This application claims foreign priority benefits under 35 U.S.C. § 119(a)-(d) to European patent application number EP 20158680.7, filed Feb. 21, 2020, which is incorporated by reference in its entirety.
The present disclosure relates to a residual film winder for a packaging machine, wherein the residual film winder comprises a reception mandrel, a reception sleeve, and at least one film spreader, wherein the reception sleeve is configured to be arranged onto the reception mandrel, wherein the film spreader has a first end and a second end, wherein the first end extends out of the reception sleeve, wherein the first end has an outer contour extending along its long axis.
Tray sealing machines usually comprise a feed belt, a sealing station, a film tensioning device, and a residual film winder. During operation, tray-shaped packages are sealed with the film and air-tight packages are produced. The remaining cut-off residual film is wound up in the form of what is known as a residual film grid using the residual film winder to form a roll.
A reception sleeve that may be mounted on a mandrel of a packaging machine for winding up a film used in the packaging process on the reception sleeve is known from US 2017/0253459 A1. The document DE 10 2008 033 349 A1 discloses a film winding device with a shaft, a tube and at least one foldable plate connected to the tube. The document EP 2 998 258 A1 discloses a film winding device for a packaging machine with paddles, which are configured to wind up a film on their outside.
With conventional paddles, the edge trims of the residual film grid tends to concentrate on the center part of the rewinder shaft. This results in a loosening of the film tension in the sealing zone, which may cause a loss of sealing quality and even wrinkles in the package.
The present disclosure has an object of providing a residual film winder, which allows an improved packaging quality.
The disclosure provides a residual film winder for a packaging machine, wherein the residual film winder comprises a reception mandrel, a reception sleeve, and at least one film spreader, wherein the reception sleeve is configured to be arranged onto the reception mandrel, wherein the film spreader has a first end and a second end, wherein the first end extends out of the reception sleeve, wherein the first end has an outer contour extending along its long axis, wherein the outer contour of the film spreader has at least two sections, a first and a second section, wherein the first and second section are not parallel to each other.
This geometry improves the rewinding of the edge trims of the residual film by distributing it along the residual film winder.
The first and second sections of the outer contour of the film spreader may be inclined with respect to each other. This will facilitate improvement of the rewinding of the edge trims of the residual film by distributing it along the residual film winder.
In one embodiment, the inclination angle between the first and second sections is between 130° and 178°, preferably between 160° and 178°. These rather large inclination angles facilitate forming a smooth tip on the outer contour of the film spreader and preventing damage on the residual film typically consisting of plastic material.
In one embodiment, the first and second sections of the outer contour of the film spreader merge at least approximately at the center of the outer contour. Thus, at the center of the outer contour a peak will be formed, which will prevent the edge trims of the residual film from climbing over it and concentrating on the central part of the residual film winder.
In an embodiment, an outermost point or region of the film spreader projecting out of the reception sleeve is at least approximately at the center of the outer contour. Thus, at the center of the outer contour a peak will be formed, which will prevent the edge trims of the residual film from concentrating on the central part of the residual film winder.
In an alternative embodiment, the outer contour of the film spreader has four sections, wherein the first and second section are inclined with respect to each other, wherein a third and fourth section are inclined with respect to each other. This geometry provides two peaks, which may prevent the edge trims of the residual film from concentrating on the central part of the residual film winder.
The inclination angle between the first and second section, and the inclination angle between the third and fourth section may range between 100° to 130°. These rather large inclination angles facilitate forming a smooth tip on the outer contour of the film spreader and preventing damage on the residual film consisting of plastic material.
It is advisable to provide at least one bracket at the second end of the film spreader, wherein the bracket extends into the reception sleeve through a recess provided at the reception sleeve. Thus, the film spreader and the reception sleeve can be easily mounted together.
In one embodiment, two or more brackets are provided at the first end of the film spreader, wherein two or more recesses are provided at the reception sleeve. Thus, the film spreader and the reception sleeve can be more securely mounted together.
In another aspect, the disclosure provides a residual film winder for a packaging machine, wherein the residual film winder comprises a reception mandrel, a reception sleeve, and at least one film spreader, wherein the reception sleeve is configured to be arranged onto the reception mandrel, wherein the film spreader has a first end and a second end, wherein the first end extends out of the reception sleeve, wherein the first end has an outer contour extending along its long axis, wherein at least three film spreaders are provided in a row and/or being spaced apart from each other, wherein the film spreader provided in the middle extends further outwards beyond the surface of the reception sleeve in comparison to the film spreaders provided on the right and left hand side.
The disclosure will now be further explained with reference to an exemplary embodiment as shown in the figures.
In one embodiment, the outer contour of the film spreader is rounded, i.e., has one or more rounded peaks.
In one embodiment, the crossing spot of the two sections of the outer contour of the film spreader is rounded, i.e., has one or more rounded peaks so that the residual film is not damaged, which can deteriorate packaging quality.
During operation, trays (not shown) are moved in a production direction 8 by means of a feed system into the sealing station 2. The sealing station 2 closes after the feed movement such that it forms a chamber around the trays. A cover film is supplied by the film supply roll 4 and passed through the film tensioning device 5. In the sealing station 2, the trays are sealed with the film and air-tight packages are produced. The remaining cut-off residual film is wound up using the residual film winder 6 to form a roll of the residual film.
The film spreader 16 is configured here as a flap or a paddle. The film spreader 16 has a first end 17 and a second end 18. The first end 17 extends out of the reception sleeve 15 and has an outer contour 19 extending along its long axis 20. At the second end 18 of the film spreader 16 a plurality of brackets 21 are provided. The brackets 21 extend rather short distances into the reception sleeve 15 through recesses 22 provided at the reception sleeve 15. The brackets 21 are shaped such that the film spreaders 16 cannot fall out of the reception sleeve 10 during operation.
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Number | Date | Country | Kind |
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20158680.7 | Feb 2020 | EP | regional |