EP1426317A1 - Friction lining for a friction roller to drive a bobbin in a textile machine - Google Patents

Abstract

The friction lining (2) for a distribution roller for the driving of a spool on a textile machine is in the form of a belt with two open ends (20,21) which are interconnected by a connecting device (3) which is simultaneously constructed as a fastening device. The friction lining is fastened to the roller at a distance from its two ends by means of at least one fastening device (81). The connecting device has two connecting elements (30,31) which by their associated ends are connecting to the friction lining.

Description

The present invention relates to a friction lining for a friction roller according to Preamble of claim 1.

A known friction roller with a friction lining for driving a coil has several arranged side by side on a common shaft rotatable roller body (EP 0 573 953 B1). The middle one is this Roller body connected to the shaft in a rotationally fixed manner and via a gear coupled to the two lateral roller bodies of the friction roller. These two outer roller bodies each have a on their peripheral surface Friction lining for better driving of the coil. To wear the friction lining to be replaced, the entire distribution roller must be replaced each time. This is particularly the case with textile machines with a large number of side by side arranged winding units very expensive and labor intensive.

The object of the present invention is therefore to provide a friction lining for a To create the friction roller, if necessary, without removing and installing the friction roller can be replaced in a simple and time-saving manner.

The stated object is achieved according to the invention by the features of the claim 1 solved. The inventive design of the friction lining as a finite strip, the ends of which are connected to one another the friction lining in the event of wear by loosening the connecting device or by destroying the friction lining in a simple manner can be replaced quickly, without the need for the friction roller as a whole or the shaft carrying the distribution roller is temporarily removed or replaced must become.

The connecting device for connecting the two ends of the strip or belt-like friction lining can be designed in different ways become; according to an advantageous embodiment of the subject matter of the invention according to claim 2, the connecting device can function simultaneously take over a fastening device.

Such a fastening device can be designed differently, for example as a clip element, which in a correspondingly trained, in The roller body provided recess can be clipped; as special However, a fastener designed according to claim 3 or 4 has been expedient proved.

It is possible to according to the friction lining of the friction roller according to the invention Claim 5 regardless of the connecting device on the roller body to fix. This is particularly advantageous if it is because of the Thickness or width of the friction lining is difficult with this Tension on the roller body to ensure that the friction lining is secure and sits non-slip on the roller body. It is useful that Connection device and the further fastening devices according to Claim 6 as evenly as possible over the circumference of the roller body to distribute.

Preferably, the connection device according to claim 7 for each the two ends of the belt-like friction lining a separate, non-detachable connecting element connected to the respective end of the friction lining. According to claim 8, both ends of the friction lining can jointly assigned fastener on the one hand connecting the two ends of the belt-like friction lining and on the other hand the fastening serve the strip-shaped friction lining on its roller body.

The connecting elements according to claim 9 are advantageously as clip elements formed, since this makes it possible to connect the device in a simple way and usually without the help of Being able to open or close tools, what a quick change of the friction lining is an advantage.

According to a particularly expedient training of the subject matter of the invention according to claim 10, the two cooperating connecting elements hook-shaped. According to a preferred development the friction roller according to the invention according to claim 11 can be provided be that the hooks of the connecting elements are ramp-shaped Have surfaces that open and close the connection on the one hand lighten between the two ends of the belt-like friction lining and on the other hand, make sure that even when driving the spool resting on the friction roller is always a consistently safe one Connection between the two friction lining ends is guaranteed.

The connecting device is when braking the coil in the circumferential direction subject the roller to a particularly strong force. To still regardless of the size and thus the mass of the coil to be braked Ensuring that the friction lining closes properly is one Further development of the friction roller according to the invention is particularly advantageous meaningful.

The two connecting elements can be used in different ways be connected to the respective end of the belt-like friction lining, e.g. B. by gluing two in the mounted state on the roller body concentrically arranged surfaces of connecting element and friction lining, but is a positive connection between the ends of the friction lining and the connecting elements according to claim 13 particularly advantageous.

