EP0165444A2 - Drive for a waxing device and method for driving such a device - Google Patents

Abstract

In a textile machine with a large number of similar paraffinizing devices (2), each has a rotatable polygonal bolt for receiving a paraffin body (21), on which a thread (15) to be waxed is supported. Each polygonal bolt is connected to a drive whorl with which an endless drive belt (3) cooperating with a large number of adjacent paraffinizing devices (2) is connected. The drive belt (3) is guided in a zigzag fashion around the drive whorls of adjacent paraffinizing devices (2). In an open-end spinning machine, the common drive belt of the paraffinizing devices (2) is connected to the shaft (19) for controlling the fiber delivery in the open-end spinning devices.

Description

The present invention relates to a drive device for a waxing device of a textile machine, which has a plurality of similar waxing devices, each of which has a rotatable polygonal bolt for receiving a solid wax body, on which a thread to be waxed is supported.

As a rule, the solid paraffin body is rotated by the thread fed to a winding device (DE-Gm 7.611.630). Here, however, there is a danger that the thread will cut into the paraffin body and thus make uniform removal of the paraffin impossible. In many cases, therefore, an individual drive motor is provided for each paraffinizing device (DE-OS 2,316,452). However, this makes such a drive very complex.

It has also become known to drive individual drives with the aid of a central shaft, which extends over a large number of similar paraffinizing devices, via complex intermediate gears, which in turn then drive the individual paraffinizing devices (FR-PS 1,293,729, DE-PS 1,560,460 and DE-OS 2,227,308). These single drives are complex. In the case of one Added to this is the fact that the drive transmission becomes more and more unreliable with increasing wear of the friction wheels, so that perfect waxing of the thread is no longer guaranteed.

The object of the invention is to provide a simple and safe drive device for a paraffinizing device.

This object is achieved in that each polygonal bolt is connected to a drive whorl with which an endless drive belt cooperating with a plurality of adjacent paraffinizing devices is in engagement. Such a drive is extremely simple. In addition, this drive has proven to be completely reliable even at the low speeds desired for the paraffin body, so that a uniform waxing of the thread is ensured even over a long period of time.

Common belt drives are already known for a large number of similar elements of a textile machine, but only for high-speed elements, such as e.g. Spindles, spinning rotors and opening rollers of open-end spinning machines (DE-AS 1.818.034). At these high speeds, small fluctuations in the counter-torque acting on the driven element do not come into effect, so that a uniform drive is ensured. At low speeds, however, such fluctuations cause speed changes. Surprisingly, however, it has been shown that, despite these possible fluctuations in speed, a perfect waxing of the thread is ensured.

"Drive belts" in the sense of the present invention are not only understood to mean flat belts, but all elongate drive elements such as round cords, V-belts, toothed belts, etc. are to be covered herewith.

In order to further optimize the drive without the need for separate belt tensioning elements, in a further embodiment of the invention the drive belt is zigzagged around the drive whorls of the adjacent paraffinizing devices. The drive belt jointly assigned to these waxing devices is thus alternately on the one and on the other side of the common surface, on which the polygonal bolts of these waxing devices are located, in driving connection with the drive whorls of these waxing devices. The common surface can be a plane or (in the case of an inclined arrangement of the paraffining devices on round machines) also have a conical shape.

In the case of a textile machine designed as an open-end spinning machine, which has a large number of adjacent open-end spinning devices and a shaft for controlling the delivery of fibers into these open-end spinning devices, the drive belt is expediently connected to this shaft in terms of drive. This shaft for controlling the fiber delivery is driven as a function of the fiber throughput by the open-end spinning devices, so that the paraffinizing devices are adapted to this throughput and are therefore always driven only at the speed required for this throughput. As a result, the drive for the paraffinizing devices has a very long service life.

