Film transfer unit with integrated further processing device

Abstract

If a plurality of part film webs are each stored on different supply shafts, considerable effort is necessary to use a plurality of part film webs within one apparatus. If the part film webs are stored as a plurality of part film webs on a common supply shaft, various problems can arise. Preferably a plurality of part film webs can be used in an apparatus for the transfer of a transfer layer to a sheet. Ideally, the supply shaft and/or collecting shaft is/are constructed as a friction shaft, so that the transfer of the rotational movement of the friction shaft to the transfer film supply roll and/or transfer film collecting roll is carried out via a frictional connection between shaft and roll, which can be overcome by tensile forces of the transfer film web. Therefore, a plurality of transfer film rolls having different diameters are provided on the friction shaft.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a diagrammatic, side view of an apparatus for cold film transfer according to the prior art;

FIG. 2 is a diagrammatic, side view of a transfer apparatus having a friction shaft as a supply shaft according to the invention;

FIG. 3 is a diagrammatic, plan view of the transfer apparatus according to FIG. 2 schematically from above; and

FIG. 4 is a diagrammatic, side view of the transfer apparatus having two friction shafts and a film cycling device.

Claims

1. An apparatus for transferring a transfer layer from a carrier film, which together form a transfer film, to a printing material, the apparatus comprising: at least one film module having at least one transfer film supply roll for storing and unwinding at least one transfer film web and a supply shaft for holding said at least one transfer film supply roll;a transfer film guiding device for guiding the transfer film web from said supply shaft to a transfer nip along a film transport path, the transfer nip being formed by an impression cylinder and a film transfer cylinder for transferring the transfer layer to the printing material, by guiding the printing material through the transfer nip along a printing material transport path; anda collecting device for accommodating the at least one transfer film web guided through the transfer nip, said collecting device having at least one transfer film collecting roll for winding up the at least one transfer film web and a collecting shaft for holding said at least one transfer film collecting roll, at least one of said supply shaft and said collecting shaft being a friction shaft, so that a transfer of a rotational movement of said friction shaft to at least one of said at least one transfer film supply roll and said at least one transfer film collecting roll being carried out via a frictional connection between said friction shaft and said roll which can be overcome by tensile forces of the transfer film web.

2. The apparatus according to claim 1, further comprising at least one forward pulling device for pulling the at least one transfer film web in a direction of the transfer nip and disposed downstream of said supply shaft.

3. The apparatus according to claim 2, wherein said forward pulling device is a pair of forward pulling rolls exerting a tensile force on the at least one transfer film web via friction, so that a pull in the direction of the transfer nip is exerted on at least one of said at least one transfer film supply roll and said at least one transfer film collecting roll.

4. The apparatus according to claim 2, wherein said forward pulling device is disposed after the transfer nip and exerts a tensile force in the direction of the transfer nip on said at least one transfer film supply roll on said supply shaft.

5. The apparatus according to claim 2, wherein said forward pulling device is disposed before the transfer nip and exerts a tensile force in the direction of the transfer nip on said at least one transfer film collecting roll on said collecting shaft.

6. The apparatus according to claim 2, wherein said forward pulling device includes the impression cylinder and the film transfer cylinder forming the transfer nip.

7. The apparatus according to claim 1, wherein said at least one transfer film supply roll is at least two transfer film supply rolls, which in each case are able to store and unwind the transfer film web, and are disposed on said supply shaft.

8. The apparatus according to claim 7, further comprising at least one determining device for determining a roll diameter of said at least two transfer film supply rolls.

9. The apparatus according to claim 8, wherein said determining device has non-contacting sensors with one of said non-contacting sensors assigned to each of said transfer film supply rolls, said non-contacting sensors detecting a distance of a surface of said transfer film supply roll from said non-contacting sensor or directly to detect a radius of said transfer film supply roll.

10. The apparatus according to claim 9, wherein said non-contacting sensors are selected from the group consisting of ultrasonic sensors and optical sensors which detect light reflected from the surface.

11. The apparatus according to claim 8, wherein said determining device has contacting sensors with one of said contacting sensors assigned to each of said transfer film supply rolls.

12. The apparatus according to claim 11, wherein said contacting sensors are each a running wheel for determining a change in a diameter of said transfer film supply roll from a measured unwind travel.

13. The apparatus according to claim 11, wherein said contacting sensors are resistance sensors for determining a quantity of the transfer film web present on said transfer film supply roll via a measured resistance.

