A MULTI-LANE SYSTEM FOR WRAPPING ICE CREAM PRODUCTS AND A METHOD THEREOF

Abstract

A multi-lane system for wrapping ice cream products is presented. The system comprises reel holders for receiving reels holding webs of packaging material, a wrapping machine arranged to receive the ice cream products, to receive the webs, to enclose the ice cream products in the webs and to seal the webs such that wrapped ice cream products are formed, and a web conveying arrangement arranged to individually feed the webs of packaging material from the reels to the wrapping machine. The web conveying arrangement comprises de-tensioning devices arranged to decrease tensions in the webs upstream the wrapping machine.

Claims

1. A multi-lane system for wrapping ice cream products, said system comprising reel holders for receiving reels holding webs of packaging material, a wrapping machine arranged to receive the ice cream products, to receive the webs, to enclose the ice cream products in the webs and to seal the webs such that wrapped ice cream products are formed, and a web conveying arrangement arranged to individually feed the webs of packaging material from the reels to the wrapping machine, wherein the web conveying arrangement comprises de-tensioning devices arranged to decrease tensions in the webs upstream the wrapping machine.

2. The system according to claim 1, wherein the web conveying arrangement comprises first sliders placed downstream the reel holders and upstream the de-tensioning devices, wherein the first sliders are angled relative to a first feeding direction of the webs, such that the webs are turned and redirected from the first feeding direction to a second feeding direction when slid over the first sliders.

3. The system according to claim 2, wherein the web conveying arrangement comprises second sliders placed downstream the de-tensioning devices and upstream the wrapping machine, wherein the second sliders are angled relative to the second feeding direction, such that the webs are turned and redirected from the second feeding direction to a third feeding direction when slid over the second sliders.

4. The system according to claim 3, wherein the first sliders are elongated and extend in parallel to a first axis that is angled by 30° to 60° relative to the first feeding direction, and the second sliders are elongated and extend in parallel to a second axis that is angled 30° to 60° relative to the second feeding direction.

5. The system according to claim 1, any one of the preceding claims, wherein the reel holders are placed at a horizontal distance of at least 1 meter from the wrapping machine, and the reel holders are placed at a vertical distance of at least 0.5 meter from a floor level.

6. The system according to claim 1, wherein the reel holders comprise a first group of reel holders arranged for receiving a first set of reels from a first sided, and a second group of reel holders arranged for receiving a second set of reels from a second side, wherein the first set of reels is arranged to feed out first webs in a first plane and the second set of reels is arranged to feed out second webs in a second plane, wherein the first and second planes are parallel vertical planes.

7. The system according to claim 1, wherein the de-tensioning devices are placed in a third plane, wherein said third plane is a vertical plane.

8. The system according to claim 3, wherein the second sliders are horizontally displaced, such that the webs are horizontally displaced when fed to the wrapping machine.

9. The system according to claim 1, wherein each de-tensioning device of the de-tensioning devices comprises a roller that is arranged to be rotated by a motor giving the roller a peripheral speed that is higher than a speed by which the web passes the roller.

10. The system according to claim 1, wherein the webs of packaging material comprises polypropylene.

11. A method for wrapping ice cream products, said method comprising providing webs of packaging material from reels placed on reel holders, conveying the webs individually from the reels to a wrapping machine by using a web conveying arrangement, decreasing tensions in the webs by using de-tensioning devices, feeding into the wrapping machine, feeding the ice cream products into the wrapping machine, enclosing the ice cream products in the webs, and sealing and cutting the webs such that wrapped ice cream products are formed.

12. The method according to claim 11, comprising turning and redirecting the webs from a first feeding direction to a second feeding direction by sliding the webs over first sliders.

13. The method according to claim 12, comprising turning and redirecting the webs from the second feeding direction to a third feeding direction by sliding the webs over second sliders.

14. The method according to claim 13, comprising displacing the webs horizontally while turning and redirecting the webs using the second sliders.

15. The method according to claim 11, wherein the decreasing the tensions of the webs using a plurality of de-tensioning devices comprises, for each de-tensioning device, rotating a roller by a motor such that a peripheral speed of the roller is higher than a speed by which the web passes the roller.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0029] Embodiments of the invention will now be described, by way of example, with reference to the accompanying schematic drawings, in which

[0030] FIGS. 1a and 1b illustrate a first and a second perspective view of a multi-lane system for wrapping ice cream products.

[0031] FIG. 1c illustrates a detailed perspective view of de-tensioning devices of the multi-lane system illustrated in FIGS. 1a and 1b.

[0032] FIG. 1d illustrates a detailed front view of de-tensioning devices of the multi-lane system illustrated in FIGS. 1a and 1b.

[0033] FIG. 2 schematically illustrates a multi-lane system for wrapping ice cream products.

[0034] FIG. 3 is a flowchart illustrating a method for wrapping ice cream products.

DETAILED DESCRIPTION

[0035] FIGS. 1a and 1b illustrate a multi-lane system 100 for wrapping ice cream products by way of example. In the multi-lane system 100, reel holders 102 can be provided for receiving reels 104 holding webs 106 of packaging material. By using a web conveying arrangement 108, which may comprise several rollers and motors, the webs 106 can be fed into a wrapping machine 110 in which ice cream products are wrapped in the packaging material.