A particularly simple construction of the subject matter of the invention is made possible if the drive whorl of each paraffinizing device is arranged between a holder for this paraffinizing device and the paraffinizing body. This also leads to particularly good accessibility to this drive. A further reduction in the construction effort will achieved when the polygonal bolt is formed in one piece with the drive whorl. In order to facilitate assembly and also to save weight on the paraffinizing devices to be driven, the polygonal bolt is expediently designed as a hollow body which receives the mounting and fastening. According to a simple constructive embodiment of the subject matter of the invention, the fastening has a threaded bolt which is screwed into a threaded bushing provided in the holder. Advantageously, the cavity of the polygonal bolt can be closed at its end facing away from the bearing by a cap which projects beyond the outer circumference of the polygonal bolt and is designed as a stop for an elastically loaded paraffin support plate mounted on the polygonal bolt. For this purpose, the flap advantageously has corners, the polygonal bolt protrudes on its chamfered edges, while the side surfaces of the polygonal bolt and the cap are flush, the paraffin support plate having guide surfaces which are closely matched to the profile of the polygonal bolt. In this way it is achieved that the paraffin body can be pushed over the insert serving as a stop for the paraffin support plate onto the polygonal bolt without the play between the polygonal bolt and the paraffin body having to be increased.

In a textile machine in which the drive belt is returned along the driven paraffinizing devices to the drive point, a support element for the returning run of the drive belt is preferably provided. In the case of a machine in which the paraffinizing device is connected upstream of a winding device, which in turn is preceded by a thread tension compensation element that extends from the holder to the drive whorl, this support element is advantageously arranged just below this thread tension compensation element, so that the drive belt is protected by this cover. According to a preferred embodiment of the device according to the invention, the support element serves as a carrier for a stop limiting the advancing movement of the paraffin body.

In a further embodiment of such an embodiment, a carrier designed as a supporting element is arranged on both sides of the paraffin body, the stop extending from one of these carriers to the other carrier. The support element, which is arranged in front of the paraffin body with respect to the rotational movement acting on the stop, is expediently designed as a pivot bearing for the stop, while the support element arranged after the paraffin body has a longitudinal slot on its side facing away from the waxing device for receiving the end of the stop having. This arrangement ensures that, despite the simplest mounting of the stop, it cannot be pivoted out of the longitudinal slot serving as a receptacle by the rotating paraffin body.

To protect and cover the returning run of the drive belt, an open channel can be provided for this run on its side facing the paraffinizing device, which in an advantageous embodiment of the subject matter of the invention is formed by the holder and a cover strip, which is an integral part of the thread tension compensation element.

In order not to always have to run the paraffin body at the highest speed, which is only required under very specific operating conditions, the invention preferably provides for the rotational speed of the paraffin body to be adapted to the fiber mass fed to the open-end spinning device .... This happens, as already mentioned above, preferably in that the drive of the paraffin body is removed directly from the shaft carrying the delivery rollers, but another is - for example electrical - speed coupling also possible in principle.

The invention provides a simple device that is compact, requires little energy to drive the paraffin body and that works reliably without maintenance. Despite the low mechanical engineering effort, the device is durable and user-friendly.

• Fig. 1 eine Offenend-Spinnmaschine mit der erfindungsgemäßen Vorrichtung in der Vorderansicht;
• Fig. 2 eine erfindungsgemäß angetriebene Paraffiniereinrichtung in perspektivischer Ansicht;
• Fig. 3 eine bevorzugte Ausbildung der erfindungsgemäß angetriebenen Paraffiniereinrichtung im Querschnitt;
• Fig. 4 ein Detail aus Fig. 3 in der Vorderansicht; und
• Fig. 5 eine Abwandlung der erfindungsgemäß angetriebenen Paraffiniereinrichtung im Querschnitt.

The invention is described in more detail below with reference to drawings. Show it:

• Figure 1 is an open-end spinning machine with the device according to the invention in the front view.
• 2 shows a paraffinizing device driven according to the invention in a perspective view;
• 3 shows a preferred embodiment of the paraffinizing device driven according to the invention in cross section;
• FIG. 4 shows a detail from FIG. 3 in a front view; and
• Fig. 5 shows a modification of the paraffinizing device driven according to the invention in cross section.

