DE1529309B - Transparent, metallized and adhesive-coated cover foils for glass panes - Google Patents

Description

glue, polyvinyl alcohol or vinyl ether polymers that are soluble in neutral or alkaline solutions (e.g. a vinyl methyl ether-maleic acid copolymer or its neutral ammonium salt) suitable according to the invention. The bond strength can be determined by using a usual piece of hand Usually sticky and pressure sensitive adhesive tape on the surface of the water activatable Klabmittel is stuck on and quickly torn off. If no adhesive is carried away, the adhesive strength is sufficient. The finished product can also be applied to a glass surface for testing and removed after 16 hours; in the case of a usable product, either the film should be from peel off the metal layer or tear the film itself. The invention is illustrated by the following examples explained.

example 1

A 60 Å thick aluminum layer was applied to a 0.025 mm thick, biaxially oriented polyethylene terephthalate film, the permeability to visible light being reduced to 40% of that of the untreated film : 1 in 1,1,2-trichloroethane, which also contained a small amount of an ultraviolet light absorber, and after evaporation of the solvent a dry protective coating remained with a weight of about 0.34 mg / cm ² and about 25,000 Å An aqueous solution with 2.5% solids content of the neutral ammonium salt of a hydrolyzed copolymer of vinyl methyl ether and maleic anhydride 1: 1 was applied to this dried copolymer coating. After the solvent had evaporated, an adhesive coating of about 0.10 mg / cm ² and about 8,000 Å thick, whereupon the structure mi t germicidal tubular lamps of about 1.5 cm diameter at a distance of about 1.5 cm from the adhesive-coated surface for 35 minutes at about 25 ⁰ C was irradiated. In a known manner, the temperature can be increased while reducing the irradiation time; so are z. B. 55 watt minutes per m ² at 85 ° C. is sufficient.

The above-mentioned mixed polymer protective coating is particularly convenient to use and offers an excellent one Corrosion protection for the metal layer.

The sheet material of this example was moistened by passing it through a bowl of water, which when cold Weathering methanol as an anti-freezing agent can be added, and then sent to the Glued to the inside of a dry window in an enclosed space. Excess water was removed by means of a squeezer, with which the sheet material on the glass surface is in the correct position was brought about by the low coefficient of friction between the damp glass and the partially dissolved adhesive was facilitated. After the adhesive layer has completely dried

ίο the sheet material adhered firmly to the window surface and could be washed and treated in the usual way. The brightness in the room was for that subjective perception somewhat diminished, but not to an unpleasant degree, the objects outside of the window (i.e. on the side of the greater light intensity) could be clearly distinguished, even at a great distance. The temperature of the room was several degrees below that of the same Room with an uncovered window, and the subjective impression was that the temperature difference between the rooms was even greater> The gloss was substantially reduced, and pictures viewed through the windowpane were not distorted. The notched impact strength of the glass was increased by more than 60%, and the disc did not shatter when jumping.

Example 2

The same product as in Example 1 was produced, only that which was deposited from the vapor phase Metal layer about 100 Å thick and the visible light transmittance was about 25% of that of the uncoated film. A 3.2 mm thick glass pane stuck with this product a shadow coefficient of 0.33, while one made with the product of Example 1 is similar Layered structure had a shadow coefficient of 0.50. The shadow coefficient used by the American Society of Heating, Refrigerating, and Air Conditioning Engineers (ASHRAE) gives that Ratio of the heat that is transmitted through the layer structure at an angle of incidence of 45 ° becomes, to the one that is let through by the glass alone. The values given were with measured with a solar calorimeter.

Products of the type described in the above examples have a practically unlimited shelf life, their own * shafts do not change significantly. They can be removed by applying a layer of wet Blotting paper was placed on the surface of the film for about 20 minutes, and then the sheet material was peeled off will.