Instead of the friction lining in addition or alone with the help of fasteners is attached to the roller body, according to another advantageous development of the device according to the invention 14 are provided that the elastic friction lining rests on the roller body under a predetermined pretension, so that usually with the help of additional fasteners can be dispensed with. A non-uniform is expediently thereby Cross-sectional profile according to claim 15 or a different profile Width of the friction lining provided according to claim 16, wherein it is expedient, the course of such a cross section or such Width according to claim 17 in adaptation to the tension of the one Define roller body mounted friction lining.

According to a further advantageous embodiment of the subject matter of the invention can according to claim 18 a preforming of the friction lining and / or the connecting device can be provided, which the application of the Friction lining on the roller body very relieved.

If the two open ends of the friction lining are glued together, then to get a particularly strong connection. When removing the worn out Covering is destroyed.

Assign the two open ends of the friction lining to prepared glue points assembly is very quick and reliable. A Preparation during assembly is avoided, creating a defined and constant adhesion of different friction linings is made possible.

If the prepared glue points are covered before the connection, then that is Glue point before dirt and damage to the glue point or the Glue protected.

If the prepared glue points can be activated with light or heat, this is done after a suitable positioning of the friction lining the adhesive in very reliably by placing a light or heat source nearby the glue point is brought.

A friction lining designed according to the present invention enables in simple, inexpensive and time-saving replacement without the need to replace the complete friction lining Friction roller. All the more it is not necessary to use the friction rollers juxtaposed winding receiving shaft for one Exchange of the friction lining of one or more friction rollers temporarily expand. Because of what can be achieved with the help of the subject matter of the invention The time saved shortens the time required for this friction lining change Time expenditure essential, which is particularly the case with textile machines with a Large number of winding units arranged side by side is of great importance.

Fig. 1:

in perspektivischer Ansicht eine erfindungsgemäß ausgebildete Reibwalze;

Fig. 2:

in perspektivischer Ansicht einen erfindungsgemäß ausgebildeten Reibbelag für eine Reibwalze;

Fig.3:

in perspektivischer Ansicht eine erfindungsgemäße Verbindungsvorrichtung für die beiden Enden des in Fig. 2 gezeigten Reibbelages;

Fig. 4 - 6:

im Querschnitt als Befestigungsvorrichtungen ausgebildete erfindungsgemäße Verbindungsvorrichtungen; und

Fig. 7:

in perspektivischer Ansicht ein Detail des erfindungsgemäßen Reibbelages.

Exemplary embodiments of the invention are explained below with the aid of drawings. Show it:

Fig. 1:

in perspective view an inventive friction roller;

Fig. 2:

a perspective view of a friction lining designed according to the invention for a friction roller;

Figure 3:

a perspective view of a connecting device according to the invention for the two ends of the friction lining shown in Fig. 2;

4 - 6:

connecting devices according to the invention designed in cross section as fastening devices; and

Fig. 7:

a perspective view of a detail of the friction lining according to the invention.

In Fig. 1 is a friction roller 1 for driving a spool S on a textile machine shown. The friction roller 1 is driven by a shaft 14, which in turn is rotatably supported in holders 13 and over a variety juxtaposed winding units each with a friction roller 1 extends.

The shown friction roller 1 consists of three axially lined up roller bodies 10, 11 and 12, of which the middle roller body 11 of the Shaft 14 is driven. The two outer roller bodies 10 and 12 are driven by the central roller body 11 via a differential gear, so that the two outer roller bodies 10 and 12 with different Rotate speed and one resting on the friction roller 1 conical coil S through the two outer roller bodies 10 and 12 is driven. Since the middle roller body 11 for driving the conical Coil S does not make a significant contribution, only the outer ones Roll body 10 and 12 provided with a friction lining 2, during the middle roller body 11 essentially only the support of the coil S. serves.

The radius r ₁ (FIGS. 4 to 6) of the two outer roller bodies 10 and 12 in the immediate vicinity of the middle roller body 11 is slightly smaller than its radius r ₂ (FIG. 1), so that the friction linings 2 of the two roller bodies 10 and 12 due to the differences between these radii r ₁ and r ₂ are secured axially in the direction of the roller body 11 against axial displacement. To axially secure the friction linings 2 on their side facing away from the middle roller body 11, the two outer roller bodies 10 and 12 each have a ring 100 and 120 on their ends facing the ends of the friction roller 1.

