DE202009002392U1 - Two- or three-axis guided coating device for the construction of electroluminescent light capacitors and mirror and electrically conductive surfaces and tracks - Google Patents

Abstract

Coating device characterized in that a coating system guided over two or three axes with horizontal or vertical arrangement carries out planar or contoured electroluminescent coatings on glass, films and other planar or three-dimensional materials with printheads adapted to the coating media deviating from the conventional printing inks, , solvent-based or UV-binder materials can be used so that after the necessary, tailored to the binder drying or crosslinking processes after applying an AC voltage and thus build up an electric field, the coated surfaces begin to shine.

Description

State of the art

Of the Construction of electroluminescent light-emitting capacitors usually takes place screen printing techniques. In property right 20 2008 002 894.9 is also used by an injection technology application of the various necessary Layers reported, being for a defined and puncture resistant structure, the injection technology executed by hand will, great practice and Experience is required. With a spray robot is the successful and functional Build more likely.

Advantages of the invention

The Coating device according to the invention Uses a many thousand times proven technology, like them u. a. used in inkjet printers.

Around also on rigid materials such as glass plates the necessary coating sequence for one To realize light-emitting capacitor is one over two or three axis controlled flatbed printing system in horizontal or vertical version required. Furthermore have to the printheads be adapted to the different types of print media than the usual printing inks.

Of the decisive advantage of the coating technology according to the invention is the elimination of the pre-press, the z. B. in screen printing u. a. includes the film position and the copying on the screen fabric. The direct processing of the template created on the PC or received digital data through immediate implementation over the Coating system speeds up the manufacturing process, allows a high reproducibility, saves time and costs.

cleaning and set-up times are low compared to screen printing and require no special Facilities and call for a total of a small footprint.

Puts you are a coating system with three axis control, are even within certain limits coated and coated three-dimensional parts a light capacitor can be built up.

One Another application that opens the coating device is the plane or contoured application of mirror surfaces. If you use the electrical conductivity the deposited metallization, u. a. Tracks as well contoured electrodes for arise the electroluminescent light-emitting capacitor, the high conductivity especially for size Surfaces as well has positive effects like the bright color of the metallization, compared to other conductive coating materials relatively little light swallows.

description

1 shows a simplified representation of a two-axis Flachbettdruck- or coating system with the flat bed table ( 1 ), a portal ( 2 ) with pressure or coating head ( 3 ), which receives the controlled movement across the table, and the direction of movement indicated by an opposite arrow ( 4 ) of the portal in the longitudinal direction of the printing or coating stage with an applied to be coated plate / foil ( 5 ).

In 2 is the printing or coating technology structure of a light-emitting capacitor on a plate / foil ( 1 ) explained. Is it applied to a glass plate or foil with an electrically conductive transparent layer ( 2 ), follow one after the other with the necessary drying phases: the luminescent layer ( 3 ) in the narrower sense, an insulation layer ( 4 ), which simultaneously serves for the reflection, and the second electrically conductive layer ( 5 ), also known as baking electrode, which may arise, inter alia, through the metallization of the surface after corresponding masking in the context of a deposition process.

Claims (4)

Coating device characterized in that a coating system guided over two or three axes with horizontal or vertical arrangement carries out planar or contoured electroluminescent coatings on glass, films and other planar or three-dimensional materials with printheads adapted to the coating media deviating from the conventional printing inks, , solvent-based or UV-binder materials can be used so that after the necessary, tailored to the binder drying or crosslinking processes after applying an AC voltage and thus build up an electric field, the coated surfaces begin to shine. Coating device according to claim 1 characterized characterized in that mirror surfaces are preferred flat on glass or contoured can be applied by using a simultaneously silver nitrate solution sprayed with other substrates Separation process is triggered after a washing and drying cycle for the permanent preservation of the mirror surface still requires a transparent finish. Coating device according to the claims chen 1 u. 2, characterized in that the mirror coating listed in claim 2 in addition to the effect to reflect highly electrically conductive and can serve as an electrode of an electroluminescent light-emitting capacitor or can be formed into printed conductors. Coating device according to the Aspr 1-3 thereby characterized in that on the coating media of electroluminescence or silver deposition matched printhead replaced by a spray painting is and allowed, with successive coating courses and Drying phases a comparable electroluminescent light-emitting capacitor or electrically conductive surfaces or build tracks.