EP1892208A2 - Device for transverse stretching of material webs - Google Patents

Abstract

Roller for stretching strip material transversely to its direction of motion is made up of two tubular sections (3a, 3b). These are mounted at their inner ends on stub axles (5). The axles fit into ball bearings (6) mounted inside ball-and-socket joints (7) which fit into adjustable sleeves (8a, 8b) attached to the machine frame.

Description

The invention relates to a device for stretching material webs transversely to its running direction, comprising at least one rotatable spreader roll extending transversely to the running direction of the material web.

During the processing or treatment of webs of textiles, papers, plastics, metals in the form of films, minerals in the form of tiles and the like or a combination of these materials can lead to the formation of Längsfälten in the web, the technological process - for example when printing a material web - interfere and also affect the alignment and winding process. In addition, it often happens that a material web must be divided and the resulting individual webs must be separated from each other.

In order to fulfill these tasks, so-called spreader rollers are used, over which the material web is guided and which have the task of achieving an extension transversely to the running direction of the material web. These spreader rollers can be designed differently.

There are known spreader rolls, which are designed as thread rolling and which are each provided over half their length with a right-hand thread and a left-hand thread, which is preferably designed as a round thread. The material web running over such a thread roll is stretched transversely to its running direction by the threads which urge outward on both sides. The thread pitch designed for maximum stretch of the material web can not be changed, so that the material web must inevitably slide over the threads and thus be subject to abrasion.

Another type of spreader roller is the so-called cord-stretching roller. In a cord-stretching roller rubber cords are embedded in longitudinal grooves of the rollers, which thus extend transversely to the material web. These rubber cords are connected in the region of the end faces of the rollers with obliquely adjustable, rotating discs, so that each of the rubber cords is stretched almost sinusoidally successively over an angle of 180 ° and relaxed over the subsequent angle of 180 ° in the same way again. This roller is used so that the material web rests only in the region of the stretching rubber cords. Due to this design and the resulting finite number of rubber cords, the material web is not stretched continuously but only discontinuously. In addition, it comes with such a roller for sliding friction and thus abrasion between the roller, the rubber straps and the material web. Due to the friction of the rubber cords in the longitudinal grooves and the molecular friction inside the rubber cords, the required drive torque is so high that it can hardly be applied by the material web running over it. This means that such rolls can not be used without an additional drive adapted to the speed of the material web.

Furthermore, it is known to form the spreader rolls as so-called bow or chain bow rollers whose radius of curvature is adjustable. By this curvature in this case a transverse extent of the material web is achieved. Such bow rollers have a rigid axle and an elastic, usually made of rubber or a rubber-coated cylinder coat. Due to the high flexing work inside the jacket, these rollers require a corresponding drive, since the required torque, due to the coefficient of friction between the rubber and the material web, can not be applied by the material web running over it. Another disadvantage is that with a high coefficient of friction between the rubber and the material web but also the abrasion between the roller and the material web increases longitudinally and transversely to the direction.

Finally, it is also known to use for transverse stretching of a material web equipped with bristles roller. These bristles can damage the material web, so that such rollers for sensitive materials, such as thin plastic films, can not be used. The transverse extent is relatively low and guaranteed only for a limited period due to the decreasing stamina of the bristles.

The invention is an object of the invention to provide a device for stretching of running webs transversely to its direction, which runs very smoothly, which hardly weighs the web to be stretched and is therefore suitable for a transverse extension of thin plastic and metal foils and optimally the technological specifications can be adjusted and which has such a low moment of inertia that it can easily follow occurring changes in the speed of the material web.

To solve this problem is proposed in a device of the type described above, that the spreader roller is formed of at least two axially aligned with each other round tubes, which are supported by joint bearings on webs, which in turn are adjustably mounted on a base frame.

By such a design of a device for the transverse extent of a running material web is ensured that the material web is hardly loaded and its quality is not impaired and that the technological specifications can be optimally adjusted. Through the use of two rolling bearings per pin in the inner ring of the joint bearing any tilting caused by tilting be avoided, so that the device runs extremely smooth. Through the use of thin-walled round tubes, the moment of inertia is so low that the device can easily follow the possibly occurring speed changes of the material web.

Further features of a device according to the invention are disclosed in claims 2 to 10.

