Apparatus and method for transferring graphic representations on an object by sublimation

Abstract

 An apparatus for transferring graphic representations on an object by sublimation comprises vacuum means for generating a vacuum for adhering a graphic representation provided on a foil shaped support on said object, and transfer means for transferring said graphic representations from said foil to said object by sublimation; the machine further comprises packing means for automatically wrap said object with said foil.

Description

[0001] The present invention relates to an apparatus and a method for transferring graphic representations on an object by sublimation.

[0002] It is currently known to transfer drawings or decorations, by sublimating inks on semifinished articles, extrudates, drafts, and other metallic and non-metallic objects, by wrapping the object to be decorated with an inked foil and, after making the foil adhere to the object by means of vacuum, for example, by heating sufficiently to sublimate the inks so that the graphic representation on the foil is transferred to the object.

[0003] Usually, vacuum is generated by one or more adapted sheaths of elastic material and templates or shapes are used to optimize the adhesion to the object.

[0004] Several people are generally required for wrapping the object with the foil.

[0005] For example, in case of a metal draft, or section bar, of 6 or 7 metres, at least ten people are necessary for the operation, and such expenditure of man power considerably increases manufacturing costs.

[0006] Furthermore, the use of templates or shapes entails their making and installation as well as the provision of a heat barrier which causes a less perfect sublimation of the inks or an excessive time for heating the foil and the object with the consequent waste of energy and slowing down of the operation.

[0007] The decorated object must also be properly packaged in order to protect its graphic representation during handling and storage.

[0008] An aim of the present invention is to eliminate the above cited drawbacks of the prior art.

[0009] An object of the invention is to provide an apparatus and a method, for transferring graphic representations on an object by sublimation, that allow to reduce the heating time of the inked foil and the wrapped object and to improve or optimize the transfer by sublimation of the inks from the foil to the object, thereby increasing the production rate and reducing the costs.

[0010] A further object of the invention is to provide an apparatus and a method, for transferring graphic representations on an object by sublimation, that prevent the need to package the finished article.

[0011] A further object of the invention is to provide an apparatus and a method, for transferring graphic representations on an object by sublimation, that completely eliminate the use of labor for wrapping the article with the foil.

[0012] Still a further object of the invention is to provide an apparatus and a method, for transferring graphic representations on an object by sublimation, that eliminate the use of shapes and templates for decorating the article.

[0013] The above aims, and other aims that will be more apparent hereinafter, are achieved by an apparatus for transferring graphic representations on an object by sublimation, comprising vacuum means for generating a vacuum for making a graphic representation, provided on a foil shaped support, adhere to said object, and transfer means for transferring said graphic representations from said foil to said object by sublimation, characterized in that it comprises packing means for automatically wrap said object with said foil.

[0014] The present invention also relates to a method for transferring graphic representations on an object by sublimation characterized in that it comprises, after pre-treating and painting the object, automatically wrap said object with a foil made of a substantially airtight material and having, on the surface thereof facing said object, the graphic representation to be transferred on the object, and sealing said foil in order to create a substantially sealed bag containing said object and generating vacuum between said foil and said object before transferring said graphic representation from said foil to said object by sublimation.

[0015] Further characteristics and advantages of the invention will be more apparent by the following description of an apparatus and a method for transferring graphic representations on an object by sublimation, according to the invention, illustrated, by way of example in the enclosed drawings in which

FIG. 1 is a schematic top plan view of the apparatus according to the invention;

FIGs 2 and 3 are schematic side views of the apparatus showing the packing, sealing and tensioning means;

FIG. 4 schematically shows the vibrating heads for the ultrasound welding of the inked foil, according to the invention;

FIG. 5 schematically shows the composition of the inked foil, according to the invention; and

FIGs. 6, 7 and 8 schematically show how the inks are sublimated on the object according to the invention.

[0016] With reference to the above figures, the apparatus for transferring graphic representations on an object by sublimation, according to the invention, globally designated by the reference numeral 1, comprises vacuum means for generating a vacuum for allowing a graphic representation, provided on a foil shaped support 3, to adhere to an object, for example a section bar 2.

[0017] The apparatus also comprises a transfer means 4 for transferring the graphic representation provided on the foil to the object 2 by sublimation.

[0018] Advantageously, the apparatus comprises a packing means for automatically wrap the section bar 2 with the foil 3.

[0019] In particular, the packing means comprises seal means 6 of the front portion 7 and lower portion 8 of the foil, with respect of section bar 2.

[0020] The packing means also comprises a tensioning means for the foil 3, as explained in greater detail later.

[0021] In particular, the packing means comprises at least one frictioned roll 9 adapted to allow the foil 3 to unroll continuously above a foil guide 10, substantially shaped as a tubular cylinder, with the aid of a deflector cylinder 11.

