt 83 arranged laterally on the locking member 80 and the other end 821 of which is connected to a switching rod 84.
  • the angle lever 82 is acted upon by a tension spring 85 in such a way that when the switching rod 84 is released, the closure member 80 releases the mouth 70 of the suction tube 60.
  • the shift rod 84 is controlled in a manner not shown.
  • the maintenance carriage 5 moves to the spinning station 1, which is to be rewound. This can be done on the basis of a signal which is triggered in a known manner when the thread breaks at the relevant spinning station, or by the fact that the maintenance carriage 5 starts and spins on the spinning station 1.
  • the friction spinning elements 100, 101 which had previously stood still, are now driven again by the belt 12, which is done in a manner known per se. Now the previously switched off vacuum is again applied to the friction spinning elements 100, 101 with the aid of the valve 110. The fiber feed is then switched on in a known manner.
  • the sliver 3 now enters the wedge gap 102 in the form of individual fibers and is rotated within a thread formation zone 104 to form a fiber bundle 31 (FIG. 4).
  • This fiber bundle 71 initially only forms a relatively loose fiber structure, since it can follow the rotation that is exerted on it by the rotating friction spinning elements 100, 101 unhindered.
  • the fiber feed into the wedge gap 102 is switched off again.
  • a vacuum is then generated on the trigger side of the wedge gap.
  • a suction air flow is switched on in the intake manifold 60 with the aid of a valve (not shown), which acts on the fiber bundle 31 into the wedge gap 102 and partially pulls it out of the wedge gap 102 in the longitudinal direction.
  • the fiber bundle 31 can be partially pulled out of the wedge gap 102 through the released mouth 70 of the suction pipe 60.
  • the negative pressure can be switched off at the mouth 70 by the switching device 8 and switched on at the sieve 710.
  • the negative pressure is present on the screen 710 from the outset.
  • the fiber bundle 31 is grasped by the negative pressure applied to the sieve 710 and sucked onto the sieve 710 and thus prevented from continuing to follow the rotation imparted to the fiber bundle 31 by the rotation of the friction spinning elements 100, 101.
  • the suction tube 60 is now slowly pulled off the wedge gap 102 of the friction spinning elements 100, 101, so that the fiber bundle 31 can lie down over the full length of the sieve 710.
  • the spool 400 is also lowered back onto the spooling roller 401 in a time-coordinated manner with respect to the processes described.
  • the spool 400 thus begins to rotate in the withdrawal direction.
  • the suction tube 60 is pivoted with the thread 30 held by it to the winding device 40 (arrow P3).
  • the forming thread 30 is then passed through the movably designed gripper 7 to the winding device 40 forming a take-off device for the thread.
  • the tension in the thread 30 increases. Due to this winding tension in the thread 30 and / or by appropriate control of the pressure roller of the pull-off device 4, the thread 30 is inserted into the pull-off device 4 and from now on through it from the wedge gap 102 of the friction spinning elements 100, 101 deducted.
  • a thread separating device 63 is assigned to the gripper 7 according to FIG. 1, which is provided behind the gripper 7 in the suction tube 60 in the exemplary embodiment shown.
  • the thread separating device 63 can be a separate device (FIG. 1); but it can also be formed by the switching device 8, for which purpose the edge of the closure member 80 cooperates with a stationary edge of the suction tube 60.
  • the temporary interruption of the fiber feed during the pneumatic conveying of the fiber bundle 31 into the area of the swirl brake 71 has the purpose of avoiding suction and thus loss of fibers. Because of the conveying air flow, these fibers or a large part of them would otherwise no longer be able to be deposited in the wedge gap 102, but would leave the thread formation zone 104 before such a deposit in the direction of the suction pipe 60.
  • the swirl brake 71 is designed as a sieve 710; in addition or instead of the sieve 710, a thread contact surface 711 with a high coefficient of friction can also be provided as the swirl brake 71 (see FIG. 2); This high coefficient of friction can be achieved by appropriate surface roughness, shaping or appropriate choice of material for the thread contact surface 711.