The friction linings 2 of the two roller bodies 10 and 12 are in the shown Embodiment essentially the same, which is why in the following description only in general on a friction lining 2 Reference is made.

Such a friction lining 2, shown in FIG. 2, drives the coil S in a frictional manner, sometimes also form-fitting. For this purpose, he points to his Outer peripheral or lateral surface on a surface roughness, which through appropriate choice of materials, shaping or surface processing is achieved. The friction lining 2 is in the manner of a belt or belt two open ends 20 and 21 formed by means of a connecting device 3 can be detachably or permanently connected and then take the ring shape.

The connecting device 3 is composed of two connecting elements 30 and 31 together, of which the connecting element 30 with the end 20th and the connecting element 31 with the end 21 of the friction lining 2 in a suitable manner Is detachably or non-detachably connected. In principle, the type is one such connection irrelevant.

An exemplary embodiment of a preferred connecting device 3 is described below with the aid of FIG. 3. Each of the two connecting elements 30 and 31 has a fastening area 300 or 310, which is overlapped by the end 20 or 21 of the friction lining 2 assigned to it in an overlap area I ₁ or I ₂ . So that the friction lining 2 has a constant thickness over its entire length, each of its two ends 20 and 21 has a correspondingly dimensioned recess 200 and 210 for receiving the fastening area 300 and 310 of the two connecting elements 30 and 31 (FIG. 2 and 4). It is provided that the two ends 20 and 21 of the friction lining 2 are located on the outside of the friction lining 2, which has a ring shape in the closed state, so that the outer surface 23 of the friction lining 2, which is designed as a friction surface, extends to the outermost end region 201 and 211 thereof (see Fig. 4).

According to the embodiment of the connecting device shown in FIG. 3 3, this has a profiling in its fastening area 300 or 310 , with the help of which the connecting elements 30 and 31 not only non-positively, but also form-fitting with the ends 20 and 21 of the friction lining 2 can be connected. So have the two connecting elements 30 and 31 according to FIG. 3 in their fastening areas 300 and 310 to achieve this a positive connection with the ends 20 and 21 of the Friction lining 2 each two dome-shaped depressions 301 and 302 or 311 and 312, into which a corresponding dome-shaped protrusion 202 or 212 (see FIG. 4) of the end 20 or 21 of the friction lining 2 protrudes. Furthermore, there is a transverse groove 303 in each connecting element 30 or 31 or 313 for receiving and securing the outermost end region 201 and 211 of the ends 20 and 21 of the friction lining 2 are provided.

The two connecting elements 30 and 31 are shown in FIGS. 2 and 3 are each hook-shaped and each have a recess 304 or 314 for receiving a hook 305 or 315 of the other of the two connecting elements 30 and 31. The longitudinally elastic The friction lining 2 has such a length that it can be used with its help the connecting device 3 closed state under voltage rests non-slip on the roller body 10 or 12.

If a friction lining 2 a friction roller 1 must be replaced, this can be done without prior Removal of the roller 1 done. By pushing the two connecting elements 30 and 31, the two hooks 305 and 315 in an area in which they can be removed by radially lifting the hook 305 can be separated from the recess 314.

The opened friction lining 2 can now be opened to the extent that it is without Difficulties are removed from the roller body 10 or 12 can.

Analogously, a new friction lining 2 can then be placed on it assigned roller body 10 or 12 are drawn. The two ends 20 and 21 of the friction lining 2 are kept so far apart that the opened friction lining 2 is pushed over the roller body 10 or 12 can be. Then the two at the ends 20 and 21 of the Friction lining 2 located connecting elements 30 and 31 under tender a pulling force approached each other until their two hooks 305 and 315 by a radial movement in the direction of the one carrying the friction roller 1 Shaft 14 inserted into the recesses 304 and 314 and thereby in mutual Intervention can be brought.

In order to latch or unlatch the two hooks 305 and 315 during the Closing or opening movement of the two connecting elements 30 and To facilitate 31 is in the embodiment shown in FIGS. 2 and 3 provided that the hook backs 306 and 316 of the two hooks 305 and 315 are ramp-like. For connecting the two connecting elements 30 and 31 these are moved towards each other, the two hooks 305 and 315 with their hook backs 306 and 316 on top of each other run up and slide along it until hooks 305 and 315 are reached of the recesses 304 and 314 snap into them.