[0022] The section bar 2, or the object, to be decorated is passed inside the foil guide 10 so that the foil 3 is arranged across the foil guide 10 with its front and lower portions presented to the seal means 6. In this manner the portions are sealed together, by thermal welding, thus providing a bag wherein the section bar 2 is arranged.

[0023] According to a first embodiment, the seal means comprises a pair of heated rolls 12 having a rotation speed substantially equal to the feed rate of the section bar 2 inside the foil guide 10.

[0024] According to a variated embodiment, the seal means 6 comprises at least one vibrating head and a counter-head 13 adapted to seal the foil edges by means of ultrasound. In this case, the vibrating speed of the vibrating head 13 is suited to the feed rate of the section bar 2 inside the foil guide 10 so that the sealing operation is continuous.

[0025] The tensioning means of foil 3 comprises a first tensioning gripper 15 adapted to grip the two front edges of foil 3 in order to tension foil 3 longitudinally and transversely along the entire extension of the object, in this case along the extension of the section bar 2.

[0026] In this manner, the first gripper 15 prevents the foil 3 from folding or creasing along the section bar 2 thus improving the formation of vacuum between the foil 3 and the surfaces of the section bar 2, thereby optimizing the foil/object coupling and allowing all the decoration surfaces to be in contact with all the object surfaces.

[0027] The tensioning means also comprises at least a second gripper 16 for retaining the foil 3 in the back of the object and particularly, in the illustrated cases, in the back of the section bar as illustrated in FIG. 4.

[0028] The vacuum means comprises a vacuum pump 17 connected to the foil 3 and particularly to the bag defined around the section bar 2, by means of a channel 18 having an opening in the bag formed by foil 3.

[0029] Channel 18 may be arranged inside or outside the cylindrical foil guide 10 and may be fixed or extensible as preferred.

[0030] The second gripper 16 tends to close the back edges 20 of the foil 3 together, at the opening 19 of channel 18, in order to generate a seal between the edges 20 and the channel 18 thus generating a vacuum inside the bag formed by the foil. This allows the foil 3 to perfectly adhere to the entire surface of section bar 2 to be inked, regardless of the shape of the section bar and without using shapes or templates.

[0031] Once the apparatus has completed the wrapping of foil 3 around the object to be decorated, for example a section bar 2, the section bar 2 and the foil 3 are heated by a transfer means 4 adapted to transfer the graphic representation provided on the foil 3 to the section bar 2 by sublimation.

[0032] In particular, according to a first embodiment of the invention, the transfer means 4 comprises at least one solenoid 23 which effects the heating of foil 3 and of section bar 2 optimizing the transfer of ink on the section bar by virtue of the heating by induction that heats the metallic support and therefore promotes the transfer of ink by sublimation to the support without any inconvenience in contrast to the heating by hot air.

[0033] In fact, the use of hot air, for example by means of an oven, entails a greater energy consumption and more heating time.

[0034] On the contrary, the heating by induction is faster and therefore lowers the production costs.

[0035] Furthermore, solenoid 23 may run along the section bar 2 or may be fixed.

[0036] According to a preferred embodiment, the section bar is heated by passing a current through it, of a preset magnitude and for a certain time, making the section bar behave as a resistance.

[0037] The heating temperature of the section bar, when the current flows through it, may be conveniently measured by computing its resistivity by means of a PLC in order to monitor the temperature of the metal directly rather than indirectly as in the conventional measurement systems.

[0038] Furthermore, the present system for heating the section bar entails a reduced energy consumption, as well as rapid detecting and heating times, with respect of conventional methods.

[0039] According to a variated embodiment of the invention, the vacuum means 6 still comprises a vacuum pump which is however connected through one or more elastic membranes, of a per se known type and not illustrated in the drawings, adapted to wrap the section bar coated by the foil 3. In this embodiment, the transfer means are constituted, in a per se known manner, by a hot air oven. Foil 3 is made of a thermoresistant plastics which may be thermo-retracting or thermo-expanding.

[0040] In particular, foil 3 has at least a first polyester layer 30, a second layer 31 having an aluminum metalization, and a third layer 32 having the sublimation ink to contact the surfaces of the object to be decorated.

[0041] Occasionally, when heating the section bar, moisture contained in the polymerized paint evaporates generating gas pockets that may detach foil 3 from the surfaces to be decorated. In such cases, to prevent this inconvenience, foil 3 has at least one layer of porous material adapted to absorb the moisture and thus to prevent the formation of gas and/or to ease its removal by means of the vacuum pump.

[0042] In particular, according to a first embodiment, foil 3 has at least an intermediate layer after the first impermeable layer 30, made for example of polyester, polyurethane, silicone rubber, etc., and the second layer 31 having an aluminum metalization or similar. The intermediate layer may be of MAT fiber, cotton, etc., and is comprised between the second layer 31 and the third layer 32 having the sublimation ink.