  • FIG. 1 there is a compressed air nozzle 64 on the side facing away from the friction spinning elements 100, 101. which is connected to a compressed air line 641 via a valve 640. These .
  • Compressed air nozzle 64 alternatively or in addition to the suction tube 60 forms an auxiliary conveyor 6 for the fiber bundle 31.
  • a compressed air flow is generated by controlling the valve 640 on the side facing away from the withdrawal side of the wedge gap 102, so that the leading end End of the fiber bundle 31 reaches the area of the gripper 7 and is grasped by this.
  • the fiber feed is also switched off during the pneumatic conveyance of this fiber bundle 31 by means of compressed air.
  • a thread connecting device 32 can be brought into the vicinity of the thread path between the friction spinning elements 100, 101 and the winding device 40 according to FIG. 1. This is done in that this thread connecting device 32 is arranged in the maintenance carriage 5 and either the thread connecting device 32 can be brought into the thread run or vice versa the thread run to the thread connecting device 32.
  • the thread connecting device 32 can be at will, e.g. B. as a knot or splicer.
  • the thread 30 newly spun in the open-end friction spinning device 10 is fed to the thread connecting device 32 by means of the suction tube 60, which also forms a draw-off device. Furthermore, the thread is drawn off from the spool 400 and also fed to the thread connecting device 32, where the two thread ends are then connected to one another.
  • a controllable sieve 710 and a thread contact surface 711 with an increased coefficient of friction compared to the fiber bundle 31 were described as the twist brake 71.
  • Other designs can replace the swirl brakes 71 described.
  • the screen 710 need not be vacuumed; instead, a pin cushion controllable from the shift rod 84 can exit through the screen openings or be sunk back into the screen 710.
  • This gripper thus consists of two elements that can be moved relative to each other (sieve 710 and pincushion). When the pincushion is effective, a fiber bundle 31 can be held by the gripper (holding position), while this releases the fiber bundle 31 when the pincushion is lowered (release position).
  • closure member 80 can also be designed in a different way, for example as a twist lock, and the closure organ can also be controlled mechanically, electrically or in another way.
  • the fibers are spun in the wedge gap to which they are fed through the fiber feed channel 24.
  • the fiber feed channel 24 and the thread formation zone 104 are thus on the same side of the clamping line of the friction elements 100, 101. To avoid fiber losses, this side is covered during the spinning by a cover, not shown, so that the thread formation zone 104 is then inaccessible.
  • a suction pipe 60 with a mouth 70 is again provided.
  • a switching device 8 is arranged in the intake manifold 60. This has as a closure member a flap 86 which is pivotable about an axis 860 mounted in the intake manifold 60.
  • the mounting of the axis 860 is not recognizable in FIG. 5, since the suction pipe 60 and a housing 72 accommodating the front end of the suction pipe 60 are shown in section for the clear representation of the switching device 8.
  • At the free end of the axis 860 there is a lever 87 which is acted upon by a torsion spring 870 and which holds the flap 86 in its closed position when the lever 87 is released.
  • the torsion spring 870 is therefore supported at one end on the lever 87 and at the other end on a pin 871 which is supported by the wall of the housing 72 shown in section.
  • the housing 72 is carried by the suction pipe 60 and receives the rear end of a pipe 73 which receives the swirl brake 71 at its other end.
  • the tube 73 carries a radially outwardly projecting bolt 730, which releases the lever 87 in the left end position shown and rotates the lever 87 counterclockwise in its right end position and thereby opens the flap 86.
  • the rear end of tube 73 carries two rings 731 and 732, between which a fork 74 surrounds the tube.
  • the fork 74 is connected to the armature 750 of an electromagnet 75.