This also applies to the separation or opening movement of the two connecting elements 30 and 31 the release of the hooks 305 and 315 easier is the opposite of the hook back 316 of the hook 315 Wall 308 of recess 304 is also ramp-like. In the Opening movement of the two connecting elements 30 and 31 thus runs the hook back 316 of when the connecting device 3 is closed the outer peripheral surface 17 (FIGS. 4 to 6) of the roller body 10 or 12 adjacent hook 315 on the wall 308 and thus lifts the hook 305 out of the correspondingly dimensioned recess 314.

1 and 3, the drive direction f _{1 of} the friction roller 1 is shown while driving the spool S in its normal winding direction f ₂ . The two connecting elements 30 and 31 are arranged such that the spool S keeps the two hooks 305 and 315 in mutual engagement while being driven by the friction roller 1. This is the case when, during the drive of the friction roller 1, the connecting element 31 which leads with respect to the direction of rotation and drive f ₁ in its area having the hook 315 on the outer circumferential surface 17 (FIGS. 4 to 6) of the roller body 10 or 12 rests. During the acceleration of the coil S, it presses the hooks 305 and 315 into mutual engagement. This does not change if the spool S has reached the same peripheral speed as the friction roller 1. The hooks 305 and 315 are thus acted upon in their closing direction with respect to the drive direction f _{1 of} the friction lining 2.

The connection between the two ends 20 and 21 of the friction lining 2 can be done in different ways. For example, one of the Connecting elements 30 or 31 a bore (not shown) or a itself Axially parallel with respect to the roller body 10 and 12 extending groove (also not shown), with which a correspondingly trained pin or web or a suitably designed rail in engagement can be brought, with an elastic design of this pin or this rail or the hole receiving the pin or the the rail receiving groove made the connection in the manner of a clip or can be canceled again.

With such a clip-shaped connecting device, the Friction lining 2 are replaced, it is sufficient to exercise a with respect to the roller body 10 or 12 in the radial direction oriented train the clip connection between pin or web or rail on the one hand and the roller body 10 and 12 on the other hand to solve. After acceptance This pin or web or rail becomes the ends 20 and 21 released the friction lining 2, so that this in the previously described Way after bending its ends 20 and 21 from the roller body 10 or 12 can be removed.

After the friction lining 2 has been applied to the roller body 10 or 12, which can be done in a manner similar to that previously described the clip connection with the help of the pin or web by snapping into the Hole or groove to be restored.

The present invention is not limited to the formations described, but can be modified in many ways, especially by replacing features with equivalents or with others Combinations of features or their equivalents. 4 is with the same design of the friction lining 2 and its ends 20 and 21 a Connection device 9 shown, the same time as a fastening device 4 is formed. This, too, is only shown schematically Connecting device 9 has two connecting elements 90 and 91 with Length ranges 900 and 910, which the connection of the two connecting elements 90 and 91 serve each other, as well as attachment areas 901 and 911, which the ends 20 and 21 of the The friction lining 2 overlap and can be detached in a suitable manner, for. B. with the help of one or more screws (not shown), or not removable, e.g. B. are connected by gluing. The outer length range in the radial direction 910 of the connecting element 91 has a smooth bore 912, while in the radial direction inner length region 900 a threaded hole 902 has for receiving a screw 40, which on the one hand Part of the connecting device 9 and on the other hand part of the fastening device 4 is.

According to the embodiment shown in FIG. 4, this extends as a screw 40 trained fastener only up to a threaded hole 902 in the internal length range in relation to the length range 910 900 of the connecting element 90, but it is also possible - as in FIG. 4 indicated by dashed lines - that the inner length range 900 only has a bore without thread and the screw 40 through both connecting elements 90 and 91 up to a provided in the roller body 10 or 12, recess 101 designed as a threaded bore is sufficient. To this Way, the friction lining 2 is not only due to its tension secured to the roller body 10 or 12, but additionally by Screw 40.

Even with such an embodiment, the friction lining 2 can be removed without any gaps replace later reassembly of the friction roller 1. It is enough, just loosen the screw 40 to remove the friction lining 2 from the roller body To be able to lose 10 or 12. The friction lining 2 is pulled on in an analogous manner, as previously described with the aid of FIGS. 2 and 3 only that instead of hooking the connecting elements 30 and 31 here the connection is made using a screw 40.