[0036] As illustrated, the multi-lane system 100 can have a U-shaped form, seen from above, such that the reel holders 102 and reels 104 can be placed at a horizontal distance HD from the wrapping machine 110. The U-shaped form makes the multi-lane system 100 different from other multi-lane wrappers. Unlike the multi-lane system 100 illustrated in FIG. 1a, it is namely common practice for other multi-lane wrappers to have the reel holders placed below the wrapping machine 110. As an alternative to have a U-shaped form, the multi-lane system 100 may have an L-shaped form.

[0037] An advantage of having the reel holders 102 placed offset is that more room can be provided to an operator such that the reels 104 can be replaced more conveniently. In addition to providing more space, it is also possible to have the reel holders 102 placed at an ergonomically appropriate height to make sure that good working conditions can be provided for the operator.

[0038] To ensure that the webs 106 are fed into the wrapping machine 110 with tensions that provide for that the webs 106 can be folded and sealed adequately, de-tensioning devices 112 are provided. Since conditions may vary for different webs 106, the de-tensioning devices can be handled individually, thereby assuring that each web is de-tensioned appropriately such that problems that may be caused due to incorrect tension in the wrapping machine 110 can be avoided.

[0039] To achieve the U-shaped form as well as for providing efficient web feeding, the webs 106 can be redirected twice. These redirections can be achieved by using first sliders 114 placed downstream the reel holders 102 and upstream the de-tensioning devices 112, and by using second sliders 116 placed downstream the de-tensioning devices 112 and upstream the wrapping machine 110.

[0040] The first and second sliders 114, 116 may be elongated elements that may be made in metal, e.g. cylindrically shaped metal elements. Surfaces of the first and second sliders 114, 116 may be treated such that low friction coefficients are provided, thereby providing for that the webs 106 can be slid over these without damaging printed pattern of the webs 106 or unduly upholding the webs.

[0041] In addition to have the reel holders 102 placed at the horizontal distance HD from the wrapping machine 110, the reel holders 102 may be provided at a vertical distance VD from a floor level 118. The vertical distance may be measured from the floor level 118 to a center of the reel holder that is closest to the floor level. An advantage with having the reel holders 102 placed in this way is, for example, that the reel holders 102 can be provided at an appropriate working height for the operator such that ergonomically correct working positions can be offered. As illustrated, the reel holders 102 may be provided at two rows. Another option is to have the reel holders provided in one and the same row. Still an option is to have more than two rows. One reason for having a plurality of rows is that a more compact design can be achieved. In addition to have the reel holders 102 provided on one or several rows, the reel holders 102 may be provided on two different sides, herein referred to as a first side S1 and a second side S2. On the first side S1, a first group of reel holders 120a configured to hold a first group of reels 122a can be provided. Similarly, on the second side S2, a second group of reel holders 120b configured to hold a second group of reels 122b can be provided. The first group of reel holders 120a and the first group of reels 122a, that can be placed in one or several rows, can be provided in a first plane P1 and the second group of reel holders 120b and the first group of reels 122b can be placed in a second plane P2. As illustrated, the first and second plane P1, P2 can be vertical planes and, also as illustrated, the first and second plane P1, P2 can be parallel.

[0042] When passing the first sliders 114, first and second webs 124a, 124b, fed from the first and second group of reels 122a, 122b, respectively, can be redirected, turned and brought into one and the same plane, a third plane P3 (see also FIG. 2). Put differently, the first and second webs 124a, 124b may be fed from the first or second plane P1, P2 into the third plane P3. As illustrated, the first and second plane P1, P2 may be placed perpendicular to the third plane P3, and the first sliders 114 may be angled 45 degrees relative to the first and second plane P1, P2.

[0043] An advantage of having the reel holders 102 placed in the first and second plane P1, P2 is that access to the reel holders 102 can be provided via both the first side S1 and the second side S2. One reason for having the first and second web 124a, 124b coinciding in the third plane P3 is that de-tensioning devices 112 may be provided in the same vertical plane. Put differently, as illustrated, the de-tensioning devices 112 may be placed above each other, which provides for that these can be easily inspected and adjusted by the operator.

[0044] As illustrated in FIGS. 1c and 1d, each of the de-tensioning devices 112 can comprise a roller 126, a passive roller 128 and a motor 130. The roller 126 may be controlled by the motor 130 such that the roller 126 can be given a peripheral speed that is higher than a speed by which the web 106 passes the roller 126. This in combination with the passive roller 128, that is not controlled by the motor 130, provides for that a tension of the web 106 can be reduced, which in turn provides for that the webs 106 can be fed into the wrapping machine 110 and handled with low risk of failure in the wrapping machine 110.

[0045] Each web 106 may be controlled individually such that the tensions may be decreased individually. This may be achieved by have a dedicated motor for each web. Another option is to use the same motor for a plurality of webs, thereby collectively decrease the tensions in a plurality of webs. The plurality of webs may comprise all webs 106 or a sub-set of the webs 106.