  • the housing 72 carries a seal 720 in the area in which the tube 73 runs on its inside.
  • the tube 60 has an elongated recess 600 within the housing 72 on its side facing the tube 73. This recess 600 is located with respect to the flap 86 on the side of the suction tube 60 facing away from the mouth 70.
  • the pipe 73 If the pipe 73 is in its shown position, the receiving position, the rear end is released through the seal 720, so that the air sucked in by the swirl brake 71 passes through the pipe 73 and through the recess 600 into the intake pipe 60. In this position the flap 86 is closed so that no air can be sucked in through the mouth 70.
  • the swirl brake 71 at the front end of the tube 73 which is closed on the front side here, has a roof-shaped screen 712.
  • the sieve 712 is shaped in such a way that it can be moved as deep as possible into the wedge gap up to near the thread formation zone 104.
  • the gripper 7 is brought with the swirl brake 71 from the side into the vicinity of the thread formation zone 104.
  • the electromagnet 75 is excited, which in this way brings the tube 73 from the closed position - in which it rests on the seal 720 - into the position according to FIG.
  • the swirl brake 71 is subjected to negative pressure and sucks in the piecer.
  • the tube 73 with the swirl brake 71 is now pulled in the direction of the housing 72.
  • the bolt 730 running on the lever 87 opens the flap 86, while the pipe 73 running on the seal 720 prevents the suction air flow in the pipe 73 and thus on the swirl brake 71.
  • the suction air flow which is now effective again at the mouth 70 of the suction pipe 60, pulls the piecer with the newly formed thread connected therefrom from the swirl brake 71.
  • the swirl brake 71 which is adjustable relative to the mouth 70 of the suction pipe 60, can also be used in the case of a design of the swirl brake 71 according to FIG. 2, if the thread formation zone 104 and the fiber feed channel 24 are on the same side of the clamping line of the friction spinning elements 100, 101. This facilitates the delivery of the swirl brake 71 to the friction spinning elements 100, 101, in particular when there is only limited space available due to the suction air line 11.
  • the swirl brake 71 leaves a distance A in its transfer position between the screen 712 and the mouth 70 of the suction pipe 60. In this way, the mouth 70 can flow in radially from all sides as well as axially. An air flow directed towards the sieve thus acts on the piecing device held by the sieve 712, so that the suction pipe 60 takes over the piecing material and the following thread without problems.
  • the sieve 71 ends through a slot at a distance A from the mouth 70 of the suction pipe 60 (see dashed lines Indication in Fig. 2).
  • FIG. 3 In which the pneumatic gripper 7 has been replaced by a mechanical gripper 9.
  • the gripper 9 sits on the free end of an arm 90, which is mounted on the maintenance carriage 5 so that it has a first pivoting movement about a first axis 51 in a horizontal plane (arrow P4) and about a second pivoting axis 91 a second pivoting movement in one vertical plane (arrow P5) can lead.
  • the gripper 9 is as z. B. controllable, known per se, thread clamp formed with two clamping elements, which can be brought relative to one another alternately into a holding position in which the two clamping elements abut one another, or into a release position in which they are removed from one another.
  • the gripper 9 is assigned a pivotable suction tube 65 which serves as a pull-off device and which is pivotably mounted on a horizontal axis 650, so that it is in a vertical pivoting plane (arrow P6) from a receiving position near the gripper 9 into a transfer station near the coil 400 can be pivoted.
  • the suction pipe 65 is connected via a suction line 651 to a vacuum source (not shown).
  • the compressed air nozzle 64 shown in FIG. 1 can also be used as an auxiliary conveying device in this embodiment.