The invention can be used in various textile machines on which the thread can be waxed. The textile machines can have an elongated or a round shape. In addition, it does not matter whether it is yarn-producing spinning machines, yarn-treating winding machines or yarn-processing machines (knitting or warp knitting machines). For the following discussion, an open-end spinning machine (FIG. 1) was selected as an example, which has a large number of spinning positions 1 and, accordingly, paraffinizing devices 2. The spinning machine shown has seven spinning positions 1; in practice, however, these are considerably more. The spinning machine itself is only shown schematically, all the elements of which are not absolutely necessary for the understanding of the invention Were omitted for the sake of clarity. The open-end spinning machine has an end frame 11 and 12 at each end. Between the end frames 11 and 12, the spinning machine has one spinning device covered by a cover 10 for each spinning station 1. The fiber material 13, which is presented to it in a spinning can 14, is fed to the spinning device with the aid of a delivery device which is driven by a shaft 19 which extends over the entire length of the machine.

The thread 15 spun in the spinning device is drawn off with the aid of take-off rollers 17 and 18 and wound onto a bobbin 16, the thread 15 being presented to the bobbin 16 in an alternating manner in the usual and therefore not shown. A waxing device 2 is arranged in the thread path between the take-off rollers 17 and 18 and the bobbin 16 (or a yarn processing point in the case of yarn processing machines).

Each waxing device 2 has a polygonal bolt 4 (FIG. 2), on which a waxing body 21 for waxing the thread 15 is attached. The polygonal bolt 4 is connected in terms of drive to a drive whorl 20. The drive whorls 20 of the paraffinizing devices 2 of a large number of adjacent spinning positions 1 are driven by a common drive belt 3.

In principle, the drive belt 3 can always rest on one and the same side on the drive whorls 20 (FIG. 2) of the paraffinizing devices 2, the drive belt 3 being tensioned by conventional tensioning rollers, not shown, and held in contact with the drive whorls 20. The paraffin bodies 21 are driven uniformly in this way. Even if the moment exerted by the thread 15 on the paraffin body 21 changes briefly as a result of changes in the thread tension, a change in the rotational speed which is not so great that could impair the perfect waxing of the thread 15 is nevertheless achieved. Rather has shown that the waxing of the thread 15 and the processing of the wax body 21 takes place very uniformly.

A particularly advantageous embodiment of the device is described below with reference to FIG. 1, in which the drive belt 3 wraps around the drive whorls 20 (FIG. 2) in a zigzag fashion. As indicated at two spinning positions 1, the axes of the paraffinizing devices 2 are on a common surface E, while the driving strand 30 alternately on one and on the other side of this surface E with the drive whorls 20 (FIG. 2) of the paraffinising devices 2 in drive connection is. In this way, every second paraffin body 21 is driven in a clockwise direction, while the paraffin bodies 21 located in between are driven in a counterclockwise direction. However, this is irrelevant for the waxing of the thread 15, which is waxed equally well regardless of the direction of rotation of the wax body 21.

Depending on the type of machine, this surface E is a plane (in the case of elongated machines and in the case of round machines in which the axes of the paraffin waxing devices 2 extend exactly radially outward) or a conical surface (in the case of round machines in which the axes of the paraffin devices 2 are inclined).

The zigzag guide of the drive belt 3 keeps it taut and wraps around the drive whorls 20 over a larger area than with conventional tangential drives, so that a good entrainment of the drive whorls 20 is nevertheless achieved when tensioning rollers are omitted.