[0043] According to a preferred embodiment, foil 3 has the intermediate layer made of permeable material instead of the second layer 31 (metalization), i.e. directly between the first impermeable layer 30 and the third layer 32 having the sublimation ink.

[0044] In this manner, foil 3 allows the thermal welding of its edges and a perfect adherence to the metallic section bar 2 without the use of shapes, templates or elastic sheaths. The foil 3 thus provided also allows to use the induction heating, thus saving energy and speeding up the production process. The foil 3 thus conceived also provides a protection around the object during its handling and storage thus preventing a supplemental operation of packaging of the object once treated.

[0045] The method according to the invention is also advantageous in allowing to automatically put the object or section bar 2 into a bag made of the inked foil and to generate a vacuum between the section bar 2 and the foil before transferring the graphic representation on the section bar by sublimation.

[0046] Conveniently, during the transfer by sublimation of the graphic representation on the section bar 2, which occurs by induction heating the section bar 2 and the foil 3 by means of a solenoid, a vacuum is constantly kept between the foil and the section bar in order to prevent the formation of air pockets that by heating would increase their volume thus generating a non precise transfer of the ink from the foil 3 to the section bar 2.

[0047] The operation of the apparatus according to the invention is apparent from the above description.

[0048] In particular, it is noted that after pre-treating the object or section bar 2 by degreasing, chroming, anode oxidation or other paint pre-treating processes, the object is painted with liquid paints or curing powders or paint adapted to the sublimation process or transfer print.

[0049] Then, the section bar 2 is passed inside the foil guide 10 and at the same time the foil 3 is unwound from the roll 9 above the foil guide 10 so that its front and lower edges 7 and 8 may be welded in order to provide a bag.

[0050] As the section bar 2 advances, the bag formed by the foil 3 is pulled by a first gripper 15 in order to prevent the formation of folds or creases along its transversal and longitudinal extension.

[0051] When the section bar 2 exits the foil guide 10, as illustrated in FIG. 4, the second gripper 16 closes the back edges 20 of the bag, defined by the foil 3, above channel 18 through which vacuum will be generated inside the bag.

[0052] The generation of vacuum will provide a perfect adherence of foil 3 to the surfaces of the section bar 2 without the aid of shapes or templates.

[0053] Last, if necessary, the back edges 20 are sealed, after the transfer by sublimation of the inks from the foil onto the section bar 2, in order to create a package that preserves the section bar from possible damages during shipping and handling.

[0054] According to a further embodiment, by means of the first tensioning gripper 15, foil 3 is laid on a plane having a sucking means adapted to keep the foil into position. In particular, foil 3 has a first portion lying on the plane while a second portion protrudes outside the plane and rests on a bar of suitable length and parallel to the plane. The bar too has sucking means adapted to keep the second edge of the second portion of foil lying outside said plane.

[0055] Section bar 2 is laid on the first portion of the foil which is laid down on said plane and by means of two arms - not illustrated in the drawings - pivoted on the plane, said bar is rotated through 180°, about the pivot axis of the arms, in order to cover the section bar 2 with the second portion of the foil external to said plane. In this manner, the second edge of the second portion of foil, born by the bar, protrudes from the first edge of the first portion laid on the plane.

[0056] The sucking on the bar is stopped and sucking is activated below the second edge of the foil protruding from the first edge.

[0057] Then, the first edge is sealingly secured to the second edge of the foil by means, for example, of a carriage - not illustrated in the drawings - running along the plane. Such connection between the two edges of the foil may be performed, as preferred, by a double adhesive, ultrasound, thermal welding, etc.

[0058] Then, all the previously described operations are performed in order to obtain the packing of the section bar 2 inside the foil 3 and the transfer of ink by sublimation.

[0059] It has been seen in practice how the apparatus and the method according to the invention are particularly advantageous in completely eliminating manual labor for wrapping an object with an inked foil for transferring ink from one to the other by sublimation.

[0060] Furthermore, it is possible to optimize the transfer by sublimation of the inks from the foil to the object with respect to the time and the quality of the transfer.

[0061] Also, the packaging operation of the decorated object is eliminated because the same foil will protect the object.

[0062] The apparatus according to the invention may have numerous modifications and variations, all within the inventive concept; furthermore, all the details may be substituted with technically equivalent elements.

[0063] For example, in order to prevent the formation of folds and creases of the foil on the section bar, the thickness of the bag may be varied or an antifriction material may be used on the section bar or inside the bag.

[0064] Furthermore, the apparatus according to the invention may be provided, as preferred, in one piece or subdivided in several working stations.

