Adhesive bonding and miscellaneous chemical manufacture – Methods – Surface bonding and/or assembly therefor
Reexamination Certificate
2001-10-12
2004-11-02
Lorengo, Jerry A. (Department: 1734)
Adhesive bonding and miscellaneous chemical manufacture
Methods
Surface bonding and/or assembly therefor
C156S238000, C156S240000, C156S247000, C156S289000, C156S540000, C156S556000, C156S567000, C156S580000, C156S583100, C156SDIG001, C156SDIG003
Reexamination Certificate
active
06811644
ABSTRACT:
The invention relates to a continuous process wherein the packages are moved on a transport conveyor with a superimposed autorotation and the decorations are moved on a carrier conveyor tangentially past a transfer location with constant velocities, wherein at the transfer location the decorations are sequentially transferred to the packages through the application of pressure and heat.
The invention also relates to a corresponding apparatus having a driveable continuous transport conveyor with equally spaced, driveable and rotating receiving means for the packages, a driveable continuous carrier conveyor with equally spaced decorations, and a contact region between the transport conveyor and the carrier conveyor forming a transfer location, wherein there are disposed in the region of the transfer location means for applying pressure and means for heating the decoration.
Processes and apparatus of this type are used, for example, in the food and beverage industry for decorating packages made from paper, plastic, glass or metal.
The thermal transfer process is, for various reasons, rapidly emerging as the dominant process for decorating packages in the manner described above, overtaking other processes, for example labeling processes.
The decoration motif is pressed onto a carrier conveyor through conventional pressure techniques in such a way that the motif is attached to the carrier conveyor through an adhesive means with a smaller adhesive force and covered with another adhesive means with a larger adhesive force. A carrier conveyor set up in this fashion is brought in contact with the packages to be decorated. By applying pressure and heat in this contact region, the decoration is released from the transport conveyor and simultaneously bonded to the package. Heat is hereby supplied through the package.
This process can consequently only be used with packages with a large heat capacity, such as glass bottles.
A continuous process and an apparatus therefor, wherein the thermal transfer process can also be used for packages with a smaller heat capacity, for example plastic packages, are described in DE 44 37 379.1. Herein, the carrier conveyor is separated into individual sections, with each section carrying one print motif, and transported to heated application segments which are arranged on an application transport means with equal spacing therebetween. The application transport means briefly captures the packages in such a way that one package is associated with each transport segment. The decoration is then transferred from the individual section to the package during the transport. This process, however, requires rather complex mechanisms due to the large number of discrete process steps.
In addition, it is difficult to coordinate the large number of individual movements of the feed screws for the packages, the application transport means for the packages and the application segments, the application segments, the packages, the continuous conveyor for the decorations and the cutting device. This coordination of the individual movements can only be accomplished with the help of a complex gear and cam control or implemented by employing corresponding electrical drives.
Moreover, the handling of the individual label segments limits the efficiency of the machine. It is particularly disadvantageous that the transfer of thermal energy into the label material cannot be adapted to the operating speed of the machine. As a result, the variable efficiency range of the machine is severely limited which adversely effects a turn-key production line. There is also the danger that the label material and thin-wall plastic packages can be thermally damaged at low speed.
The packages printed with the thermal transfer process generally require a heat post-treatment for rendering the transferred color image glossier, for allowing the dyes to dry, and for improving the adhesion of the backing.
For this purpose, it has been proposed in DE 44 27 870.5 to transport the freshly printed packages while the image is still wet, to a separate oven with the help of separate conveying means.
It is also known in the art to employ—instead of an oven—an open flame, in combination with a rotation of the packages. An open flame, however, puts severe demands on the equipment technology and, in addition, prevents the use of plastic packages since these may become deformed.
It is therefore the object to provide a process and an apparatus of the type described above which operates over a large variable operating range and is of simple design.
The object is solved by the process in that the transport conveyor and the carrier conveyor move in opposite directions, wherein the ratio of the spacing between the packages on the transport conveyor to the velocity of the transport conveyor is the same as the ratio of the spacing between the decorations on the carrier conveyor to the velocity of the carrier conveyor. Moreover, in the region of the transfer location, the package is adjusted to a circumferential velocity corresponding to the velocity of the carrier conveyor, while the required heat is applied to the carrier conveyor.
It is a particular advantage of the invention that the circumferential velocity of the packages is extremely high. This velocity is derived in a known fashion by adding the velocity of the transport conveyor to the velocity of the carrier conveyor; in this case, however, the velocities have to be added with the same sign.
The high circumferential velocity makes possible a continuous operation since the respective spacings between the packages on the transport conveyor and the respective spacings between the decorations on the carrier conveyor are now independent of each other. It is no longer necessary to cut the individual sections in order to match the carrier conveyor. In addition, the extremely short contact time also avoids a temperature transfer from the carrier conveyor to the package which is particularly advantageous with plastic packages. Furthermore, the two temperature-dependent adhesive layers on the carrier conveyor are not affected.
It is particularly advantageous if the packages are not driven separately, but through the movement of the carrier conveyor. The coordination between movements of the package and the carrier conveyor which is otherwise required, is thereby eliminated.
It is also advantageous if simultaneously with the package to be decorated, the subsequent package, as viewed in the direction of motion, is also driven by the carrier conveyor. The subsequent package thereby undergoes an acceleration phase, thus averting a difference in velocity between the package and the carrier conveyor during the transfer.
It is furthermore advantageous if the required heat is supplied to the carrier conveyor before or at the transfer location. In this way, the heat supply can be optimally metered and adjusted in close proximity to the transfer location, making possible an accurate calculation of the heat loss.
It is particularly advantageous if the heat-up time depends on the velocity of the carrier conveyor and if the control thereof is automatic.
This again aids the heat conduction and improves the quality of the transfer of the decoration. It is particularly advantageous if the freshly decorated packages move past a heat post-treatment unit for attaining a higher color luster. Here, the existing transport conveyor is advantageously employed for moving the packages past a stationary temperature-controlled heat source.
The object of the invention is also solved by an apparatus, wherein the drive means for the transport conveyor and the carrier conveyor are designed to enable opposing directions of movement and wherein a guide element for the carrier conveyor is adapted for applying pressure and for transferring heat. The guide element can move transversely to the direction of movement of the carrier conveyor, and is pre-loaded and formed as a heating element.
It is advantageous to construct the receiving means for the packages in such a way that they can rotate freely, and to driv
Brandt Thomas L.
Turner Harold N.
Turner Neal D.
Wilkens Daniel N.
Heineken Technical Services B.V.
Lorengo Jerry A.
Young & Thompson
LandOfFree
Process and apparatus for decorating packages with convex... does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Process and apparatus for decorating packages with convex..., we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Process and apparatus for decorating packages with convex... will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3359694