  • the fiber bundle 31 has partially left the take-off end of the wedge gap 102 between the friction spinning elements 100 and 101 during the piecing process, it reaches the clamping area of the gripper 9. This is now brought into the holding position, so that the fiber bundle 31 between the two clamping elements is secured against rotation and the wedge gap 102 newly fed fibers can be integrated into the trailing end of the fiber bundle 31. Then the gripper 9 is brought with the clamped fiber bundle 31 and the subsequent newly formed thread 30 in front of the mouth 652 of the suction pipe 65, which sucks the thread 30. The gripper 9 is now brought into its release position, so that in addition to the newly formed thread 30, the fiber bundle 31 also enters the suction tube 65.
  • the suction tube 65 is pivoted to the winding device 40 into a transfer position and the thread is transferred to the empty tube which has now been inserted. This transfer takes place in a manner known per se, for example with the aid of a catch nose (not shown) provided on the winding device 40.
  • the fiber bundle 31 with the thread adjoining it is fed to a thread connecting device 32 (see FIG. 1), while another end of a thread drawn from the bobbin 400 is also fed to the thread connecting device 32 for connection with the thread extending to the friction spinning device.
  • a thread connecting device 32 is to be dispensed with, the spinning for the purpose of eliminating the thread breakage can also be carried out in the usual way with the aid of a thread 30 drawn off the spool 400; however, this does not affect the possibility of starting a new bobbin build-up, if normally no piecing thread is available, without such a piecing auxiliary thread.
  • a suction tube 60 is provided according to FIG. 1, its mouth 70 can also serve, when a thread breakage occurs, to pull the thread 30 from the spool 400 and to return it to the friction spinning device 10 in a manner known per se.
  • the gripper 7 formed by the mouth 70 of the suction tube 60 is simultaneously designed as a thread feeder to the open-end friction spinning device 10.
  • the piecing device 50 arranged on the maintenance carriage 5 has a suction tube 500 (arrow P6) which can be pivoted against the bobbin 400 and by means of which a thread end can be sucked in from the bobbin 400.
  • the bobbin 400 can be driven in a known manner from the maintenance carriage 5 in the unwinding direction, so that the thread end sucked in continues to get into the suction tube 500.
  • the suction tube 500 has a longitudinal slot (not shown) on its side facing the spinning station 1, so that the thread section sucked in between the slot end facing away from the spool 400 in the vicinity of the pivot axis 501 of the suction tube 500 and the spool 400 can take an elongated course.
  • the thread 30 comes into the swivel range of the arm 90 with the controllable gripper 9, which in this embodiment is designed as a thread feeder for the open-end friction spinning device 10.
  • the cover 130 has a thread insertion slot 14. This extends from the outside of the cover 130 to the inside thereof and, in addition to the fiber feed channel 24, extends from the trigger-side end 131 of the housing 13 to the mouth end 240 of the fiber feed channel 24 facing away from the trigger side (FIG. 3). Since the thread insertion slot 14 is arranged next to the fiber feed channel 24, it opens next to the fiber feed channel 24 and thus outside of the wedge gap 102 opposite the friction spinning element 101 in the interior of the housing 13.
  • the maintenance carriage 5 travels to the relevant spinning station 1.
  • the suction tube 500 is pivoted about its pivot axis 501 against the spool 400 that was already lifted from the winding roller 401 at an earlier point in time.
  • the bobbin 400 is driven from the maintenance carriage 5 by means of an auxiliary drive roller (not shown) in the unwinding direction, the suction pipe 500 takes up the unwound thread 30. If a sufficient length of thread has been sucked into the suction tube 500, the bobbin 400 is stopped and the suction tube 500 is pivoted away from the bobbin 400. The thread 30 emerges from the aforementioned longitudinal slot of the Suction pipe 500 out.
  • the thread 30 is in the swivel range of the horizontally and vertically pivotable gripper 9. This is brought into the thread run in a thread take-up position, where it picks up the thread 30. It feeds the thread 30 to a separating device (not shown) provided in the maintenance carriage 5, which cuts the thread 30 on the side of the hook 9 facing away from the spool 400. A certain thread length is created between the gripper 9 and the free thread end, which is required for piecing. The gripper 9 is then pivoted in a combined horizontal and vertical movement to the open-end friction spinning device 10. It is in a thread transfer position in front of the thread insertion slot 14 and presents the thread end 300 to it. In doing so, it holds the thread 30 essentially parallel to the thread insertion slot 14.
