DE10340754A1 - Visible element, e.g. a flat glass screen, comprises at least one visible side made of glass, which is decorated using color applied by an ink jet printer - Google Patents

Abstract

A visible element comprises at least one visible side made of glass, which is decorated. The decoration is formed using a print color, and is applied by ink jet printing directly onto the non-coated side of the glass. The viscosity of the solvent coloring is chosen so the color does not run. The decorated side is covered using a glass element or a clear lacquer. The cover layer is water- tight and /or scratch resistant, and consists of a multi-component acrylic resin system.

Description

The The invention relates to a viewing element with at least one visible side made of glass, with the visible side with a visually perceptible decoration is provided.

Of the selected above Concept of the visual element is to be understood in the broadest possible form. It this may be a glass pane, in particular a flat glass pane, or part of an information carrier or divider, or act like that. At the visually perceptible decoration can it is also visually perceptible information, for example on a warning or advertising sign, act.

The Decorating glass is well known. In addition to hand painting of glass surfaces is Screen printing technology, stencil technology and offset printing used. This requires a pretreatment of the glass surfaces, in particular the application of underground layers. It is also known to print on transparencies the glass surface to apply or by means of transfer foils, which the decoration transferred to the glass surface, to work. The proposal has already been made to use UV inks, that is, under the influence of ultraviolet curable paints, inkjet printing process applied. Also for this a pre-coating of the glass surface is required. Further is a hardening device with a UV radiation source required, which is extremely expensive. In addition, UV inks are translucent, So little coverage, which brings more disadvantages. Also can be UV inks with a usual Remove glass cleaner; their attachment to glass surfaces is therefore for some applications inadequate.

When always glass surfaces with a pre-coating (primer) and then provided with a decoration become a major problem: either must the pre-coating is applied under clean-room technology, which is very expensive, or it must inclusions of Dirt particles, dust particles or foreign bodies of any kind, even microscopically small water droplets, between the glass surface and the pre-coating are accepted. These can then be later do not remove it. They are in areas outside the later to be applied Decoration in disturbing Way visible. For example, you can form Newtonian rings or other diffraction phenomena. However, this is extremely disturbing in the case of visual elements.

Of the present invention is based on the object, a visual element of the type mentioned above, in which the decoration in simple and economical, but good coverage and durable, can be applied. It should also be a high quality visual element without disturbing inclusions of the aforementioned type can be produced.

These Task is in a visual element of the type mentioned according to the invention thereby solved that the decoration is formed by a solvent printing ink is that in the inkjet printing process directly applied to an uncoated glass surface of the visible side is.

It has been shown that the process engineering application of solvent paints directly on non-pre-coated glass surfaces by using inkjet printing is reachable. It is using inkjet printing processes namely possible, Solvent inks in the appropriate viscosity range to use and apply in such a relatively thin layer thickness, that the bleeding on the glass surface represents a technically manageable problem. By the glowing the solvent printing ink in the inkjet printing process is already a Vorverflüchtigung of the solvent reached, which the adhesive behavior of the solvent printing inks on a uncoated glass surface improved. By blasting the solvent printing ink is surprising Make the adhesive behavior of the microscopic solvent droplets so also improves that high quality decorations in good coverage quality and straight at very high resolution in photo quality can be produced. The disadvantages of conventional Methods of the type described above do not exist. Also the Disadvantages of the use of UV inks and their elaborate processing omitted. As a result, on a nationwide pre-coating as a primer for the decoration is omitted, does not raise the problem of dirt inclusions or the requirement of using clean room technology.

It proves to be beneficial in that the viscosity of the solvent ink at the moment of radiating so chosen is that the paint does not run on the glass surface, but instead remains in the applied form. The higher the viscosity of the solvent printing ink chosen at the moment of radiating is, the less the solvent printing ink tends to run when applied directly to the glass surface. It has a viscosity the solvent printing ink at the moment of irradiating from 5 to 20 mPas, in particular from 6 to 18 mPas, in particular from 6 - 15 mPas, especially from 7 - 12 mPas proved to be expedient.

It also proves to be advantageous if the layer thicknesses are not too thick, so that the evaporation behavior of the Lösemit ink is such that the solvent evaporates rapidly. The higher the evaporation behavior of the solvent printing ink is set, the faster the solvent evaporates after irradiation onto the glass surface. By this measure, a bleeding of the ink can be prevented, and a rapid adhesion and drying of the radiated decoration feed are made.

It proves to be particularly advantageous when the glass surface before the blasting of the solvent printing ink high temperature was treated, for example by flaming. hereby can microscopic liquid droplets and Moisture, which indicates the adhesion of solvent printing inks on the untreated glass surface impair could be removed.

For individual Applications, it proves to be beneficial that the decoration having visible side is covered with another glass element. It could Thus, the visual element is a laminated glass pane. For example, could the viewing element is a safety glass pane. The decoration is protected in such a case and neither aggressive environmental influences nor mechanical wear exposed.

To another embodiment According to the present invention, the viewing element is on its visible side with a decoration covering the decoration in particular transparent coating or cover layer, in which it may in particular be a clearcoat provided. The Coating could advantageously formed by a pigmentless solvent printing ink be.

