BE1000368A4 - Threading system for weaving machine - has hook at front of flexible strip stored on winding winding reel with rewind mechanism driven by toothed wheels - Google Patents

Abstract

The threading device has a book on the front end of a flexible threading part moved backwards and forwards by a drive unit. The threading part which is a plastic strip, is stored by an arrangement comprising a winding reel with a rewind mechanism. The drive unit comprises two toothed guide rollers, between which the strip passes, one being driven by a motor such that the strip cannot slip. The other roller can be mounted on an eccentric spindle. The rewind mechanism has a cable drum which is on the same shaft as a roller for winding up the threading strip. The cable is led to tensioner, or a rewind mechanism which can have a coil spring biassing the roller.

Description

       

   <Desc / Clms Page number 1>
 



  Thread threading device for uenfmachlnes.
 EMI1.1
 The present invention relates to a thread drawing device for weaving machines in other words a device in which a weaving thread can be passed automatically through different machine parts in order to provide for wiring or rewiring thereof.
 EMI1.2
 



  In modern weaving machines, weaving threads, in particular inserts threads, need to follow latin machine parts. It is also clear that it is a time-consuming work to provide the manual rewiring after a wire breakage, since the wire is dm.v. auxiliary elements should be routed appropriately through various nachine parts. In particular, a pre-wrapper is envisaged, in which, as is known, a thread from a bobbin is first passed through a wrapping arm and

 <Desc / Clms Page number 2>

 then passed through a wire brake and / or an anti-ballast ring.



   The present invention has. Therefore, it is the object of the invention to provide a thread drawing device for Weaving Machines which permits the automatic re-threading of parts, with the possibility that openings which are not in-line can nevertheless be achieved smoothly one after the other.



  To this end, the yarn threading device for weaving machines according to the invention mainly consists of a flexible threading element provided at its front free end with hooking means, drive means for moving the threading element back and forth and whether or not storage means for storing the threading element. The threading element can hereby be pushed out with its free end along suitable guides provided on the machine parts, in which case it will follow a weaving through thread. A thread is then attached to the hooking means, so that after retraction of the flexible drawing-through element the weaving thread is passed in an appropriate manner between the machine parts.



  1, the insight to better demonstrate the features according to the invention is presented below, as examples without any limiting

 <Desc / Clms Page number 3>

   karahtfr, some preferred embodiments described with reference to the accompanying drawings in which: figure! represents a dread-dropping device according to the invention; figure 2 represents a variant of the invention; figure 3 represents another variant of the invention; figure 4 represents a view according to arrow F4 in figure 3; Figure 5 shows a special embodiment of the drive means for the threading element; figures 6 and 7 represent a special embodiment of the threading element;

   figure 8 shows another embodiment of the drawing-through element as can be used in the invention.



  As shown in Figure 1, the threading device mainly consists of the threading element], the driving means 2 for providing the displacement of the threading element 1 and storage means 3.



  The thread pull-through element 1 consists of a fine flexible band, for instance of plastic, which is provided at its front free end 4 with hook means 5 around a weaving thread
 EMI3.1
 probably sn, 'ethe d in the band.

 <Desc / Clms Page number 4>

    Drive means 2 to be formed are formed by a guide element 6 and a drive element 7, which, for example
 EMI4.1
 exist that is really good. drive roller 7 is unrolled on the a6 of a motor 8. Depending on the rotation of the motor 8, it can be obtained that the pull-through element 1 with its free end 4 is pushed out or retracted. 1, the drive roller 7 will preferably be provided with a rubber coating 9.



  The pull-through element 1 can be stored at its rear end d. n. v. said storage means 3, which in this case consist of a roll 10 for winding up the doo-hate tent 1 and a recall mechanism 11, for permanently recalling the pull-through element J, which is for instance built up from a cable drum 12 which is rotatably connected to the roll 10 and to which is attached at one end a cable 13 which is guided to a cable tensioner 14.



  It is furthermore clear that the threading element 1 is just connected at its rear end 15 to said roller 10.



  The whole may be placed on a displacement or transport mechanism 16 and may further comprise a detector 17 to be determined

 <Desc / Clms Page number 5>

 
 EMI5.1
 vann & r withdrawn References piping pull-through element The operation of the can be deduced from the figure, the cut-through small in its full LCD is brought to the right place by means of the transport mechanism 16 and that d. with the drive roller 7 and the activation of the motor 8 the threading element 1 is just pushed out of its free end 4, all this in such a way that the latter is guided tangentially on the guides 20 to be rewired, with the path 21 of the weaving thread to be applied is followed.



  As soon as the drawing-through element 1 has been passed through the respective machine parts, a weaving thread is attached to the hook means 5. The fact that the strikeout element 1 passes through the
 EMI5.2
 relevant machine parts are determined. The number of revolutions of the motor 8 has been guided. By switching on the motor 8 in the reverse sense, the aforementioned wire d. n. v. the smooth threading element 1 pulled along road 21. At the end of the rewiring cycle, the motor 8 is stopped automatically d. m. v. the detector 7.

 <Desc / Clms Page number 6>

 
 EMI6.1
 



  There should be an eMent j zi cable tensioner in the figure. by the roll-back mechanism 11, which in this case, instead of the cable tensioner 14, consists of a coil spring 23 spliced axially in the extension of the roller 10, which is fixedly connected to one end 24 and can just co-operate with the other end 25 of the roller 10 .



  To prevent any slip of the pull-through element 1 from the
 EMI6.2
 To prevent drive means 2, the primary roll-forming element 6 can still be provided with an adjustable eccentrically shaped spindle 26, such that the pressure force applied by the guide element 6 and the drive element 7 to the
 EMI6.3
 byhaa] eaen can be adjusted.