Claims (2)

1 ' ; - Ί ■. 2. 1. Transparent, metallized and sticky but reduced. On the other hand, it is also possible to use ethylene isophthalate itself with a polystyrene-coated film for glass panes, but it is less tough to reduce glare and heat. The protective coating should have at least the permeability of window panes which are strong enough not to cause any disruptive interference to the transparent plastic layer, i.e. it must be in the order of magnitude of the metal layer uniformly with a protective 10 000 Å or above, The upper limit is covered with a plastic coating, the thickness of which is determined according to aspects such as economy, transparency and practicality of a light-resistant paint layer, and its connection with the glass pane. If the adhesion between the adhesive layer to be connected is not strong enough by the water protective coating and adhesive, can be activated, according to Patent 1,294,613, which means that the protective coatings can be identified in a suitable manner that the transparent 15 is, e.g. B. in a known manner by electrical water-insoluble protective coating at least 10 000 Ä tric discharge, ultraviolet radiation or through thick. . ... ...... intermediate coats (e.g. made of polyisocyanates). _: 2. Transparent cover sheet according to claim 1, when the cover according to the invention is applied thereby marked that the transparent film on glass panels must be used to activate the water-insoluble protective coating made of polyethylene - 20 adhesive used water through the film rear terephthalate, Polyäthylenisophthalat or a wander through after this be-Ethyleneterephthalat-Äthylenisophthalat-Mischpolyfestigt on the glass pane has been. It would therefore be expected that the merisate would exist / C-an extremely thin metal layer during the passage of the water corrodes and thus their reflection loss y 25 and would change their transparency. This has been an obvious but erroneous assumption The invention relates to a further development of previously the experts of the use ^v through the transparent adhesive and metallised ¹ water activatable adhesive for articles of the coated coating film for glass sheets according to the type described herein retained. The effective German patent specification 1 294 613. 30 the ability of various known products would have significantly. , would have been. Surprisingly, however, like the bleaching of fabrics, the products according to the invention do not corrode to a minimum and lose a certain amount. It is particularly effective in reducing the permeability of infrared light, even after a very long period of time. Protective coating between the adhesive and the me-you also sets the measured permeability for the metal layer which prevents the corrosion of the extremely thin metal visible light, i.e. for light of the wavelength layer, cannot be given,
rich from 4000 to 8000 Ä, down to 80%. 4 ° As the base film, a polyethylene terephthalate film is used. Although the heat and the glare are decreased from about 0.0125 to 0.05 mm in thickness for those of the present invention, the apparent brightness according to use becomes particularly suitable and is not uncomfortably decreased in the room. preferred because it has good clarity, uniformity, and increased impact resistance of different humidity and temperature. This film is also particularly receptive to panes coated with foil when cracking, so that the metal coatings that are not vapor-deposited with the invention. Polymeric carrier films splinter. Furthermore, according to the invention, the protective coating, also made of rigid (not plasticized), reliably protects the thin metal layer of polyvinyl chloride, cellulose acetate, cellulose acetate from corrosion. ■ '■ - ^: "■ ■ ■ 50 pionate, cellulose acetate butyrate, polystyrene and polyThe subject of the invention is a further form of butyl acrylate and the like Can be improved in ways, e.g. by incorporating into the film permeability of window panes to reduce glare and heat absorbents for ultraviolet light, in which the metal layer applied to the 55 itself or, preferably, in the protective coating, the transparent plastic layer over the deposited metal is applied.
The metal is vaporized in the usual way, possibly in a light-resistant manner, whereby the amount of the deposited metal can be assigned a color layer, and its adhesive layer to be connected to the glass pane by means of the reduction in light transmission ⁶ ° measured in the visible spectral range and in which water can be activated, according to patent 1,294,613, in which it is regulated that at least 10, but not the transparent water-insoluble protective coating at least more than about 80% of the visible part of the spectrum at least 10,000 Ä is thick. be allowed through. This usually results in a highly reflective metal layer with a transparent, water-insoluble protective coating on the vapor-deposited metal layer being on the order of 25 to 125 Å thick. For metals suitable for vapor deposition, preferably from polyethylene terephthalate or polyethylene, are Aluisophthalate or an ethylene terephthalate-ethylene minium, zinc, copper, silver and gold.
isophthalate copolymer. By increasing the water-activated adhesives such as casein, skin