DE102007057576A1 - Glass production process for architectural glass uses saccharose and derivatives from collagen and/or pectin compounds as intermediate layer - Google Patents

Abstract

The architectural glass production process is for glass consisting of at least two separate glass or plastic panes fixed firmly to each other by an intermediate layer, for which the predominant components are saccharose (C 12H 22O 11) and derivatives of collagen and/or pectin compounds. There are also other additives in smaller quantities.

Description

The The invention relates to a method for the production of architectural glass, consisting from at least two separate glass or plastic discs, which by means of an intermediate layer are firmly connected to each other and a Architectural glass made by this process.

For Numerous technical applications become plate-shaped Components made of glass or plastic used, which are of different types Aspects often as composite components with at least two to each other configured parallel separate glass or plastic discs become.

Provided the glass or plastic discs arranged at a distance from each other are, with the gap insulating functions in terms of thermal protection and sound insulation are realized. Furthermore, in the space blinds are integrated as a sunscreen. Next a use of the space for isolierähnliche Functions is also a use among primarily design Aspects possible.

So can be between the spaced ones Glass or plastic sheets Webs, rungs and the like Components are arranged to be used for windows with only a uniform basic contour different overall visual impressions to realize. This is a typical example of the increasing use of plate-shaped components made of glass or plastic in architecture.

One another example is building facades, the partially large area with glass or plastic discs be blinded. For such and similar applications In particular, glass is often used to increase the optical effect equipped with decors, for example with dot or striped grids, with longitudinal or horizontal stripes or with a full-surface Coloring. These decors can be created by applying ceramic stoving inks using a screen printing process become.

Next in this screen printing variants are for Architectural applications also include multilayer glass composites used in which between two glass or plastic discs Sheets, plates or similar elements are arranged. such Composite components with which primarily design effects are sought after as "architectural glass" designated.

The previously known methods for producing architectural glass are based on two basic variants:
The first variant involves the use of films or thin sheets of plastic as an intermediate layer, which produce a laminate under the action of pressure and temperature. Related solutions are out DE 22 58 131 A1 and DE 43 08 885 A1 known.

As a second variant, the use of chemical adhesives (eg UV adhesives, resins, polymers) is known, which are introduced over the entire surface. Such technical solutions are in DE 26 22 065 A1 (Polyvinyl butyrals), in DE 31 35 672 A1 (Polyurethanes) and in DE 42 31 199 A1 (Ethylene terpolymer) described.

Consequently are different for the production of architectural glass technical solutions are available with which, despite any concerns about the chemical components ensures an environmentally acceptable production can be. However, the variety of decor is limited and the recycling of such Products is problematic.

at Architectural glass with an intermediate layer of plastic film is the film is largely separated from the glass breakage during recycling. However, you can Glass residues adhering to the glass impair the reprocessing of the glass.

at Architectural glass with polymeric interlayers is recycling even more difficult. A direct reuse of these components, z. B. by extrusion, is due to the adhering small glass particles not possible. Likewise is a deposit on a landfill or a combustion of the ingredients from ecological Aspects questionable.

task The invention is a method for producing architectural glass to create, being ecological for the interlayer harmless raw materials should be used, which is a big one Allow variety of decor and also for a later Recycling are easy to handle. Furthermore, a corresponding Architectural glass to be created.

The Task is with a method with the technical features according to claim 1 and with a product having the technical features according to claim 6 solved. Advantageous embodiments are each the subject dependent claims whose features in the embodiment closer be explained.

The process according to the invention proposes that sucrose (C ₁₂ H ₂₂ O ₁₁ ) and derivatives of collagen and / or pectin compounds and, to a small extent, further additives are used for the intermediate layer in a predominant proportion be.

in this connection be powdery and / or for the intermediate layer granular and / or jellyy raw materials with grain sizes of at least 0.02 mm and, as further additives, biological, mineral, polymeric or metallic additives used.

at Implementation of the method, the intermediate layer at Temperatures of up to 250 ° Celsius partially or completely liquefied. The concrete temperature profile, d. h., the Speed and temperature range of the heating and cooling processes, determines the optical properties or the structure of the intermediate layer.

The Interlayer and the associated glass or plastic discs are at a pressure in a range of 1.00 bar to 15.00 bar with each other connected.