  • the friction spinning elements 100 and 101 are the same as before. had been stopped, turned again. Furthermore, the previously switched off vacuum is reapplied to the friction spinning rollers 100, 101 with the aid of the valve 110. In addition, the fiber feed is switched on again in a known manner. The sliver now arrives in the form of single fibers in the wedge gap 102 and is rotated there within the thread formation zone 104 to form a fiber bundle 31.
  • the thread end located in front of the thread insertion slot 14 reaches the suctioned outer surface of the friction spinning element 101 outside of the wedge gap 102 taken and placed on the rotating fiber bundle 31.
  • the fiber bundle 31 is now screwed into the thread end.
  • the thread 30 which is now forming again is pulled off from the thread formation zone 104 by continuing the movement of the arm 90 with the gripper 9, this depending on the piecing speed, fiber material etc. after interrupting the feed and feed movement of the gripper 9 or in a continuous manner this feed and feed movement can happen.
  • the design of a mechanical gripper 9 can be different. It is thus possible to design the gripper 9 in such a way that it transfers the thread 30 with the fiber bundle 31 directly to the bobbin 400.
  • a separating device can be assigned to the gripper 9, which separates the thread bundle 31 from the rest during the transfer of the thread 30 to the winding device 40. Thread is cut.
  • the movable gripper 9 For the movable gripper 9, a design as a burdock set etc. can be sufficient, from which the fiber bundle 31 and the thread adjoining it are removed pneumo-mechanically (by pivoting movement of a suction pipe 65) or mechanically by the winding device 40.
  • the gripper 9 need not have any elements which are movable relative to one another.
  • the gripper 9 can also be arranged stationary in front of the take-off end of the wedge gap 102, with a stripper movable transversely to the thread run between the friction spinning device 10 and the gripper 9 for transferring the thread 30 to a pneumatic transfer device (e.g. similar to the suction tube 65) can be provided.
  • the friction spinning element 100 therefore has a helical profile 66 in the form of grooves, ribs or the like. This profile 66 is oriented in the thread take-off direction (arrow P7), i. that is, as the grooves or ribs continue to approach the trigger-side end of the friction spinning element 100 during rotation.
  • the profiling 66 gives the fiber bundle 31 a feed movement in the direction of the arrow P7 during the rotation of the friction spinning elements 100, 101, whereby it finally emerges with its leading end from the wedge gap 102, where it is then gripped by the pneumatic or mechanical gripper 7 or 9 . So that after the spinning has taken place, the thread 30 that is formed is not pulled out of the wedge gap 102 by the profiling, but rather the thread pull-off speed depends on the speed of the pull-off device, the slope of the profiling 66 is such that it depends on the thread pull-off speed and also on the rotation speed of the friction spinning elements 100 , 101 matched that the conveying speed caused by the helical profile is lower than the thread take-off speed.
  • the slope is adjusted to the maximum possible speeds. Since the spinning process itself has not yet started during the conveying of the fiber bundle 31 into the receiving region of the gripper 7 or 9, the size of the pitch plays only a minor role, since the size of the fiber bundle 31 to be conveyed to the gripper 7 or 9 can be adjusted by appropriate Control of the fiber feed can be influenced.
  • profiling 66 can, as shown, on only one friction spinning element 100 or alternatively also be provided on both friction spinning elements 100, 101. If desired, a pneumatic auxiliary conveyor with a mechanical auxiliary conveyor can also be provided in combination. The use of a certain type of auxiliary conveyor 6 is also not tied to the special design of the gripper 7 or 9.