Figur 1

eine Aufrissdarstellung einer Vorrichtung gemäß der Erfindung in ihrer Grundstellung,

Figur 2

einen vergrößerten Schnitt durch eine äußere Lagerung der Vorrichtung der Figur 1,

Figur 3

vergrößerten Schnitt durch eine mittlere Lagerung der Vorrichtung der Figur 1,

Figur 4

eine Draufsicht auf die Vorrichtung der Figur 1 mit schienengeführten Stegen in einer Wirkstellung,

Figur 5

eine Seiteansicht der Figur 4 mit in Wirkstellung geschwenkten Stegen,

Figur 6

eine andere, nur teilweise geschnittene andere Ausbildung einer Lagerung der Vorrichtung mit Zwischenring und

Figur 7

eine andere, der Figur 3 entsprechende Lagerung.

The invention and further advantages thereof are explained in more detail below with reference to embodiments shown in a drawing. Show

FIG. 1

an elevational view of a device according to the invention in its basic position,

FIG. 2

an enlarged section through an outer mounting of the device of Figure 1,

FIG. 3

enlarged section through an average storage of the device of Figure 1,

FIG. 4

1 is a plan view of the device of Figure 1 with rail-guided webs in an operative position,

FIG. 5

a side view of Figure 4 with pivoted in operative position webs,

FIG. 6

another, only partially cut other training storage of the device with intermediate ring and

FIG. 7

another, the figure 3 corresponding storage.

In the figures 1 and 2 of the drawing, a device 1 is shown in a simplified manner, which can be used for the transverse extent of a running in the direction of arrow 2a material web 2. In this case, the material web 2 can consist of both textiles, papers, plastics, metals in the form of films, minerals in the form of tiles or the like, or a combination of these materials. This device 1 consists essentially of two axially aligned, thin-walled round tubes 3a, 3b, which are connected via two-sided filling pieces 4, each with a pin 5. These pins 5 are supported via roller bearings 6, which are advantageously designed as ball bearings, in the inner ring of spherical bearings 7. The rolling bearings 6 are advantageously axially fixed in the inner rings of the joint bearings. The joint bearings 7 are inserted into sleeves 8 a, 8 b, which in turn are supported by webs 9. The located at the inner ends of the round tubes 3a, 3b and thus adjacent webs 9 are connected to each other in an advantageous manner. All webs 9 are for example adjustable mounted on a base frame 10.

By adjusting the webs 9 on the base frame 10 in its initial position in FIG 1 aligned aligned round tubes 3a, 3b are each moved in an inclined position to the web 2 (Figure 4). By this inclination of the round tubes 3a, 3b arise axial forces, which, if they are directed on both sides to the outside, stretch the web 2 transverse to its direction. The intensity of this extension is dependent on the size of the inclination, the coefficient of friction between the surface of the round tubes 3a, 3b and the web 2 and the angle at which the web 2, the round tubes 3a, 3b wraps around.

To create a fixed bearing for centering the material web 2, the outer rings of the joint bearings 7, which are here in a composite webs 9 in the joint bearings 7 are fixed axially, while the other joint bearings 7 remain as a floating bearing in sleeves 8a axially displaceable in an advantageous manner. A rotation of the joint bearing 7 is usually not required, as far as their friction is far above that of the rolling bearings used in them 6.

The pins 5 of the frontally opposite round tubes 3a, 3b may be connected to each other via a flexible coupling 11. Such a flexible coupling 11 must be able to compensate for an inclination of the pin 5 of, for example, 20 ° and an offset of 4mm to 10mm. The elastic coupling shown in Figure 3 of the drawing consists of a specially designed coil spring 12 which is clamped between two end pieces 13.

About a the outer pin 5 associated driver 14, the round tubes 3a, 3b can be driven alternatively. It is possible, each round tube 3a, 3b individually or when using an elastic coupling 11 both circular tubes 3a, 3b from both sides to drive together. Thus, if necessary, the low friction torque of the rolling bearing 6 can be compensated if necessary by a not shown, relatively small DC motor even if the DC motor operated at rated current only one, relative to the friction torque, limited and adjustable current is supplied.

In the figure 4 of the drawing, a befindlicher in their operative position device 1 is drawn in plan view, in which the webs 9 are guided in rails 15. The webs 9 can be adjusted here, for example, not shown spindles, so that the desired inclination of the round tubes 3a, 3b is achieved. In the normal case, the inclination of the round tubes 3a, 3b should be the same size in order to stretch the material web 2 symmetrically to both sides.
But there may also be applications that require a non-symmetrical transverse extension of a material web 2. Again, this is easily and readily possible with the device 1 according to the invention-in contrast to all stretching rollers known hitherto.