In principle, the drive belt 3 can also be driven in any desired manner. 1, the drive belt 3 receives its drive from the shaft 19, with which the fiber material 13 is fed to the spinning device. For this purpose, a drive roller 32 is arranged on the shaft 19 in the vicinity of the end frame 11. Between this drive roller 32 and a deflection roller 33 for the driving strand 30 for deflecting the drive belt 3 in the direction of the machine axis, there is a further deflection roller 34 with which the drive belt 3 is fed to the deflection roller 33 at an optimal angle. As already described, the drive belt 3 is in contact with the drive whorls 20 of the paraffinizing devices 2 alternately from above and from below. At the other end of the machine, the drive belt 3 is deflected by a further deflection roller 35 in the vicinity of the end frame 12. The returning run 31 of the drive belt 3 is then returned above the paraffinizing devices 2 to a deflection roller 36 in the vicinity of the end frame 11, from where the drive belt 3 reaches the drive roller 32 again.

• Zunächst wird der Antriebsriemen 3 auf die Antriebsrolle 32 sowie die Umlenkrollen 34, 33, 36 und 35 aufgelegt, ohne daß der Antriebsriemen 3 gleich über die Antriebswirtel 20 geführt wird. Sodann wird der Antriebsriemen,_,3 abwechselnd über und unter einen mit dem Antriebswirtel 20 verbundenen Mehrkantbolzen 4 (Fig. 3) gelegt. Da der Antriebsriemen 3 hierbei nur geringfügig durch die Zickzacklage um die Mehrkantbolzen 4 der Paraffiniereinrichtungen 2 umgelenkt wird, ist dieser Antriebsriemen 3 nur geringfügig gespannt. Nun wird der Antriebsriemen 3 auf die Antriebswirtel 20 aufgelegt. Dadurch wird der Zickzackverlauf des Antriebsriemens 3 verstärkt, wobei der Antriebsriemen 3 seine Betriebsspannung erhält.

The procedure for placing the drive belt on the drive whorl 20 is as follows:

• First, the drive belt 3 is placed on the drive roller 32 and the deflection rollers 34, 33, 36 and 35, without the drive belt 3 being passed over the drive whorls 20. Then the drive belt, _, 3 is placed alternately above and below a polygonal bolt 4 connected to the drive whorl 20 (FIG. 3). Since the drive belt 3 is deflected only slightly by the zigzag position around the polygonal bolts 4 of the paraffinizing devices 2, this drive belt 3 is only slightly tensioned. Now the drive belt 3 is placed on the drive whorl 20. The zigzag course of the drive belt 3 is thereby increased, the drive belt 3 receiving its operating voltage.

The drive of the drive belt 3 from the shaft 19 of the feed device of the open-end spinning machine causes the paraffin body 21 to be driven at a speed adapted to the fiber throughput. If a lot of sliver is fed to the open-end spinning devices, so that the fiber throughput is high, then the stretching speed of the paraffin bodies 21 increases accordingly. If less sliver is fed to the spinning devices, the speed of rotation of the paraffin bodies 21 is also reduced accordingly, so that the paraffin bodies 21 can only be driven at the required speed and not faster. This leads to a longer service life of the drive of the paraffin devices 2.

A particularly advantageous embodiment of the drive device and the correspondingly configured paraffinizing device 2 will be described below with reference to FIGS. 2 and 3. This is carried by a bracket 5 designed as a holding plate. For this purpose, a threaded bush 40 is pressed into the holding plate 5 or firmly connected in another way, into which a threaded bolt 41 is screwed. On the threaded bolt 41 are two roller bearings 42 and 43, on which the polygonal bolt 4 is rotatably mounted. The polygonal bolt 4 is designed as a hollow body, which on the one hand has the advantage that the threaded bolt 41 is accessible from the front of the polygonal bolt 4, and on the other hand reduces the weight of the waxing device 2 and thus contributes to an increase in its service life.

The polygonal bolt 4 has a polygonal profile 400, on which a paraffin support plate 44 with a guide section 440, which has a guide surface 441 adapted to the polygonal profile 400, is slidably mounted. At the end of this guide section 440 facing away from the drive whorl 20, the paraffin support point 44 merges into a radial support surface 442 which is delimited by an annular collar 443 which axially projects beyond this support surface 442 on its side facing away from the drive whorl 20.