If the fastening device 4 is not designed as a screw 40, but as a clip element, the recess 101 is adjusted accordingly Trained way.

When to fix and secure the friction lining 2 on the roller body 10 or 12, a fastening device 4 is provided, so can possibly dispensed with a separate connecting device 3 or 9 become. In this case, the two open ends 20 and 21 of the Friction lining 2 without the interposition of such a connecting device 3 or 9 with the help of at least one fastening device 4 directly on Roller body 10 and 12 attached. Here, too, the attachment in can be done in different ways. For example, the overlap both ends 20 and 21 of the friction lining 2 (cf. FIG. 4), wherein by appropriate design of these ends 20 and 21, is ensured that the thickness s, which the friction lining 2 outside of its overlap area has, also observed within this overlap area becomes. Alternatively, it can be provided that the ends 20 and 21 of the friction lining 2 are brought into mutual contact or at best leave a negligible small gap between them, whereby each of the two ends 20 and 21 by a separate fastening device 4 is attached to the roller body 10 or 12.

If the friction roller 1 is used to drive a cylindrical coil S, so can have an axially longer roller length range for the drive the coil S are used. Accordingly, it is wider in such The same applies to the friction lining 2. If this is made elastic, as in the training described above, which is particularly for the drive conical coils S is suitable, so a large force is required to the friction lining 2 so far that the two connecting elements 30 and 31 by hooking their hooks 305 and 315 together can be.

As a rule, it is therefore advantageous if the friction lining 2 is stress-free or applied to the friction roller 1 under a low tension and then using a fastening device 4 in the area of the ends 20 and 21 of the friction lining 2 can be secured. It can be provided that the friction lining 2 at a distance from this fastening device 4, d. H. at another point on the circumference of the friction roller 1, using a or several other fastening devices 80, 81 (Fig. 2) on the Rubbing roller 1 is secured.

To achieve a uniform contact of the friction lining 2 on the roller body 10 and 12 are the fastening device 4 and the additional Fasteners 80 and 81 as evenly as possible the circumference of the roller body 10 and 12 arranged distributed. If in Fig. 1 also indicated two such fasteners 80 and 81 are, it goes without saying that even a single, essentially opposite from the additional 4 arranged Fastening device may be sufficient; on the other hand can also more than just two additional fastening devices 80 and 81 can be provided.

FIG. 5 shows a fastening device 5, which works on a different principle than the fastening device 4 shown in FIG. 4. According to this exemplary embodiment, the friction lining 6 has on its lateral surface 62 facing away from the roller body 10 or 12 in the region of its two ends 60 and 61 a recess 600 or 610, into each of which a holding surface 50 or 51 of the fastening device 5 extends. The two holding surfaces 50 and 51 and the ends 60 and 61 of the friction lining 6 assigned to them are dimensioned such that together they have essentially the same thickness s as the remaining area of the friction lining 6. The holding surfaces 50 and 51 are part of a support rail 52, which is supported on the outer peripheral surface 17 of the roller body 10 and 12, respectively. The thickness s _{1 of} the support rail 52 between the holding surface 50 or 51 is slightly less than the thickness s _{2 of} the end 60 or 61 of the friction lining 6, so that the ends 60 and 61 of the friction lining 6 between the holding surfaces 50 and 51 of the Fastening device 5 and the roller body 10 and 12 are clamped and held by this clamping.

The roller body 10 or 12 has a T-shaped, axially parallel groove 15, into which the fastening device 5 with a T-shaped Web 53 extends. The fastening device 5 is thus in the radial direction due to the undercut of the T-shaped groove 15 in the safe Roll body 10 and 12 held.

