This invention relates to a process and equipment for continuous decoration of structural shapes.
In the field of decoration of metallic structural shapes of any type and form by means of an ink sublimation process reproducing the drawing to be transferred there are many different types of systems allowing realization of the decoration by applying said process.
But said systems necessarily require control and handling of the structural shape by workers.
The systems used for decoration of metallic structural shape are generally made up of two machines. The first machine performs the automatic putting into envelopes while the second machine generally calls for one or more carts and a heating oven.
Once put in envelopes by the machine that performs the automatic enveloping operation, the structural shapes are arranged on said carts provided with sucking heads. The ends of the enveloped structural shape are then connected to said sucking heads that allow adhesion of the film to the structural shape by the creation of a depression.
But since the film has necessarily a development longer than the perimeter of the structural shape, between the structural shape and the film there are formed linear sags that if not eliminated cause visually appreciable defects in the decorated final product. Indeed, the films used in known machines having to withstand mechanical stresses, for example due to connection with the sucking heads, are films of considerable thickness (generally approximately 20 microns).
Hence the necessary involvement of workers who manually eliminate the wrinkles and reposition the film in the hollows of the structural shape, hollows in which the film did not succeed in entering due only to the depression effect.
Then the carts enter into the oven where the structural shapes enveloped and placed under depression to realize adhesion of the film to the structural shape are taken to the sublimation temperature.
Then with present techniques to achieve wrapping and perfect adhesion of a film or inked sheet to a structural shape, i.e. to a drawn aluminum support whose length is normally variable between six and seven meters, the manual involvement of a certain number of persons is necessary. Therefore the known techniques that require great use of labor are characterized by resulting low productivity.
In addition the structural shapes must be protected at the ends with adhesive tape to eliminate sharp edges that would cause breakage during creation of the depression and subsequent handling.
As indicated above, a technique used to make the film adhere to the structural shapes requires creation by means of known types of machines of a bag enclosing the structural shape.
Said bag is made from a sheet of inked film on which the structural shape already protected at the ends is deposited.
The longitudinal edges of said sheet are welded by means of heat or ultrasounds so as to enclose the structural shape in the film cylinder thus formed.
Once the film is cut at the ends leaving a length of approximately 200 mm excess for each side of the structural shape said ends are inserted in and connected to the suction means designed to generate the vacuum. By means of the depression generated by the suction means, the bag adheres to the structural shape surface to be decorated by sublimation.
A second technique uses the electrostatic charge to realize adhesion of the film to the structural shape surface.
Both of these processes as already mentioned have a considerable drawback; during creation of the depression the bag sags causing even the superimposition of parts of the drawing and forming irregular sags that require manual involvement to be smoothed and arranged according to the continuity of the surface.
As above-mentioned, this repositioning of the film is done by workers who intervene manually to smooth the sags if any that have been formed and to adapt the film to the structural shape surface by hand.
The general purpose of this invention is to remedy the above mentioned prior art shortcomings and in particular consists of identifying a process and a device allowing avoiding manual involvement of the workers for the entire processing cycle while eliminating the requirement to protect the ends of the structural shape with adhesive tape and reduce film consumption, labor, power consumption and over all costs of the process.
The subject of this invention is thus a continuous decoration process with an inked plastic film resistant to sublimation temperatures and enclosing in it a structural shape and consisting of the following steps:
Another subject of this invention is equipment for the realization of a continuous decoration process with an inked plastic film resistant to sublimation temperatures and enclosing in it a structural shape by sublimation of inks reproducing the drawing to be transferred and consisting of: an automatic conveyor; a molder complete with sealed-closing device for the tubular sheath that covers the structural shape; a device with air under pressure for making contact between the film and the structural shape; a hot air oven under pressure; a device for detaching and accumulation of the exhausted sheath; a cooling device; and an unloader and automatic accumulation of the decorated structural shape.
The system described is the linear type but other configurations can be executed.
Among the linear configurations, two solutions are possible and illustrated in the two drawings (
Configuration 1 (
Configuration 2 comprises (
The main advantage of the process and equipment in accordance with this invention is realizing an entirely automatic finishing operation with no possibility of errors due to the use of workers and their skill.
Another advantage of the process and equipment is the fact that in the hollows where possibly there is not contact between the film and the paint of the structural shape the spreading of the inks (not evacuated by the vacuum) allows a longer contact time and better decoration so that the drawing shows no visible defects after sublimation even where there are sags since spreading of the inks can compensate for the small space where close contact between the part and the film does not take place.
With known machines, approximately 6 people are needed for production of 60 structural shapes 7 meters long per hour. With the new automatic machine, 120 to 180 structural shapes per hour can be produced using 2 people.
Therefore the advantages of the process and the equipment in accordance with this invention can be summarized in reduced costs due to the lower cost of the film, reduced labor cost, better decoration of angles, narrow radius edges and any sags, a better penetration of the inks over the entire thickness of the paint (polyester, acrylic, polyurethane or various mixtures).
Another advantage of this invention is the low power consumption of the oven since, having to pass one structural shape at a time, the outside dimensions of the oven and the inlets and outlets are small in size and they reduce losses to the minimum. Practically the near totality of the heat generated by the generator is used for heating the structural shape.
Number | Date | Country | Kind |
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M120004001891 | Oct 2004 | IT | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP05/10382 | 9/26/2005 | WO | 12/1/2006 |