14. The apparatus according to claim 1, further comprising a film cycling device disposed in a region of the transfer nip.

15. The apparatus according to claim 14, wherein said film cycling device contains a drive device and at least two guide rollers coupled to each other for guiding the transfer film web, said at least two guide rollers are disposed on opposite sides of the transfer nip, said at least two guide rollers can be moved simultaneously in a first direction via said drive device, so that a speed of the transfer film web through the transfer nip is reduced, and can be moved simultaneously in a second direction, so that the speed of the transfer film web in the transfer nip corresponds to a transport speed of the printing material.

16. The apparatus according to claim 1, further comprising at least one transfer film buffer disposed in a region between said supply shaft and the transfer nip.

17. The apparatus according to claim 1, further comprising at least one transfer film buffer disposed in a region between the transfer nip and said collecting device.

18. An apparatus for transferring a transfer layer from a carrier film, which together form a transfer film, to a printing material, the apparatus comprising: at least one film module having at least one transfer film supply roll for storing and unwinding at least one transfer film web and a supply shaft for holding said at least one transfer film supply roll, said supply shaft being a friction shaft for transferring a rotational movement of said friction shaft to said at least one transfer film supply roll being carried out via a frictional connection between said friction shaft and said at least one transfer film supply roll, which can be overcome by tensile forces of the transfer film web;a transfer film guiding device for guiding the transfer film web from said supply shaft to a transfer nip along a film transport path, the transfer nip being formed by an impression cylinder and a film transfer cylinder for transferring the transfer layer to the printing material, by guiding the printing material through the transfer nip along a printing material transport path; anda collecting device for holding and/or destroying the at least one transfer film web guided through the transfer nip.

19. The apparatus according to claim 18, wherein said collecting device has at least one container and feed elements for feeding the transfer film web to said container.

20. The apparatus according to claim 18, wherein said collecting device contains at least one shredder for destroying the transfer film web by shredding.

21. A method for transferring a transfer layer from a carrier film, which together form a transfer film, to a printing material, which comprises the steps of: providing the transfer film as at least one transfer film web on at least one transfer film supply roll disposed on a supply shaft;guiding the at least one transfer film web along a film transport path to a transfer nip;transferring the transfer layer from the transfer film web to the printing material within the transfer nip;guiding the transfer film web to a collecting device having a collecting shaft and at least one transfer film collecting roll for holding and winding up the at least one transfer film web disposed on the collecting shaft; andforming at least one of the supply shaft and the collecting shaft as a friction shaft.

22. The method according to claim 21, which further comprises: providing the at least one transfer film supply roll as one of a plurality of transfer film supply rolls disposed on the supply shaft;determining diameters D of each of the transfer film supply rolls on the supply shaft;determining an average feed speed Vvm of the transfer film web through the transfer nip; anddriving the supply shaft with an angular velocity w such that a nominal circumferential speed VUnV=w*D/2 of the transfer film supply roll with a greatest diameter is lower than the average feed speed Vvm of the transfer film web through the transfer nip.

23. The method according to claim 22, which further comprises driving the supply shaft such that the nominal circumferential speed VUnV is less than 100% but equal to or more than 95% of the average feed speed Vvm.

24. The method according to claim 21, which further comprises: providing the at least one transfer film collecting roll as one of a plurality of transfer film collecting rolls disposed on the collecting shaft;determining diameters D of each of the transfer film collecting rolls on the collecting shaft;determining an average feed speed Vvm of the transfer film web through the transfer nip; anddriving the collecting shaft with an angular velocity w such that a nominal circumferential speed VUnS=w*D/2 of the transfer film collecting roll with a smallest diameter is higher than the average feed speed Vvm of the transfer film through the transfer nip.

25. The method according to claim 24, which further comprises driving the collecting shaft such that the nominal circumferential speed VUnS is more than 100% but less than or equal to 105% of the average feed speed Vvm.

26. The method according to claim 21, which further comprises pulling the transfer film web off at least one of the supply shaft and the collecting shaft such that its actual feed speed Vv in a region of the transfer nip corresponds at least for some time to a printing material speed VB.

27. The method according to claim 26, which further comprises cycling the transfer film web such that the actual feed speed Vv at times in which no film transfer to the printing material is carried out deviates from the printing material speed VB and, before an envisaged film transfer, is accelerated in such a way that the actual feed speed again corresponds to the printing material speed VB.