   Figures 3 and 4 show a more compact and practical embodiment of the device according to figure 2. The whole is herein mounted on a base plate 27. On this plate. The aforementioned motor 8 is located on one side and next to it is a housing 28, but coil spring 23 is accommodated. On the opposite side of the base plate 27 are successively the

 <Desc / Clms Page number 7>

   gel element 6, the drive element 7, a pulley 29 and the aforementioned roller 10 for the pull-through element 1.



   The drive element 7 for the pull-through element 1 also consists of a pulley and is driven by a V-belt 30 by the aforementioned pulley 29 which is mounted on the motor shaft.



   As can be deduced from figure 4, the passage elongation follows the V-belt 30 over a certain section and is clamped between the latter and the roll-shaped guide element 6.



  The operation of the device can be easily deduced from the figures.



  Fig. 5 shows a further variant for the aforementioned drive means 2, wherein a completely slip-free transmission is provided in that the drive element 7 consists of a toothed roller or wheel and the guide element 6 consists of a pressure block and the thread drawing element 1 is provided with rectangular recesses 31 which can cooperate with the drive element 7.



  Figures 6 and 7 show a special embodiment of the drawing-through element, in which it is internally provided with two optical fibers 32 and 33 which, through their

 <Desc / Clms Page number 8>

   opposite and in the presentation in the hook opening 34 of the aforementioned hook means 5 can detect the presence of a dread 35 to be included.



  According to yet another embodiment, the swiping element can be used
 EMI8.1
 Asn also contain the necessary free ends, two electrical contacts 36 and 37 and electrical conductors 38 and 39 are provided. For example, electrical contacts 40 can be provided along the path 21 followed by the baling element 1, which can short-circuit the aforementioned contacts 36 and 37. Due to this arrangement, a special embodiment of the aforementioned end-of-loop detector 22 can be formed.



   According to a variant not shown in the figures, the free end 4 of the threading element can be built of so-called memory material, such that the hook means 5 can close at the appropriate moment by activation, so that a weaving thread can be automatically picked up.



  The present invention is by no means limited to the embodiment described as examples and shown in the figures, but such thread-drawing device for weaving machines can be made in various shapes and sizes

 <Desc / Clms Page number 9>

 achieved without departing from the scope of the invention.


    

Claims (1)

Conclusions.  EMI10.1  ----------- 1. Thread-threading device for weaving machines, characterized in that it mainly consists of the combination of at its front free end (4) with hooking means (5)  EMI10.2  provide f] eteoent idde] (2) exibe] to move the pull-through element (back and forth).   Thread drawing-through device according to claim 1, characterized in that it is also provided with storage means (3) for storing the drawing-through element (1). Thread drawing-through device according to claim 1 or 2, characterized in that the flexible drawing-through element (1) mainly consists of a plastic strap. Thread drawing-through device according to claim 3, characterized in that the flexible drawing-through element 1 is provided with successive recesses (31).   Thread drawing-through device according to one of the preceding claims, characterized in that the drive means (2) mainly consist of a guide element (6) and a drive element (7), the latter being driven by  <Desc / Clms Page number 11>    EMI11.1  ff-n nt is passed between (6-7). 6.- 5, characterized by niotor (ss) and in which the flexible drive-through drive element (7) are formed by rollers which can cooperate with each other. such that the pull-through element (]) can be moved between them without slip.   Thread drawing-through device according to claim 6, characterized in that the roller forming the guide element (6) relative to the driving element (7) is clamped chaff1 by means of its attachment on an eccentrically shaped spindle (26).  EMI11.2   8. 5, characterized in that it (6) consists of a guiding block and the drive element (5) consists of a thread threading device according to claim toothed roller.   Thread threading element according to any one of claims 2 t. e. m. 8, characterized in that the storage means (3) mainly consist in the combination of a roller (10) for winding up the thread drawing element (1) and a recall mechanism (11) connected thereto.  <Desc / Clms Page number 12>    EMI12.1   10. Features a cable drum which is connected on the same roller for the winding element and - Thread threading device according to claim 9. Thereby it is rotatably connected, with a cable (13) at its end which is guided to a cable tensioner (14). is becoming.  EMI12.2   Thread drawing-through device (22) mainly according to claim thereby consisting of a spiral spring (23) fixed with one end and which can cooperate with the other end with the roller (10) for winding up the thread-drawing element (1).  EMI12.3   Thread-threading device according to the preceding claims, characterized in that the thread-threading element (1) is provided with an end-loop detector (17) according to the retracting movement. Thread threading device according to any one of the preceding claims, characterized in that it is provided with a detector (22) which indicates the front end of the road (21) followed by the threading element (1).  <Desc / Clms Page number 13>    EMI13.1   J4.- claims conclusions, the veg l2l), which is followed by the design. electrically conductive contacts n Thread threading device according to one of the front, two electrical contacts (36-37) are placed on the free end of the threading element (l)  EMI13.2  aforementioned 1 ,.  one of the preceding claims, characterized in that it is provided with a detector (22) indicating the front end of the path (21) followed by the threading element (1), said detector (22) being essentially an electrically conductive contact piece (40) on the one hand, and on the other hand, two electrical contacts (36-37) which are placed on the free end of the pull-through element 1 and which can interact with the aforementioned contact piece (40)  EMI13.3  Device and thread threading claims, characterized in that the thread threading element (]) is provided with optical fibers (32-33) which allow an optical thread detection in the hook opening (34). Thread threading device according to any one of the preceding claims, characterized in that it is mounted on a transport mechanism (16).  <Desc / Clms Page number 14>    ] 8.-t. weaving machine for weaving machines mainly as described previously and Shown in the accompanying drawings.