DE102010061313A1 - Preparing transparent, translucent and/or opaque surface regions having objects, preferably plates of acrylic polymer and solid surface material, comprises applying light-curing color on plate-shaped article by using ultraviolet lamp - Google Patents

Abstract

Preparing transparent, translucent and/or opaque surface regions having objects, preferably plates of acrylic polymer and solid surface material, comprises applying at least one light-curing color on plate-shaped article by using UV lamp, which cures quickly. An independent claim is also included for a disc-shaped object made of translucent surface areas exhibiting light cured color after application, preferably after UV irradiation.

Description

Especially in interior design, the design trend is increasingly becoming transparent and in particular translucent, backlit materials.

The term "translucency" includes a partial translucency of a material that either already exists due to the material or can be achieved by technical processes such as perforation, etching, engraving or milling, sandblasting, admixture of fillers, sublimation printing, etc.

The use of translucent materials, in particular translucent panels for interior work usually has the goal to create interesting visual effects by backlighting.

In the used, in particular plate-shaped carrier materials are usually acrylic polymer and mineral materials, for example, about one-third of acrylic (MMA) - or polyester resin and two-thirds of a mineral filler, eg. B. (aluminum hydroxide) exist. A high filler content and also a greater thickness make the panels opaque; a smaller proportion of filler or even thinner plate material increases the light transmission of the plates.

As a rule, different formulations with different proportions of filler are used.

Such plates offer many design options, both in the production and in the application, z. B. by the integration of particles, eg. B. from crushed plate material, which particles may also be translucent or transparent.

PMMA sheets containing no filler are e.g. B. as "Plexiglas clear (registered trademark)" known. Acrylic polymer plate material can be processed in a variety of ways to produce different fluoroscopic effects. Thicker plates with a thickness of about 10 mm are usually milled out, while thinner plates are also milled, sublimationsbedruck or covered with foils. Only thinner material thicknesses permit a fluoroscopic effect with a higher proportion of filler.

For example, if the front or back sides of an at least partially transparent or partially translucent plate z. B. with dark, opaque or light-blocking films can be achieved with the backlighting of uncovered surfaces by this very simple process a silhouettes effect.

If translucent structured or printed films are used as a light barrier instead of completely light-blocking films, the plate surface is even more interesting because they z. B. can show filigree details.

A very expensive mechanical method is to back-cut a plate with a decor, d. H. the front side remains unprocessed, while the rear side has recesses obtained by milling, through which the light can penetrate more easily because of the smaller material thickness than through the remaining unground thicker layers. The recessed lines and surfaces are brighter in the backlighting and thus produced from the front of a decoration or image structure of the plate.

At a normal plate thickness of z. B. 10 mm would have to be removed by back milling depending on the proportion of filler in the substrate and the desired fluoroscopy material in a thickness range of about 7 mm.

When using the so-called sublimation printing dyes are evaporated or sublimated into the carrier. In this case, water-based inks are first applied to a thin support, which is then placed on the material to be printed, so that at a temperature in the range of 180 ° C by applying vacuum, the colors in the surface of z. B. from mineral materials existing material. Such a printed plate material can then be backlit at low plate thickness. This sublimation printing process is relatively complicated both in terms of the procedure itself and in terms of the required equipment.

The known methods are very time-consuming and require, in particular in the field of solid surface panels a large production cost.

The invention has for its object to provide a comparison with the known method simplified method for the production of transparent and translucent surface areas having plates made of acrylic polymer and solid surface material and plates produced by this method.

To achieve this object, the invention proposes to apply to a particular plate-shaped object at least one light-curing ink and then to cure them quickly using a UV lamp.

According to a preferred embodiment of the invention, this process, namely paint application and subsequent UV curing, can be repeated several times in succession in order to change the intensity of the translucency and / or to obtain gradations of the translucency.

According to another preferred embodiment of the invention, the ink is applied with a digital printer.

The dark areas produced form a more or less strong barrier layer for the light of a backlight, depending on the color application, whereby unprinted areas remain translucent or transparent. It is therefore possible, depending on the amount of paint applied, to achieve translucence or complete coverage. When using the method according to the invention also photo files can be transferred.

By means of the invention, alternating and printed transmitted-light effects can be achieved in the alternation between printed (= light barrier) and unprinted (= transparent) surfaces with a plate thickness of 2.5 to 4 mm, preferably 3 mm, with considerably less effort than in the known methods ,

The invention is particularly advantageously applicable to plates with lighter designs and a material thickness of 2.5 to 4 mm, preferably 3 mm, wherein depending on the filler content of the acrylic polymer plates, the transparency or transparency can be designed differently.

The advantage of digital printing in UV direct printing lies in the short time required and the uncomplicated process.

It can be implemented in an advantageous and simple manner a file with the dependent of the printer software print data in pressure points. The plate is ready to use almost immediately. If an increased surface protection is necessary, the plate can be equipped according to a preferred procedure also immediately after the UV direct printing and curing process with a transparent UV protective lacquer layer.

The drawing shows a schematic representation of a transparent plate to be printed 1 with partially unprinted surface 1' as well as in UV direct printing applied by UV irradiation curing inks to form translucent areas 2 or completely opaque surface areas 2 ' ,

Claims (8)

A process for the production of transparent and / or translucent and / or opaque surface areas having objects, in particular plates, of acrylic polymer and solid surface material, characterized in that on a particular plate-shaped object ( 1 ) applies at least one light-curing ink and this cures quickly using a UV lamp. A method according to claim 1, characterized in that applying the color with a digital printer on the object. Process according to Claim 1 or 2, characterized in that the light-curing ink is applied to a translucent plate ( 1 ) having a thickness of 2.5 to 4.5 mm, preferably 3 mm. Method according to one of claims 1 to 3, characterized in that the plate material for changing the light transmittance and / or transparency contains filler fractions in the range of 30 to 60 weight percent or volume percent. Method according to one of claims 1 to 4, characterized in that the process ink application and subsequent UV curing is repeated at least twice. Plate-shaped object of transparent material, characterized in that it has translucent surface areas by application of light-cured in particular after UV irradiation. Plate-shaped object according to claim 6, characterized in that the paint application is designed such that opaque surface areas ( 2 ' ) are formed. Plate-shaped article according to claims 6 and 7, characterized in that it consists of an acrylic polymer and mineral material material.

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