[0046] FIG. 2 schematically illustrates a multi-lane system 100, such as the multi-lane system 100 described in connection with FIGS. 1a and 1b. The multi-lane system 100 of FIG. 2 may include the same features as the multi-lane system illustrated in FIGS. 1a and 1b, and vice versa. The multi-lane system 100 of FIG. 2 has reel holders 102 which are provided in the first group of reel holders 120a and the second group of reel holders 120b such that these can be accessed via the first and second side S1, S2. The first group of reels 122a, provided on the first group of reel holders 120a, feed out the first webs 124a in the first plane P1 in a first feeding direction FD1. Similarly, the second group of reels 122b, provided on the second group of reel holders 120b, feed out the second webs 124b in the second plane P2 in the first feeding direction FD1. In the example illustrated, four reels 104 are provided, two on each side, resulting in that the first webs 124a comprise webs in two rows, and also that the second webs 124b comprise webs in two rows.

[0047] As illustrated, to provide for that the first and second webs 124a, 124b coincide into the third plane P3, the first sliders 114 may be horizontally displaced. Further, to provide for that the first and second webs 124a, 124b are redirected, the first sliders 114 may be elongated and extend in parallel to a first axis A1 that is angled 30-60° relative to the first feeding direction FD1. Preferably, the first axis A1 is angled 40-50° relative to the first feeding direction FD1. More preferably, the first axis A1 is angled 45° relative to the first feeding direction FD1, as illustrated in FIG. 2, such that a second feeding direction FD2, that is, a feeding direction downstream the first sliders 114 and upstream the second sliders 116, is perpendicular to the first feeding direction FD1.

[0048] The second sliders 116 may be displaced horizontally to provide for that the first and second webs 124a, 124b provided in the third plane P3, that is, one and the same vertical plane, can be re-arranged such that these are placed in a fourth plane P4, that is, one and the same horizontal plane. This provides for that the webs 106 can be fed into the wrapping machine 110 next to each other, which is advantageous e.g. in that this provides a good overview for the operator.

[0049] The second sliders 116 also provide a redirection of the first and second webs 124a, 124b. The second sliders 116 may be elongated and may extend in parallel to a second axis A2 that is angled 30-60° relative to the second feeding direction FD2. Preferably, the second axis A2 is angled 40-50° relative to the second feeding direction FD2. More preferably, the second axis A2 is angled 45° relative to the second feeding direction FD2, as illustrated in FIG. 2, such that a third feeding direction FD3, that is, a feeding direction downstream the second sliders 116 and upstream the wrapping machine 110, is perpendicular to the second feeding direction FD2.

[0050] Before the webs enter the wrapping machine 110, ice cream products 202 may be placed on the webs. Inside the wrapping machine 110, longitudinal sealings and transversal sealings can be formed and the webs may be cut into wrapped ice cream products 204 that are fed out from the wrapping machine 110.

[0051] FIG. 3 is a flowchart illustrating a method 300 for wrapping the ice cream products 202. In a first step 302, the webs 106 of packaging material from the reels 104 placed on the reel holders 102 can be provided. Thereafter, in a second step 304, the webs 106 can be individually conveyed from the reels 104 to the wrapping machine 110 by using the web conveying arrangement 108. Next, in a third step 306, tensions in the webs 106 can be decreased by using the de-tensioning devices 112. In a fourth step 308, the webs 106 can be fed into the wrapping machine 110. In a fifth step 310, the ice cream products 202 can be fed into the wrapping machine 110. Thereafter, in a sixth step 312, the ice cream products 202 can be enclosed in the webs 106. In a seventh step 314, the webs 106 can be sealed and cut such that the wrapped ice cream products 204 can be formed.

[0052] The second step 304 may comprise a first sub-step 316 in which the webs 106 are turned and redirected from the first feeding direction FD1 to the second feeding direction FD2 by sliding the webs 106 over first sliders 114, which may be elongated and extend in parallel to a first axis A1 that is angled by 30° to 60° relative to the first feeding direction FD1, preferably 40° to 50°, more preferably 45°.

[0053] Further, the second step 304 may comprise a second sub-step 318 in which the webs 106 are turned and redirected from the second feeding direction FD2 to the third feeding direction FD3 by sliding the webs 106 over the second sliders 116, which may be elongated and extend in parallel to a second axis A2 that is angled 30° to 60° relative to the second feeding direction FD2, preferably 40° to 50°, more preferably 45°.

[0054] In addition, the second step 304 may also comprise a third sub-step 320 in which the webs 106 are horizontally displaced during the second sub-step 318 when the webs are turned and redirected using the second sliders 116.

[0055] The third step 306 may comprise a fourth sub-step 322 in which the tensions of the webs 106 are decreased by that the roller 126 is rotated by the motor 130 such that the peripheral speed of the rotor 126 is higher than the speed by which the web passes the roller 126.

[0056] From the description above follows that, although various embodiments of the invention have been described and shown, the invention is not restricted thereto, but may also be embodied in other ways within the scope of the subject-matter defined in the following claims.