Landscapes

  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • Textile Engineering (AREA)
  • Spinning Or Twisting Of Yarns (AREA)
EP86903237A 1985-06-24 1986-06-05 Verfahren und vorrichtung zum anspinnen einer friktionsspinnvorrichtung Expired EP0266343B1 (de)

Applications Claiming Priority (2)

Application Number Priority Date Filing Date Title
DE19853522517 DE3522517A1 (de) 1985-06-24 1985-06-24 Verfahren und vorrichtung zum anspinnen einer offenend-friktionsspinnvorrichtung
DE3522517 1985-06-24

Publications (2)

Publication Number Publication Date
EP0266343A1 EP0266343A1 (de) 1988-05-11
EP0266343B1 true EP0266343B1 (de) 1989-12-13

Family

ID=6274013

Family Applications (1)

Application Number Title Priority Date Filing Date
EP86903237A Expired EP0266343B1 (de) 1985-06-24 1986-06-05 Verfahren und vorrichtung zum anspinnen einer friktionsspinnvorrichtung

Country Status (9)

Country Link
US (1) US4819420A (enrdf_load_stackoverflow)
EP (1) EP0266343B1 (enrdf_load_stackoverflow)
JP (1) JPS63501160A (enrdf_load_stackoverflow)
CN (1) CN1008278B (enrdf_load_stackoverflow)
BR (1) BR8606707A (enrdf_load_stackoverflow)
CS (1) CS465386A3 (enrdf_load_stackoverflow)
DE (2) DE3522517A1 (enrdf_load_stackoverflow)
IN (2) IN167844B (enrdf_load_stackoverflow)
WO (1) WO1987000215A1 (enrdf_load_stackoverflow)

Families Citing this family (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE19608829A1 (de) * 1996-03-07 1997-09-18 Fritz Stahlecker Saugwalze für Offenend-Spinnmaschinen
CN106242265B (zh) * 2016-07-26 2019-01-25 长飞光纤光缆股份有限公司 一种具有断纤收线功能的光纤收线装置

Family Cites Families (12)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE2501735A1 (de) * 1975-01-17 1976-07-22 Schlafhorst & Co W Verfahren und vorrichtung zur automatisierung des auflaufspulenwechsels an einer spinnmaschine, insbesondere rotor- spinnmaschine
DE2506362C2 (de) * 1975-02-14 1992-01-02 Stahlecker, Fritz, 7347 Bad Überkingen Offenend-Spinnmaschine
DE2613263B2 (de) * 1976-03-27 1978-07-27 Barmag Barmer Maschinenfabrik Ag, 5630 Remscheid Verfahren zum Spinnen von Fasern und Vorrichtung zur Ausführung des Verfahrens
US4107911A (en) * 1976-06-18 1978-08-22 Murata Kikai Kabushiki Kaisha Pneumatic spinning apparatus
JPS6047937B2 (ja) * 1980-10-17 1985-10-24 村田機械株式会社 糸継台車を備えた紡績装置
DE3123494C2 (de) * 1981-06-13 1992-07-09 Schubert & Salzer Maschinenfabrik Ag, 8070 Ingolstadt Verfahren und Vorrichtung zum Aufwinden eines neu angesponnenen Fadens auf eine in eine Spulvorrichtung eingelegte Leerhülse
DE3307082A1 (de) * 1983-03-01 1984-09-06 Fritz 7347 Bad Überkingen Stahlecker Oe-friktionsspinnvorrichtung
DE3315034A1 (de) * 1983-04-26 1984-10-31 Fritz 7347 Bad Überkingen Stahlecker Verfahren und vorrichtung zum anspinnen an einem spinnaggregat einer oe-friktionsspinnmaschine
DE3318266A1 (de) * 1983-05-19 1984-11-22 Fritz 7347 Bad Überkingen Stahlecker Verfahren und vorrichtung zum anspinnen eines garnes an einem spinnaggregat einer oe-friktionsspinnmaschine
DE3323189A1 (de) * 1983-06-28 1985-01-10 Fritz 7347 Bad Überkingen Stahlecker Vorrichtung zum oe-friktionspinnen
DE3325928A1 (de) * 1983-07-19 1985-01-31 Fritz 7347 Bad Überkingen Stahlecker Verfahren und vorrichtung zum anspinnen eines garnes an einem spinnaggregat einer oe-friktionsspinnmaschine
DE3338833A1 (de) * 1983-10-26 1985-05-09 Fritz 7347 Bad Überkingen Stahlecker Verfahren und vorrichtung zum anspinnen eines garnes an einem spinnaggregat einer oe-friktions-spinnmaschine

Also Published As

Publication number Publication date
WO1987000215A1 (en) 1987-01-15
CN1008278B (zh) 1990-06-06
CN86105613A (zh) 1987-04-01
IN167844B (enrdf_load_stackoverflow) 1990-12-29
US4819420A (en) 1989-04-11
EP0266343A1 (de) 1988-05-11
BR8606707A (pt) 1987-08-11
CS465386A3 (en) 1992-02-19
DE3667506D1 (de) 1990-01-18
IN168077B (enrdf_load_stackoverflow) 1991-02-02
DE3522517A1 (de) 1987-01-02
DE3522517C2 (enrdf_load_stackoverflow) 1989-01-19
JPS63501160A (ja) 1988-04-28

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