The drive whorl 20 is connected to the polygonal bolt 4 only with a radial connecting surface 200, so that an annular recess 45 for receiving a compression spring 46 is formed between the drive whorl 20 and the polygonal bolt 4. By means of this compression spring 46, which is supported on the radial connecting surface 200 on the one hand and on the radial support surface 442 on the other hand, the paraffin support plate 44 is acted upon in the direction of the free end of the polygonal bolt 4 and in this way ensures that the paraffin body 21 is always in predefined dimensions protrudes into the thread running plane so that it bears against the thread 15 in the desired manner. The paraffin body 21 is held in this position against the action of the compression spring 46 by a stop 6, which will be described in more detail later.

As mentioned above, the polygonal bolt 4 is designed as a hollow body. A cylindrical extension 470 of a cap 47 projects into the open end of the polygonal bolt 4 facing away from the drive whorl 20. This cylindrical extension 470 serves to fasten the cap 47 in the polygonal bolt 4. This can be done by means of cooperating catches or by a correspondingly tight fit between these parts.

The cap 47 also has a stop surface 471 with which it rests on the end face of the polygonal bolt 4. As shown in FIG. 4, the side surfaces 472 of the cap are flush with the side surfaces of the polygonal bolt 4. In contrast to the edges of the abutment surface 471 of the cap 47, the edges of the polygonal bolt 4 are provided with chamfers 401. In this way, the corners 473 transmit these chamfers 401. As mentioned above, the guide surface 441 of the paraffin support plate 44 is adapted to the polygonal profile 400 of the polygonal bolt 4, and thus also has surfaces corresponding to the chamfers 401 of the polygonal bolt 4.

The corners 473 of the cap 47 thus form a stop for the paraffin support plate 44 and hold it securely on the polygonal bolt 4.

Since the side surfaces 472 of the cap 47 are flush with the side surfaces of the polygonal bolt 4, the cap 47 in no way hinders the pushing of a paraffin body 21 onto the polygonal bolt 4 and likewise does not impair its displacement on the polygonal bolt 4.

The cap 47 has a central bore 474 which, without the cap 47 having to be removed from the polygonal bolt 4, enables access to the threaded bolt 41. This facilitates rapid removal of the paraffin device 2 should this become necessary.

In the device described above in the construction, the drive whorl 20 of the paraffinizing device 2 is located between the holder 5 for the paraffinizing device 2 and the paraffin body 21. However, as will be described later with reference to FIG. 5, this is not a requirement.

In the exemplary embodiment shown, the drive belt 3 is returned along the driven paraffinizing devices 2 to the drive point (shaft 19, see FIG. 1). The drive belt 3 is kept so tensioned that the two strands 30 and 32 do not touch each other 2 and 3, support elements 60 and 61 are provided for the returning run 31 of the drive belt 3, which is out of engagement with the waxing devices 2, in principle, in long machines in which a large number of paraffinizing devices 2 are driven with this drive belt 3 it is sufficient if only one support element 60 or 61 is provided per paraffinizing device 2, it not even being necessary for each Paraffinizing device 2 has such a support element 60 or 61.

2, the support element 60 is designed as a carrier of the stop 6 limiting the advancing movement of the paraffin body 21. A single supporting element 60 of this kind is sufficient for each paraffinizing device 2. However, since it has been shown that particularly smooth processing of the paraffin body 21 is achieved when the stop 6 extends transversely to the thread path, there is one on each side of the paraffin body 21 according to FIG such, provided as a support for the stop 6 support element 60 and 61 is provided. The stop 6 extends from one support element 60 to the other support element 61 of such a support element pair.

