Winding Device for Winding a Material Web

Abstract

The invention relates to a winding apparatus for winding a material web traveling in a direction of travel, having at least one blade for cutting the material web in a web direction into a plurality of partial material webs, and having a folding apparatus for folding the edges of the partial material webs. To furnish a winding apparatus that enables a material web with folded edges to be wound with as little wrinkling as possible, a folding element is furnished for each edge of the partial material webs. The at least one blade may be moved transversely to the direction of travel using a first oscillating apparatus. Using a second oscillating apparatus, the folding elements for the left-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel. Using a third oscillating apparatus, the folding elements for the right-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel. The first oscillating apparatus, second oscillating apparatus and third oscillating apparatus may be controlled by a control unit in such a manner that the folded edges of the partial material webs may be wound at an offset to one another.

Claims

1. Winding apparatus for winding a material web that travels in a direction of travel, having at least one blade for cutting the material web in the direction of travel into a plurality of partial material webs, having a plurality of folding elements for folding the edges of the partial material webs, wherein one folding element is furnished for each edge of the partial material webs, having a first oscillating apparatus by means of which the at least one blade may be moved transversely to the direction of travel, having a second oscillating apparatus by means of which the folding elements for the left-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel, having a third oscillating apparatus by means of which the folding elements for the right-hand edges of the partial material webs, as viewed in the direction of travel, may be moved transversely to the direction of travel, and having a control unit for controlling the first oscillating apparatus, the second oscillating apparatus and the third oscillating apparatus, in such a way that the folded edges of the partial material webs may be wound at an offset.

2. Winding apparatus according to claim 1, wherein the first oscillating apparatus, the second oscillating apparatus and the third oscillating apparatus each respectively consist of a motor-driven eccentric.

3. Winding apparatus according to claim 1, wherein the width of the folded edges is adjustable by means of the control unit.

4. Winding apparatus according to claim 1, wherein the frequencies of the first oscillating apparatus, the second oscillating apparatus and the third oscillating apparatus are separately adjustable by means of the control unit.

5. Winding apparatus according to claim 1, wherein the strokes of the first oscillating apparatus, the second oscillating apparatus and the third oscillating apparatus are separately adjustable by means of the control unit.

6. Winding apparatus according to claim 1, wherein the thickness profile of the wound roll is measured and transmitted to the control unit.

7. Winding apparatus according to claim 1, wherein the web speed of the material web is measured and transmitted to the control unit.

8. Winding apparatus according to claim 1, wherein the material web is a stretch film produced on a cast film line or on a blown film line.

Description

[0018] Additional details and advantages of the invention are described with reference to the attached drawings.

[0019] FIG. 1 shows an exemplary cutter bar according to a first embodiment of the invention,

[0020] FIG. 2 shows an exemplary cutter bar according to a second embodiment of the invention,

[0021] FIG. 3 shows a top view of a folding apparatus according to the invention, and

[0022] FIG. 4 shows a perspective representation of the view A shown in FIG. 3.

[0023] FIG. 1 shows an exemplary cutter bar according to a first embodiment of the invention. The material web 101 is a stretch film produced on a cast film line.

[0024] After being produced, the stretch film 101 is transported in the direction 102 to reach the cutter bar 103. The cutter bar 103 is moved back and forth in the direction 104 by an oscillating apparatus, and has a total of five cutting blades 105. To the left and the right of the edges there is a respective scrap cut 111 and 112, which may be further processed for other purposes.

[0025] Behind the cutter bar 103, there are S-shaped strips 106, 107, 108 and 109, having approximately the shape shown in FIG. 1. The S-shaped edge in this case does not have to be uniform at all. The amplitude and frequency of the movement of the oscillating apparatus may likewise be irregular. In addition, it is also conceivable that the individual blades 105 are controlled individually and thus perform different movements.

[0026] FIG. 2 shows an exemplary cutter bar according to a second embodiment of the invention. Here again, the material web 201 is a stretch film produced on a cast film line.

[0027] After being produced, the stretch film 201 is transported in the direction 202 to reach the cutter bar 203. The cutter bar 203 is moved back and forth in the direction 204 by an oscillating apparatus, and has a total of three cutting blades 205. Because the outermost edges on the left and right sides are left untrimmed, there is no scrap, unlike the embodiment shown in FIG. 1.