If the distance between the friction roller 1 and the holder 13 is sufficient is large, the friction lining 6 is initially outside in the open state the length range of the friction roller 1, d. H. between the friction roller 1 and the holder 13, wrapped around the shaft 14 (Fig. 1). In this Area, the two ends 60 and 61 of the friction lining 6 are each other approached, whereupon the fastening device 5 in the manner between the is brought to both ends 60 and 61 that the two holding surfaces 50 and 51 and the ends 60 and 61 overlap each other. The holding surfaces 50 and 51 can now be released in a suitable manner with the two ends 60 and 61 of the friction lining 6 connected. The friction lining 6 now forms with the fastening device a ring and is in this form in the axial direction the roller body 10 or 12 pushed, while the T-shaped Web 53 in the likewise T-shaped groove 15 of the roller body 10 or 12 is introduced. To this insertion movement from outside to enable the friction roller 1, the ring 100 or 120 is omitted or it is for the duration of this axial movement of the web 53 during removal and installation of the friction lining 6 temporarily in the radial direction from the friction roller 1 decreased. If there is no ring 100 or 120 for axially securing the friction lining 6 is present on the roller body 10 or 12 can be provided that the fastening device 5 is yet another element is assigned, which ensures that the friction lining 6 is not in axial Can shift direction. Such an element can, for example, as Screw - similar to that described in connection with FIG. 4 Screw 40 - be formed, which is through the fastening device 5 through into a threaded bore in the roller body 10 or 12 stretched in (not shown).

If the space next to the friction roller 1 is not sufficiently large, it can alternatively be provided while maintaining the ring 100 or 120 that the difference between the radius r _{2 of} the roller body 11 and the groove 15 which is undercut on the underside of the T-shaped Radius r _{3 of} the roller body 10 or 12 is dimensioned such that the friction lining 6 brought into the longitudinal region of the roller body 11 can be closed with the aid of the fastening device 5, so that it can then be axially applied to the roller body 10 or 12 can be pushed up to the stop on the ring 100 or 120 while simultaneously inserting the web 53 into the groove 15 of the roller body 10 or 12. Securing against axial displacement of the friction lining 6 in the direction of the center of the friction roller 1 can be done by suitable means in in a manner similar to that previously described.

Another embodiment of a friction lining 7 and a fastening device 8 is shown in FIG. 6. The ends 70 and 71 of the friction lining 7 have trapezoidal lugs 700 and 710 in this example, their mutually facing end surfaces 701 and 711 in the closed Condition of the friction lining 7 to mutual contact. Corresponding the trapezoidal design of the approaches 700 and 710 is in the Roller body 10 or 12 has a dovetail-shaped recess 16 provided, which the trapezoidal approaches 700 and 710 and which is substantially the entire width of the friction lining 7 in its operating position receiving the Roll body 10 and 12 extends. The recess 16 thus does not form only one fastening device 8 for the friction lining 7, but also one Connection device for the ends 70 and 71 of the friction lining 7, since this are held in mutual contact by the recess 16, so that the friction lining 7 over the entire circumference of the roller body 10 or 12 stretches.

Here too, after the two ends 70 and 71 have been put together are, the friction lining 7 by axially pushing onto the roller body 10 or 12 with simultaneous insertion of the trapezoidal approaches 700 and 710 pulled into the recess 16, with an additional axial securing can be provided, for example in the form of a screw (see FIG. 4) in each of the two ends 70 and 71 of the friction lining 7 or independently from these ends 70 and 71 or also in the form of a ring 100 or 120 (see Fig. 1).

Of course, the groove or recess 16 can also be in one of the Undercut in a different way (see Fig. 5), the lugs 700 and 710 of the ends 70 and 71 of the friction lining 7 a correspondingly adapted to the shape of the groove or recess 16 Have shape.

For the axial insertion of the friction lining 6 or 7 (Fig. 5 and 6) into the groove 15 or in the recess 16 to facilitate, with such training be provided that the friction lining 6 or 7 tension-free or only under a slight tension on the roller body 10 or 12 is raised. Here, the friction lining 6 or 7 by the fastening device 5 and 8 secured in the area of the ends 60 and 61 or 70 and 71. Even if an axial lock for the friction lining 6 or 7 with the help a ring 100 or 120 is provided (Fig. 1), so can independently of the fastening device 5 and 8 additional fastening devices 80 and 81 (see FIGS. 1 and 2) can be provided.