Especially can through the top coat the scratch resistance, water resistance etc. increased become. In addition to crystal-clear cover layers can also matted or optical Effects can be used cover layers. The cover layers can also be colored. It can be advantageously provided for this, as a cover layer to use a multi-component acrylic resin system.

As already mentioned at the beginning, can the visual element of the invention a flat glass pane or it may be a part an information carrier, a room divider or building component, in particular a facade component, a window or a door act.

The The present invention also relates to a method of manufacturing a visual element of the type in question. This method is according to the invention characterized in that the decoration in the inkjet printing process under Use of a solvent printing ink directly onto an uncoated glass surface of the visible side of the visual element is applied.

This can be done in Advantageously, a flatbed printer can be used. The decoration to be illuminated in the sense of any visually perceptible information in the broadest sense, by electronically controlling an inkjet printer or the inkjet printhead, which is advantageously is a piezo-controlled inkjet printhead done.

Around the adhesion of the solvent printing ink on the glass surface to optimize and bleeding of the solvent printing ink as possible It is proposed to counteract the viscosity of the solvent printing ink to choose accordingly depending on the surface condition the glass surface proves to be advantageous, one on this by a few attempts adjustable viscosity to choose the color.

In Advantageous embodiment of the invention has a viscosity of the solvent printing ink at the moment of irradiating from 5 to 20 mPas, in particular from 6 to 18 mPas, in particular from 6 to 15 mPas, especially from 7 - 12 mPas proved to be advantageous.

It also proves to be particularly advantageous that the decoration is applied directly to an uncoated glass surface. It would also be conceivable a primer layer in a previous process step to apply to the glass surface. Therefor but would be Cleanroom technology required to prevent dirt inclusions. According to the invention, however, it was found that under use of the inkjet printing process dispensed with a pre-coating of the glass surface can be. However, it proves to be advantageous if before the application of the decoration is cleaned the glass surface. Especially it proves to be advantageous if it removes adhesive layers on the glass surface be, in particular a high-temperature treatment, preferably by flaming the glass surface is performed.

Compared to the previous procedure, the visual element according to the invention proves to be advantageous in that no foil must be printed, which is then applied to a glass surface or only serves as a transfer agent for the decoration. Since the imprint is executed directly in the inkjet printing process, no preparatory photographic work is required. No chemicals are needed, and there are no wastes that pollute the environment. Even very small series and even individual imprints are inexpensive to produce. Decorations can be realized by software and stored or copied by copying and further digitally processed and stored and retrieved as needed for the execution of the printing process.

It further proves to be particularly advantageous that the printed Decoration in a resolution from 300 dpi to 2400 dpi, especially from 600 dpi to 1200 dpi, is applied. Such decoration has photo quality.

Claims (16)

Viewing element with at least one visible side of glass, wherein the visible side is provided with a visually perceptible decoration, characterized in that the decoration is formed by a solvent printing ink, which is applied in the inkjet printing process directly on an uncoated glass surface of the visible side. Sight element according to claim 1, characterized that the viscosity the solvent printing ink so chosen is that the paint does not run on the glass surface but remains in the applied form. Sight element according to claim 1 or 2, characterized that the evaporation behavior of the solvent printing ink is chosen such that that the solvent evaporated quickly. Visual element according to one of the preceding claims, characterized characterized in that the decoration having the visual side with another. Glass element covered is. Visual element according to one of the preceding claims, characterized characterized in that the viewing element on its visible side with one covering the decoration in particular transparent coating or covering layer, in particular from a clearcoat, provided. Sight element according to claim 5, characterized that the cover layer is waterproof and / or scratch-resistant, and in particular comprising a multi-component acrylic resin system. Sight element according to claim 5, characterized that the coating is formed by a pigmentless solvent printing ink is. Visual element according to one of the preceding claims, characterized characterized in that the viewing element is a flat glass pane. A sighting element according to any one of the preceding claims Claims, characterized in that the viewing element is part of an information carrier, a Room divider or a building component, in particular a facade component, a window or a door is. A sighting element according to any one of the preceding claims Claims, characterized in that the decoration in a resolution of 300 dpi - 200 dpi, especially from 600 dpi - 1200 dpi is brought up. Method for producing a visual element according to the preamble of claim 1, characterized in that the Decoration in inkjet printing process using a solvent printing ink directly onto an uncoated glass surface of the visible side of the visual element is applied. Method according to claim 11, characterized in that that the viscosity the solvent printing ink so chosen is that the color on the glass surface does not run but remains in the applied pattern. Method according to claim 11 or 12, characterized that the viscosity the solvent printing ink at the moment of irradiating from 5 to 20 mPas, in particular from 6 to 18 mPas, especially from 6 - 15 mPas, in particular from 7 to 12 mPas is. A method according to claim 11, 12 or 13, characterized characterized in that the evaporation behavior of the solvent printing ink so chosen that will be the solvent evaporates quickly before the paint runs on the glass surface can. Method according to one of claims 11-14, characterized in that before applying the decoration, the glass surface is cleaned. Method according to one of Claims 11-14, characterized that before applying the decoration, the glass surface of a Subjected to high temperature, in particular flamed.