In the figure 5 of the drawing, the device of Figure 1 is also shown in its operative position in side view. Here, however, the webs 9 are formed as a pivotable leg. About the pivot angle of these pivotable webs 9, the oblique position of the round tubes 3a, 3b. For supporting the pivotable legs 9, only indicated and connected to the base frame 10 support bearing can be used in the figure 1. The legs 9 formed as webs are pivotable about at least one shaft 16 mounted on the base frame. Even with such an embodiment, the leg-like webs 9 can be adjusted individually, for example by means of spindles, or synchronously, for example via a mechanism consisting of two worm gears and a gear pair coupled to the worm gears, which can be done both manually and mechanically.

In the figure 6 of the drawing a largely corresponding to Figure 3 training is shown, in which between the two round tubes 3a, 3b, a ring 17 is mounted, which is supported via two roller bearings 18 on two inserted in the sleeves 8b intermediate rings 19. This variable length adjustable ring 17 offers the possibility of the material web. 2 in addition to center and - if this should be necessary - the device 1 designed so that the material web 2 is stretched only in their edge regions. For this purpose, the surface of the round tubes 3a, 3b and the ring 17 can be designed differently. It may be advantageous to polish, profile or coat the surfaces with a rubber coating. In FIG. 6, for example, five O-rings 20 are mounted on the ring 17, which substantially increase the coefficient of friction with respect to the material web 2 compared with, for example, polished surfaces of the round tubes 3 a and 3 b, optimally optimizing the material web 2 via the profile formed by the O-rings 20 center. In addition, the gap between the material web 2 supporting round tubes 3a, 3b is considerably reduced by the introduction of such a ring 17.

Also in the figure 7 of the drawing, a largely corresponding to Figure 3 training is shown, in which there is only a pivotable leg 9 between the two round tubes 3a, 3b. This leg 9 carries here a continuous bearing pin 5, which projects with its two ends in each case a round tube 3a, 3b and each receiving a slightly stepped bearing sleeve 21 rotatably. On each bearing sleeve 21 rolling bearing 6 is arranged, which is formed here from an inner, ball-stud-like bearing ring 22 with two ball cages with balls 23 and two angular contact ball bearing outer rings 24. These rolling bearings 6 are here used in each case in a filler 4, which in turn are received by the ends of the round tubes 3a, 3b. The patches 4, which are also located at the outer ends of the round tubes 3a, 3b, are rounded towards their free end. The radius of this rounding is advantageously exactly as large as the radius of the round tubes 3a, 3b. By drawn in Figure 7, but also at the outer ends of the round tubes 3a, 3b existing Rounding the patches 4, the web 2 is guided in each possible angular position of the round tubes 3a, 3b, as is the case also in the central region of the round tubes 3a, 3b. As a result, marks on the material web 2 are avoided. The design of the rolling bearing 7 described here has a simple structure and is relatively high load capacity. The coupling of the two round tubes 3a, 3b described with reference to FIGS. 3 and 6 has been omitted here. This function can also be taken over by the material web 2 itself.

Claims (10)

Apparatus for stretching material webs transversely to their running direction, comprising at least one rotatable spreader roll extending transversely to the running direction of the material web,
characterized,
in that the spreader roller is formed from at least two round tubes (3a, 3b) oriented axially relative to one another, which are supported by way of pivot bearings (7) on webs (9) which in turn are adjustably mounted on a base frame (10). Device according to claim 1,
characterized,
that the webs (9) individually or in pairs in the longitudinal direction of the material web (2) are adjustable. Device according to claim 1 and / or 2,
characterized,
that the webs (9) are held displaceably or pivotally. Device according to at least one of claims 1 to 3,
characterized,
in that the webs (9) are constructed as pivotable limbs and can be mechanically or electrically coupled to form an oblique position of the round tubes (3a, 3b) about their axis manually or mechanically adjustable. Device according to claim 4,
characterized,
that the webs (9) are designed to have different lengths. Device according to at least one of claims 1 to 5,
characterized,
that the base frame (10) transversely to the running direction of the material web (2) designed to be displaceable. Device according to at least one of claims 1 to 96,
characterized,
that the basic frame (10) is pivotable about its longitudinal axis. Device according to at least one of claims 1 to 7,
characterized,
in that the base frame (10) is designed to be liftable or lowerable at least on one side relative to the material web (2). Device according to at least one of claims 1 to 8,
characterized,
that the surfaces of circular pipes (3a, 3b) and / or the ring (17) are formed the same or different. Device according to at least one of claims 1 to 9,
characterized,
that the roller bearings (6) and on a kugelkalottenartigen bearing ring (22) supporting angular contact ball bearings are formed.

Images