Adhesive bonding and miscellaneous chemical manufacture – Methods – Surface bonding and/or assembly therefor
Reexamination Certificate
2000-09-29
2002-10-29
Lorengo, Jerry A. (Department: 1734)
Adhesive bonding and miscellaneous chemical manufacture
Methods
Surface bonding and/or assembly therefor
C156S273300, C156S379000, C156S379600, C156S379800, C156S499000, C118S713000, C118S620000, C118S642000, C427S508000, C427S542000, C427S557000, C313S113000
Reexamination Certificate
active
06471819
ABSTRACT:
BACKGROUND OF THE INVENTION
The invention relates to the process of coating a surface with a thin sheet of plastic, in particular the surface of an automobile bumper. In particular, during such a surface coating process, the surface and/or the plastic sheet is moistened so that after the plastic sheet has been applied, the surface in at least some places is separated from the plastic sheet by a film of moisture, which is subsequently at least partially removed by a squeegee. The invention further relates to quality assurance during the implementation of a method for coating a surface with a thin plastic sheet, in particular the surface of an automobile bumper.
For various reasons, it is a common current practice to coat the surfaces of objects with thin sheets of plastic. For example, such plastic sheets protect vulnerable surfaces from becoming scratched and from the action of chemicals, and they can also create colour impressions by interference effects or can make the surface more shiny. In the automobile industry, for instance, it is customary to provide cars with bumpers, the colour of which is coordinated with the colour of the body paint. The bumpers are made of a plastic material of the desired colour which, however, often is relatively soft and flexible, so that the surface readily becomes scratched as a result of everyday wear and tear. Furthermore, the scratches on a smooth, preferably shiny, lacquer-like plastic surface are considerably more clearly visible than they would be on matte, roughly textured surfaces.
A known means of coating a surface with a thin sheet of plastic, in particular the surface of a car bumper, is to moisten the surface and/or the plastic sheet so that after the sheet has been applied, the surface is separated from the sheet, at least in places, by a film of moisture. The liquid that forms the film of moisture can, in particular, be a rinsing solution. The moisture film permits the plastic sheet to be positioned or repositioned on the surface in exactly the desired manner. After the plastic sheet has been positioned at the correct place or in the correct region on the surface, the moisture film is at least partially, preferably almost completely, removed by means of a squeegee.
Some of the moisture is usually bound to the surface and/or to the plastic sheet. Another portion can enter into combination with an adhesive that has likewise been disposed between the plastic sheet and the surface. In many cases the moisture actually serves to activate the adhesive, so that an effective and permanent adhesion is achieved.
However, if most of the superfluous moisture is not squeezed out, the result can be distinctly visible irregularities in the coating. In particular, over a period of several hours moisture contents that had been bound in one of the ways described above, or had been relatively uniformly distributed over the surface, can collect and form moisture-filled blisters. This presents a major problem for automobile manufacture, particularly in the case of the currently customary just-in-time delivery of fittings. In some circumstances large numbers of, for example, a car bumper must be produced and delivered in a relatively short time, in which case any defects in the coating do not become apparent until after the bumpers have been delivered or even mounted on the cars.
Another problem is presented by irregularities in the plastic sheet and/or in the layer of adhesive that has been applied to the sheet or to the surface before the coating process is begun. In particular, the thickness of the plastic sheet or the consistency of the plastic material may be nonuniform. Such irregularities in the plastic sheet and/or an adhesive layer often do not become visible until the plastic sheet has been applied to the surface of the object to be coated. The reason is, in particular, that the plastic sheet in many cases is transparent and defects are detectable only when irregularities are seen in the light reflected or refracted by the coated surface. Furthermore, a nonuniform distribution of the adhesive can be produced in particular by the process of removing the moisture film between the plastic sheet and the surface with a squeegee.
SUMMARY OF THE INVENTION
An object of the present invention is to disclose a method of coating a surface with a thin plastic sheet, in particular the surface of an automobile bumper of the kind described at the outset, by means of which the smallest possible number of defective products are delivered. In this method any defects that occur are detected as quickly as possible, and wherever possible slight irregularities in the coating are eliminated. Another object of the present invention is to disclose an apparatus for coating a surface with a thin sheet of plastic, by means of which the above requirements can be fulfilled.
Furthermore, it is an object of the present invention to disclose a means of employing equipment in such a way as to satisfy the above requirements.
An essential idea in the invention presented here is that the coating of the surface is irradiated with infrared radiation during and/or after removal of the moisture film with a squeegee, in order to warm up at least portions of the coating and/or, where appropriate, residual moisture remaining between the surface and the plastic sheet.
When such residual moisture is present, the warming accelerates processes that in the absence of warming would take a longer time to complete or would not even be initiated until a later, unpredictable time when, for example, the coating is exposed to extreme external influences such as a high ambient temperature or intense solar irradiation. Hence in a short time it can be determined whether the coating satisfies predetermined quality criteria.
The infrared radiation can be absorbed by the plastic sheet itself and/or by the residual moisture and/or by an adhesive layer, if one is present. Preferably, however, the greatest proportion of the incident energy is absorbed directly in the region between the surface of the object to be coated and the plastic sheet. In particular when the period of irradiation is brief, with high radiation flux densities, the warming is brought about at the desired place with no appreciable heating of the plastic sheet or the object to be coated. Usually such plastic sheets are temperature-sensitive, being deformed thermoplastically at temperatures above a damage-level. In the preferred embodiment described here, therefore, damage to the plastic sheet and/or the object to be coated can be avoided with high reliability.
Especially preferred is a further development in which a largely continuous radiation spectrum is employed, the spectral radiation density maximum of which lies in a wavelength range beyond the visible region, up to a wavelength of 1.4 &mgr;m. This region is called the near infrared.
In a preferred further development of the method, any residual moisture that is present is affected by the infrared radiation in such a way that it collects to form blisters. Thus only a short time after, or even during the irradiation defects in the application of the plastic sheet or in the removal of the moisture film can be detected. These products can be rejected and/or coated anew. In distinction to the known method described above, the present method allows quality control to be carried out immediately after the actual coating process. A later quality control, e.g. in an automobile production line, can therefore be eliminated, with a saving of work time and personnel costs.
Often an adhesive layer disposed between the surface and the plastic sheet is used to attach the plastic sheet. Preferably in such cases the coating is irradiated in such a way that the adhesive layer is warmed by the irradiation and spreads out uniformly. The result is good adhesion of the coating everywhere, with no visually discernible irregularities caused by the adhesive layer.
When it is likely that there will be nonuniformities in the plastic sheet, such as an uneven thickness of the sheet or a nonuniform structure of
Bär Kai K. O.
Gaus Rainer
Advanced Photonics Technologies AG
Lorengo Jerry A.
Marshall Gerstein & Borun
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