In principle, the stop 6 can be rigidly connected to both support elements 60 and 61. In the exemplary embodiment shown, however, a clamping screw 62 is only provided for the support element 60. The support element 61, however, has on its upper side - i.e. on its side facing away from the polygonal bolt 4 of the paraffinizing device 2 - a longitudinal slot 610 for receiving the other end of the stop 6. After loosening the clamping screw 62, the rail-shaped stop 6 can thus be pivoted into and out of the operating position in the support element 61 forming a pivot bearing, so that the exchange of the paraffin body 21 and the subsequent securing thereof on the polygonal bolt 4 can be accomplished in the simplest and fastest manner can.

In the embodiment shown in FIGS. 1 and 2, the thread 15 to be waxed is moved from bottom to top (see arrow B in FIG. 3). The stop 6 is located on the thread outlet side of the paraffin body 21. With the predetermined direction of movement of the drive belt 3 (see arrow P), the paraffin body 21 rotates in the direction of the arrow D counterclockwise. The rotary movement acting on the stop 6 thus runs from right to left. In relation to this rotational movement is before this Paraffin body the support element 60-arranged, which is designed as a pivot bearing for the stop 6. The support element 61 having the longitudinal slot 610 is arranged accordingly after the paraffinizing device 2. In this way, the rotating paraffin body 21 causes the stop 6 to be pressed into the longitudinal slot 610 and thus secures the stop 6 in its operating position. The reason for this is that two opposing moments M and m act on the stop 6, of which, however, the moment M having the larger moment arm (based on the support element 60) outweighs the moment m having the smaller moment arm.

Since the paraffin bodies 21 are driven alternately clockwise and counter-clockwise in the drive belt course described, the support elements 60 designed as pivot bearings and the support elements 61 having the longitudinal slot 610 of each second paraffin device 2 in the arrangement shown and the paraffin devices 2 located in between are also shown reversed arrangement provided.

A thread tension compensation element 7 is located above the support elements 60 and 61 in the open-end spinning machine shown. This element partially projects above the paraffin waxing devices 2. In order to protect the drive belt 3, the mutual arrangement of thread tension compensation element 7 and support elements 60 is shown in FIGS. 2 and 3 and 61 so that these support elements 60 and 61 for the returning strand 31 of the drive element 3, which is out of engagement with the paraffinizing device 2, are located just below the thread tension compensation element 7.

In the embodiment shown, the returning run 31 of the drive belt 3 is guided in a channel 8 which is open on its side facing the paraffinizing device 2. This channel 8, which can be designed differently in principle, will According to the embodiment shown in FIGS. 2 and 3, formed from the holder 5 designed as a holding plate, an angled section 50 thereof and a cover strip 70. The cover strip 70 is an integral part of a sheet, a further section of which forms the thread tension compensation element 7 mentioned.

As a comparison of FIGS. 2 and 3 shows, the drive belt 3 does not necessarily have to have a flat shape, but can also have a different shape, e.g. have a round shape. However, the arrangement of the drive whorl 20 between the holder (holding plate 5) and the polygonal bolt 4 with the paraffinizing body 21 is not a requirement for the drive device.

FIG. 5 shows a modified drive device in which the drive whorl 20 is arranged on one side and the polygonal bolt 4 with the paraffin support plate 44 on the other side of the holder 5 reinforced by an additional plate 51. The polygonal bolt 4, which has a support plate 48 for the compression spring 46 at its end facing the holder 5, is seated on a shaft 9 in a rotationally fixed manner. The shaft 9 is supported in a bearing bush 92 by means of two roller bearings 90 and 91. The roller bearings 90 and 91 are axially secured in the usual manner by spring washers 93, 94 and 95 and a spacer bush 96. The bearing bush 92 is pressed into the plate 51. At the end facing away from the polygonal bolt 4, the shaft 9 carries the drive whorl 20 with which the drive belt 3 is engaged.

In such an embodiment, as seen from the operating side of the machine, both the driving strand 30 and the returning strand 31 of the drive belt 3 are located behind the holder 5, so that the drive belt 3 is well protected. The above description shows that the subject of the application can be modified in many ways. Further modifications are possible through the exchange of features with one another or through their use by equivalents and combinations thereof and fall within the scope of the present invention.

