Coating processes – Electrical product produced – Metal coating
Reexamination Certificate
1998-09-11
2001-03-13
Parker, Fred J. (Department: 1762)
Coating processes
Electrical product produced
Metal coating
C427S261000, C427S299000, C427S429000, C156S292000, C264S272110, C264S272170
Reexamination Certificate
active
06200630
ABSTRACT:
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates in general to the field of producing electromagnetic radiation shielding, and in particular, by way of example but not limitation, to producing electromagnetic radiation shielding in electronic devices with non-flat surfaces.
2. Description of Related Art
In our surroundings there are a large number of electromagnetic fields which are formed by electrical machines and electrical equipment, such as radios, TVs, refrigerators, deepfreezers, stoves, electric ovens, computers, car- and pocket telephones, electrical conductors, power tools, lamps and a number of other devices. These electromagnetic fields, which surrounds us every day, probably cause a number of symptoms for people who are allergic to this radiation, in the form of different allergies, cancers or different types and other complains.
There are today different forms and methods for trying to reduce the effect of the electromagnetic field on people through different types of screening methods.
The electromagnetic radiation can be reduced through shielding the radiating unit with a metallic casing, which can contain the electromagnetic field and thereby reduce the risk of injury to people.
These shielding devices can be made, for example, as an enclosing casing, formed of a net of metal wires or of a metallic foil or from a surface which is metallized through vacuum vaporisation or the structural plastic material in the device can be completely or partially mixed with metal fragments.
The protective effect is thus achieved through placing an obstacle in the radiation direction which shields at least at the place where it is desired to avoid radiation from the electromagnetic field or to shield larger surfaces than that.
To produce this shielding is often expensive and complicated and sometimes does not give an esthetically attractive result. To shield, for example, through clothing the electrical devices with a net or foil does not look nice and furthermore makes it difficult to operate and access them. Internal solutions, such as foils moulded-in or mechanically mounted become both expensive and complicated. If a surrounding casing of plastic is constructed with an electrically conductive material baked into the plastic then the casing becomes unnecessarily heavy and furthermore expensive to produce, since the material cost becomes high and the operating time in an injection mould takes a long time. A vacuum vaporisation method is suitable for producing a surface coating of a thin metallic layer. This method causes problems in the form of difficult handling. First the details must be unpacked. Then comes masking of surface which it is not desired to coat with metal, then hanging up on different stands and then introduction into the autoclave which is then evacuated of air in order to produce a vacuum. It is only after this that the metallization through vacuum vaporisation can take place. Thereafter follows demounting of the metallized details, which will be packaged and transported to the manufacturer of the electrical devices. Vacuum vaporisation plants costs many millions of Swedish crowns which add to the cost for each metallized detail. Metallization which is performed with anodisation has similar disadvantages as the vacuum vaporisation method.
All the above described methods are both time-consuming, labour-intensive and expensive at the same time as the quality of the metallic layer developed is not always sufficiently good.
The present invention is intended to solve the above mentioned problems.
It is known in the prior art to transfer a non-cured or undried paint substance to a foundation from a stamp pad which can be coated with paint in different ways. For example the paint can be pressed through a template against a plate where a picture is etched with the exact shape, spread, thickness and colour. A soft and pliable stamp pad them gets this picture through being pressed against this surface and then transfers this to a pre-determined place on a surface of a detail, for example, a pen, a clockface, a toy or some other detail surface, which can be arched, curved or have another simple surface shape. The picture can also be taken from a screen printed picture. The stamp pad is shaped so that it can follow the different shaped surfaces so that the picture is transferred and covers in the best way the whole of its surface so that no part of the picture is left out. This method is known as “tampon-printing”.
SUMMARY OF THE INVENTION
According to the invention the advantages of tampon-printing can be used through exchanging the printing ink for a metallic material which then forms a shielding layer against electromagnetic radiation. According to the invention masking of surfaces which are not to be metallized, for example, the front side, the making of holes, fittings, join surfaces etc. becomes unnecessary as the shape, thickness and extension of the print is regulated exactly with this tampon-printing method. According to the invention, by further refining this known printing method, much more complicated surface shapes can be coated with a metallized layer so that even extremely arched and complicated surfaces with projecting elements or fittings and the like can be coated. The stamp pad can in this case be shaped more exactly so that it in general fits the detail which is to be coated with a layer. One can in this case produce the stamp pad in an extra soft and flexible material so that it can stretch itself into the smallest nook. Smaller details with extremely complicated shapes, for example, car telephone cases, become easier to coat with a layer since the tampon-printing method according to the invention is especially easy to perform on small surfaces. All handling such as placing in or removing out of details for metallization in a vacuum vaporisation method does not have to be performed according to the invention. Injected moulding plastic material with a metal mixed in does not need to be used either. Instead, according to the invention, the structural material which normally is needed for the purposes is used. To place in or glue fast a metal casing also becomes unnecessary, as well as making of different types of nets.
According to the present invention a cheap, quick and particularly easy method of obtaining a metallic layer as a shield against electromagnetic radiation on a detail which is to be used in a electrical device is provided. Furthermore the method according to the invention gives an extremely high quality result. According to the invention the metallic layer is transferred with a pre-determined spread directly or indirectly on to the actual detail with the help of a known printing method. As a printing method can be used, for example, a photographic method in order to produce an exactly shaped picture. This picture is then transferred through etching to the surface on a plate. It can also be transferred to a screen frame. A metallic material is then laid out as a thin layer on the etched plate or pressed through the screen frame out onto a foundation. The now printed metal layer is then collected by a tampon stamp pad which then transfers this to, for example, a casing for a car telephone. Application of this metallic layer according to the invention only takes a few seconds. This must be compared with the vacuum vaporisation method, which is up to now the most successful form, for example car telephone casings, which requires masking devices which are large, clumsy and difficult to handle, and which can only be delivered after several days, which is extremely time-consuming.
Naturally all the surfaces of the metallic layer according to the invention do not have to be tampon printed at the same time. The same detail can be printed more than one rinse in different places. With small series or in the case that the details are small, it is most profitable to use smaller tampon printing pads and printing machines. With large series, and in the case where large bits should be coated, according to the inventi
Jenkens & Gilchrist P.C.
Parker Fred J.
Telefonaktiebolaget LM Ericsson
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