[0028] Behind the cutter bar 203, there are S-shaped strips 206, 207, 208 and 209, having roughly the shape shown in FIG. 2. The S-shaped edge in this case does not have to be uniform at all. The amplitude and frequency of the movement of the oscillating apparatus may likewise be irregular. In addition, it is also conceivable that the individual blades 205 are individually controlled and thus carry out different movements.

[0029] The outer strips 206 and 209 each respectively have a straight edge and an S-shaped edge, and are further processed in this shape for specific purposes.

[0030] FIG. 3 shows a top view of a folding apparatus according to the invention. Viewed in the direction of travel, the folding apparatus is located behind a cutter bar, for example such a cutter bar as shown in FIG. 1 or FIG. 2. The folding apparatus consists of a cross beam 301, to which are fastened a first guide rail 302 and a second guide rail 303. Four partial material webs 305, 306, 307 and 308, which were previously cut from a material web over the entire width at the cutter bar 103 or 203, traveling in a direction of travel 304.

[0031] The folding apparatus is configured in such a way that a folding element is furnished for each edge of the partial material webs 305, 306, 307 and 308. The folding elements 309, 310, 311 and 312 are slidably guided on the first guide rail 302 and thus fold over the left-hand edges, as viewed in the direction of travel 304, of the partial material webs 305, 306, 307 and 308. Correspondingly, the folding elements 313, 314, 315 and 316 are guided slidably on the second guide rail 303 and thus fold over the right edges of the partial material webs 305, 306, 307 and 308, as viewed in the direction of travel 304.

[0032] The folding elements 309, 310, 311 and 312 are connected to the gear rod 318, which is driven by an eccentric motor 317. Correspondingly, the folding elements 313, 314, 315 and 316 are connected to the gear rod 320, which is driven by an eccentric motor 319.

[0033] A first oscillating apparatus has already been described with reference to the cutter bar 103 shown in FIG. 1, and with reference to the cutter bar 203 shown in FIG. 2.

[0034] The eccentric motor 317 also features a second oscillating apparatus, by means of which the folding elements 309, 310, 311 and 312 for the left-hand edges of the partial material webs, as viewed in a direction of travel 304, may be moved transversely to the direction of travel 304. Correspondingly, the eccentric motor 319 features a third oscillating apparatus with which the folding elements 313, 314, 315 and 316 for the right edges of the partial material webs, as viewed in a direction of travel 304, may be moved transversely to the direction of travel 304.

[0035] In the following, the functionality of the second oscillating apparatus is described. The same also applies analogously to the third oscillating apparatus.

[0036] A rotary motion of the eccentric motor 317 is converted into a linear movement of the folding elements 309, 310, 311 and 312, transverse to the direction of travel 304. The eccentric motor 317 does not rotate continuously, but instead carries out an alternating partial rotation within a predetermined angular segment. The stroke of the folding elements 309, 310, 311 and 312 may thus be adjusted by means of the opening angle of the angular segment. Moreover, the frequency of the alternating partial rotation corresponds to the frequency of movement of the folding elements 309, 310, 311 and 312. If the stroke movements of the folding elements 309, 310, 311 and 312, as well as the folding elements 313, 314, 315 and 316, are offset to one another, the width of the folded edge may be set in this way.

[0037] The frequency and stroke of the three oscillating units are adjusted to one another by a control unit in such a way that the folded edges of the partial material webs may be wound at an offset, so that the above-mentioned edge build-up is avoided.

[0038] FIG. 4 shows a perspective representation of view A shown in FIG. 3. Identical parts are assigned identical reference numerals; thus, in that respect, reference is made to the description shown in FIG. 3. In addition, in the representation shown in FIG. 4, each folding element has a controllable lifting cylinder; for the sake of clarity, in FIG. 4 only the lifting cylinder of the folding element 313 is marked with reference sign 401. By means of the lifting cylinder, the folding elements may respectively be swiveled inward or outward relative to the web path. In this way, the setup time for a new job, for example, may be reduced by allowing the operator to control the simultaneous swiveling-in of a plurality of folding elements with one corresponding machine command. In addition, consequent damage in the event of malfunction may be avoided by automatically swinging the folding elements out of the web path upon a malfunction being detected.