An architectural glass produced in this way comprises at least two separate glass or plastic panes and an intermediate layer arranged between them, which comprises a predominant proportion of sucrose (C ₁₂ H ₂₂ O ₁₁ ) and derivatives of collagen and / or pectin compounds and a minor proportion of other additives ,

in this connection the intermediate layer has powdery and / or granular form and / or jelly-like raw materials with grain sizes of at least 0.02 mm and, as further additives, biological, mineral, polymeric or metallic additives.

With the technical solution according to the invention an architectural glass can be made, its intermediate layer consists of ecologically harmless raw materials, which also easy to handle for later recycling are. Hereby, depending on the respective concrete process conditions composites with minimal layer thicknesses (Interlayer <0.05 mm) and with a very large variety of variants the coloring, structuring and transparency are produced.

When Other advantages are the material costs compared to the Previous methods greatly reduced, because the cost-intensive Foils or adhesives are eliminated. Furthermore, the manufacturing costs are through reduced energy consumption and shorter production times.

An embodiment of the invention will be described below:
The proposed method is suitable for the production of architectural glass, which consists of at least two separate glass or plastic discs, which are firmly connected to each other by means of an intermediate layer. For this intermediate layer, sucrose (C ₁₂ H ₂₂ O ₁₁ ) and derivatives of collagen and / or pectin compounds are used in a predominant proportion and further additives are used in a minor proportion. In this case, powdery and / or granular and / or jelly-like base materials having grain sizes of at least 0.02 mm and, as further additives, biological, mineral, polymeric or metallic additives are used for the intermediate layer. The thus composed intermediate layer is partially or completely liquefied at temperatures of at most 250 ° C, wherein the intermediate layer and the associated glass or plastic discs are joined together at a pressure in a range of 1.00 bar to 15.00.

With the said method steps an architectural glass is produced which has at least two separate glass or plastic discs and disposed between said intermediate layer comprising a major proportion of sucrose (C ₁₂ H ₂₂ O ₁₁₎ and derivatives of collagen and / or pectin compounds and a minor proportion of other additives. In this case, the intermediate layer powdery and / or granular and / or jelly-like base materials with grain sizes of at least 0.02 mm and as further additives biological, mineral, polymeric or metallic additives.

QUOTES INCLUDE IN THE DESCRIPTION

This list The documents listed by the applicant have been automated generated and is solely for better information recorded by the reader. The list is not part of the German Patent or utility model application. The DPMA takes over no liability for any errors or omissions.

Cited patent literature

• DE 2258131 A1 [0007]
• DE 4308885 A1 [0007]
• - DE 2622065 A1 [0008]
• - DE 3135672 A1 [0008]
• - DE 4231199 A1 [0008]

Claims (8)

Process for the production of architectural glass, consisting of at least two separate glass or plastic sheets, which are firmly joined together by means of an intermediate layer, characterized in that for the intermediate layer in a predominant proportion of sucrose (C ₁₂ H ₂₂ O ₁₁ ) and derivatives of collagen and / or pectin compounds and in a minor proportion other additives are used. Method according to claim 1, characterized in that that for the intermediate layer powdery and / or granular and / or jellyy raw materials with grain sizes of at least 0.02 mm. Method according to claim 1, characterized in that that for the interlayer as further additives biological, mineral, polymeric or metallic additives be used. Method according to claim 1, characterized in that that the interlayer at temperatures of a maximum of 250 ° Celsius partially or completely liquefied. Method according to claim 1, characterized in that that the intermediate layer and the associated glass or plastic discs at a pressure in a range of 1.00 bar to 15.00 bar with each other get connected. Architectural glass produced by the method according to claims 1 to 5, characterized in that the architectural glass has at least two separate glass or plastic discs and an intermediate layer arranged between them, the predominant portion of sucrose (C ₁₂ H ₂₂ O ₁₁ ) and derivatives Collagen and / or pectin compounds and a minor proportion of other additives. Architectural glass according to claim 6, characterized that the intermediate layer powdery and / or granular and / or jelly-like raw materials with grain sizes of at least 0.02 mm. Architectural glass according to claim 6, characterized that the intermediate layer as further additives biological, having mineral, polymeric or metallic additives.