The fastening device 5 or 8 serves not only to fasten the two Ends 60 and 61 or 70 and 71 of the friction lining 6 or 7, but also forms a connecting device in these embodiments. For this reason, when the friction lining 2, 6 or 7 in Area of its both ends 20 and 21, 60 and 61 or 70 and 71 by means of a fastening device 4, 5 or 8 directly on the roller body 10 or 12 is attached, dispensed with an additional, separate connecting device become.

Regardless of how the friction lining 2, 6 or 7 on the friction roller 1 or their roller body 10 and 12 is applied and secured, this can have some preforming, d. H. the inner peripheral surface 22, 63 or 72 (Fig. 2, 5 and 6) of the friction lining 2, 6 or 7 can have a curvature have, largely already on the curvature of the outer peripheral surface 17 of the friction roller 1 or the roller body 10 or 12 of the friction roller 1 is adjusted. The same applies to the connecting elements 30 and 31 or 90 and 91 of the connection device 3 or 9, the inner peripheral surfaces thereof 307 and 317 or 903 and 913 also such contours can have, which is substantially the circumferential curvature of the outer peripheral surface 17 of the friction roller 1 or its roller body 10 or 12 equivalent. In this way, it requires less effort possible, the friction lining 2, 6 or 7 in the desired end position, the he should take on the roller body 10 or 12 to bring.

When the friction lining 2, 6 or 7 is stretched, depending on the material selected for this purpose, the case may arise that the friction lining 2, 6 or 7 stretches in different ways over its width. This can be taken into account by the fact that the friction lining 2, 6 or 7 has a correspondingly adapted cross-sectional profile in the untensioned state, in that the friction lining 2, 6 or 7 is made stronger in the middle (see thickness s ₃ in FIG. 7) than in FIG its edge areas (see thickness s ₄ ), the decrease in cross-section from thickness s ₃ to thickness s _{4 being} gradual, that is to say gradual.

The decrease in cross-section of the untensioned friction lining 2, 6 or 7 from its maximum thickness s ₃ in the middle of the friction lining 2, 6 or 7 to its minimum thickness s ₄ in its edge regions is thus based on the tension of the roll body 10 or 12, respectively Friction lining 2, 6 or 7 matched that essentially the difference between the thickness s ₃ in the middle of the friction lining 2, 6 or 7 and the thickness s ₄ in the two edge regions of the friction lining 2, 6 or 7 is eliminated, ie that the Cross section of the friction lining 2, 6 or 7 is substantially constant over its entire width.

It has been shown that some elastic materials, which are well suited for a friction lining 2, 6 or 7, expand to different extents over their length and thereby lose their width accordingly. Such a decrease in width occurs in particular in the vicinity of the ends 20 and 21, 60 and 61 or 70 and 71, where the tension for stretching the friction lining 2, 6 or 7 is applied in order to apply it to the roller body 10 or 12 or to be able to pull on a continuous drive surface friction roller 1, which is why here to compensate for such a loss in width, the untensioned friction lining 2, 6 or 7 is given a greater width b ₁ than in those areas, which of these ends 20 and 21, 60 and 61 or 70 and 71 are further away where the width b ₂ is smaller (Fig. 2). The transition from the larger width b ₁ to the smaller width b ₂ takes place gradually, it being possible for this transition to be uniform or non-uniform depending on the material. Analogous to what was said previously in connection with the thickness distribution (s ₃ , s ₄ ) in the friction lining 2, 6 or 7, the width profile and the difference between the widths b ₁ and b _{2 of} the untensioned friction lining 2, 6 or 7 so defined that this has essentially disappeared when the friction lining 2, 6 or 7 is mounted, so that the tensioned friction lining 2, 6 or 7 is essentially constant over its entire length and thus also over the entire circumference of the roller body 10 or 12 Width.

The exemplary embodiments shown can be supplemented or modified are glued to the two open ends of the friction lining. The In the case of gluing, ends can be contrary to the exemplary embodiments shown but only beveled around a particularly firm one and still get a bumpless connection. The gluing points can be prepared be a quick assembly with a defined strength of the To create connection. For a good positioning of the ends to each other and the adhesive can be cured quickly by means of light, for example UV light or heat can be activated.