Claims (17)

1. Drive device for a waxing device of a textile machine, which has a plurality of similar waxing devices, each of which has a rotatable polygonal bolt for receiving a solid paraffin body, on which a thread to be waxed is supported, characterized in that each polygonal bolt (4) with a drive whorl (20), with which an endless drive belt (3) cooperating with a plurality of adjacent paraffinizing devices (2) is engaged. 2. Drive device according to claim 1, characterized in that the drive belt (3) is zigzag around the drive whorl (20) of adjacent paraffinizing devices (2). 3. Drive device according to claim 1 or 2, in a textile machine designed as an open-end spinning machine, which has a plurality of adjacent open-end spinning devices and a shaft for controlling the fiber delivery in this open-end spinning device, characterized in that the common drive belt (3) of the waxing devices (2) is in drive connection with this shaft (19). 4. Drive device according to one or more of claims 1 to 3, characterized in that the drive whorl (20) of each paraffinizing device (2) is arranged between a holder (5) for this paraffinizing device (2) and the paraffin body (21). 5. Drive device according to claim 4, characterized in that the polygonal bolt (4) is integrally formed with the drive whorl (20). 6. Drive device according to claim 5, characterized in that the polygonal bolt (4; is designed as a hollow body and the bearing (42, 43) and attachment (41) receives. 7. Drive device according to claim 6, characterized in that the fastening (41) has a threaded bolt which is screwed into a threaded bushing (40) provided in the holder (5). 8. Drive device according to claim 6 or 7, characterized in that the cavity of the polygonal bolt (4) can be closed at its end facing away from the bearing by a cap (47) which projects beyond the outer circumference of the polygonal bolt (4) and as a stop for an elastic acted on the polygonal bolt (4) mounted paraffin support plate (44) is formed. 9. Drive device according to claim 8, characterized in that the cap (47) has corners which project beyond the polygonal bolt (4) on its chamfered edges, while the side surfaces of the polygonal bolt (4) and the cap (47) are flush, the Paraffin support plate (44) to the profile (400) of the polygonal bolt (4) adapted guide surfaces (441). 10. Drive device according to one or more of claims 4 to 9, wherein the drive belt is returned along the driven waxing devices to the drive point, characterized by a support element (60, 61) for the returning run (31) of the drive belt (3). 11. Drive device according to claim 10, wherein the paraffinizing device is connected upstream of a winding device, which is connected upstream of a thread tension compensation element extending from the holder to the drive whorl, characterized in that the supporting element (60, 61) for the returning run (31) of the drive belt (3) is arranged just below the thread tension compensation element (7). 12. Drive device according to claim 8 or 9, characterized in that the supporting element (60,61) serves as a carrier of the feed movement of the paraffinizing body (2) limiting stop (6). 13. Drive device according to claim 11 or 12, characterized in that on both sides of the paraffin body (2) is arranged as a support element (60, 61) designed carrier and the stop (6) from one of these carriers (60) to the other Carrier (61) extends. 14. Drive device according to claim 13, characterized in that the supporting element (60), which is arranged in relation to the rotational movement of the paraffin body (21) acting in front of the stop (6), is designed as a pivot bearing for the stop (6) while the support element (61) arranged after the paraffin body (21) has a longitudinal slot (610) on its side facing away from the paraffin device (2) for receiving the stop (6). 15. Drive device according to one or more of claims 10 to 14, characterized by an on its paraffinizing device (2) side facing open channel (8) for the returning run (31) of the drive belt (3). 16. Drive device according to claim 15, characterized in that the channel (8) through the holder (5 "and a cover strip (70) is formed, which is an integral part of the thread tension compensation element (7). 17. A method for controlling a paraffinizing device with the aid of a device according to claim 3, characterized in that the speed of rotation of the paraffin body is adapted to the fiber mass fed to the open-end spinning device.

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