[0065] For example, the packing means may be used separately from the vacuum and heating means which may be constituted by conventional machinery.

[0066] The materials employed, as well as the dimensions, may be any according to the specific needs and the state of the art.

Claims

1. An apparatus for transferring graphic representations on an object by sublimation, comprising vacuum means for generating a vacuum for making a graphic representation, provided on a foil shaped support, adhere to said object, and transfer means for transferring said graphic representations from said foil to said object by sublimation, characterized in that it comprises packing means for automatically wrap said object with said foil.

2. The apparatus, according to claim 1, characterized in that said packing means comprises a seal means for sealing at least the front and lower portions of said foil with respect of said object.

3. The apparatus, according to one or more of the preceding claims, characterized in that said packing means comprises tensioning means of said foil.

4. The apparatus, according to one or more of the preceding claims, characterized in that said packing means comprises at least one roll supporting said foil which is continuously unwound from said roll above a substantially cylindrical foil guide wherein said object is made to pass, said foil having such a size as to have its edges engaging said sealing means.

5. The apparatus, according to one or more of the preceding claims, characterized in that said sealing means is adapted to sealingly thermally weld at least the lower and front edges of said foil in order to create a bag wherein said object is arranged.

6. The apparatus, according to one or more of the preceding claims, characterized in that said sealing means comprises at least a pair of heated rolls having a rotation speed substantially equal to the feed rate of said object.

7. The apparatus, according to one or more of the preceding claims, characterized in that said sealing means comprises at least one vibrating head for sealing said foil by ultrasound.

8. The apparatus, according to one or more of the preceding claims, characterized in that said tensioning means comprises at least one first tensioning gripper engaging the front edges of said foil to tension said foil longitudinally and transversely along said object.

9. The apparatus, according to one or more of the preceding claims, characterized in that said tensioning means comprises at least one second gripper for retaining said foil behind said object.

10. The apparatus, according to one or more of the preceding claims, characterized in that vacuum means comprises at least one vacuum pump connected to said foil, which is substantially closed around said object, through a channel having an opening inside said substantially closed bag.

11. The apparatus, according to one or more of the preceding claims, characterized in that said second gripper closes said bag in the back proximate to said opening of said channel.

12. The apparatus, according to one or more of the preceding claims, characterized in that said channel is arranged inside said cylindrical foil guide.

13. The apparatus, according to one or more of the preceding claims, characterized in that transfer means comprises at least one solenoid for heating said foil and object by induction.

14. The apparatus, according to one or more of the preceding claims, characterized in that said solenoid runs along said object.

15. The apparatus, according to one or more of the preceding claims, characterized in that said vacuum means comprises at least one vacuum pump connected to one or more elastic membranes surrounding said object wrapped in said foil, said transfer means comprising an oven.

16. The apparatus, according to one or more of the preceding claims, characterized in that said foil has at least a first layer of polyester, a second layer having an aluminum metalization and a third layer having sublimation ink.

17. The apparatus, according to one or more of the preceding claims, characterized in that said foil closed around said object, after the transfer of said ink on said object, defines a protective sheath of said object during shipping and handling of said object.

18. The apparatus, according to one or more of the preceding claims, characterized in that said foil has at least one intermediate layer of permeable material between said first impermeable material and said second layer having metalization.

19. The apparatus, according to one or more of the preceding claims, characterized in that said foil has at least one intermediate layer of permeable material between said first impermeable material and a third layer having sublimation ink.

20. A method for transferring graphic representations on an object by sublimation characterized in that it comprises, after pre-treating and painting the object, automatically wrap said object with a foil made of a substantially airtight material and having, on the surface thereof facing said object, the graphic representation to be transferred on the object, and sealing said foil in order to create a substantially sealed bag containing said object and generating vacuum between said foil and said object before transferring said graphic representation from said foil to said object by sublimation.

21. The method, according to claim 20, characterized in that said transfer of said graphic representation on said object by sublimation is effected by induction by means of a solenoid and that during said transfer vacuum is maintained between said substantially closed foil and said object.

22. The method, according to one or more of the preceding claims, characterized in that said transfer by sublimation is effected by heating said object at a preset temperature by means of a current passing through said object.

23. The method, according to one or more of the preceding claims, characterized in that the heating temperature of said object is measured by measuring the resistivity of said object run by said current.

24. The method, according to one or more of the preceding claims, characterized in that it comprises resting said section bar on a first portion of said foil lying on a plane, covering said section bar with the remaining second portion of said foil so that the first edge of said foil can be sealed with the second edge of said second portion of said foil, and sealing the head and tail of said foil to provide vaccum between said foil and said section bar.

25. The method, according to one or more of the preceding claims, characterized in that said section bar is covered by rotating a second edge retaining bar through about 180°, said bar being provided with sucking means.

Drawing