Claims (22)

Friction lining for a friction roller for frictionally or partially also positively driving a bobbin on a textile machine, the friction roller having at least one rotatable roller body carrying a friction lining, characterized in that the friction lining (2; 6; 7) has a type of belt two open ends (20, 21; 60, 61; 70, 71) is formed, which are connected to one another by a connecting device (3; 4; 5; 8; 9). Friction lining according to claim 1, characterized in that the connecting device (4; 5; 8; 9) is simultaneously designed as a fastening device. Friction lining according to claim 2, characterized in that the fastening device (4) has a fastening element designed as a screw (40). Friction lining according to claim 2, characterized in that the fastening device (5; 8) an axially parallel undercut groove (15; 16) for the positive reception of the at least one connecting element (5) having a web (53) or the two ends (70, 71) of the friction lining (7). Friction lining according to one or more of claims 1 to 4, characterized in that the friction lining (2; 6; 7) at a distance from its two ends (20, 21; 60, 61; 70, 71) with the aid of at least one fastening device (80 , 81) on the roller body (10; 12) or the friction roller (1). Friction lining according to claim 5, characterized in that the fastening devices (4; 5; 80; 81) are evenly distributed over the circumference of the roller body (10; 12) or the friction roller (1). Friction lining according to one or more of claims 1 to 8, characterized in that the connecting device (3; 9) has two connecting elements (30, 31; 90, 91) which, with the ends (20, 21; 60, 61) assigned to them of the friction lining (2; 6) are connected. Friction lining according to one or more of claims 1 to 7, characterized in that the fastening device (4) extends through both ends (20, 21) of the friction lining (2) and / or through both connecting elements (30, 31) into a recess (101) extends in the roller body (10; 12) or in the friction roller (1). Friction lining according to claim 7 or 8, characterized in that the two connecting elements (30, 31) have clip elements or are designed as such. Friction lining according to one or more of claims 7 to 9, characterized in that the two connecting elements (30, 31) have hooks (305, 315) which can be brought into engagement with one another. Friction lining according to claim 10, characterized in that the hook backs (306, 316) of the two hooks (305, 315) are designed like ramps. Friction lining according to claim 10 or 11, characterized in that the two hooks (305, 315) are acted upon in their closing direction with respect to the drive direction (f ₁ ) of the friction lining (2). Friction lining according to one or more of claims 1 to 12, characterized in that the mutually facing surfaces (200, 210; 300, 310) of the friction lining (2) and the two connecting elements (30, 31) form a positive connection. Friction lining according to one or more of claims 1 to 13, characterized in that the length of the elastically designed friction lining (2; 6; 7) including the connecting elements (30, 31) is dimensioned such that the friction lining (2) in its closed position There is tension on the roller body (10; 12). Friction lining according to claim 14, characterized in that the friction lining (2; 6; 7) in the untensioned state has a cross-section (s ₃ , s ₄ ) decreasing from the center towards the edge. Friction lining according to claim 14 or 15, characterized in that the friction lining (2; 6; 7) in the untensioned state has a width (b ₁ , b ₂ ) which decreases with increasing distance from its connecting elements (30, 31). Friction lining according to claim 15 or 16, characterized in that the cross-sectional decrease (s ₃ , s ₄ ) over the width of the untensioned friction lining (2; 6; 7) and / or the width decrease (b ₁ , b ₂ ) over the length of the untensioned The friction lining (2; 6; 7), in coordination with the tension of the friction lining (2; 6; 7) in its state drawn onto the roller body (10; 12), is dimensioned such that the cross-sectional and / or the width profile of the friction lining ( 2; 6; 7) is essentially constant in the opened state, Friction lining according to one or more of claims 1 to 17, characterized in that the two connecting elements (30, 31; 90, 91) and / or the friction lining (2; 6; 7) approximates the circumferential curvature of the roller body (10; 12) Have pre-curvature. Friction lining according to one or more of claims 1 to 18, characterized in that the two open ends (20, 21; 60, 61; 70, 71) of the friction lining (2; 6; 7) are glued together. Friction lining according to one or more of claims 1 to 19, characterized in that the two open ends (20, 21; 60, 61; 70, 71) of the friction lining (2; 6; 7) have prepared adhesive points. Friction lining according to claim 20, characterized in that the prepared adhesive points are covered before the connection. Friction lining according to claim 20, characterized in that the prepared adhesive points can be activated with light or heat.

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