DE755294C - Process for the production of peel-off embossing films - Google Patents

Description

Method of Making Peel-Off Embossing Sheets The invention relates to an improved method of making release embossing foils.

Peel-off embossing foils are known to consist of a metal layer which is connected by means of wax to a carrier made of paper or cellulose glass skin; as is well known, the wax allows the. Metal layer from the carrier, «-If the foil z. B. is heated by a hot die. Furthermore is a Primer, such as a layer of glue, on the front surface of the metal layer available, which is used to attach the metal layer to the object to be embossed. Gold and its alloys are mostly used as metals. one has however also embossing foils e.g. made of aluminum or silver.

The production of stamping foils is usually done in such a way that gold leaf is applied to a next carrier and then primed. One also has release embossing foils made with a gold or metal layer that is thinner than gold leaf or the like. is by applying the gold or the like metal to a waxed support by cathodic sputtering has deposited.

According to the invention, the. Production of an embossing foil in such a way that that the support and a metal in -a Vacuum vessel to be enclosed, under vacuum the metal to a temperature above its vaporization point is heated and the vaporized metal has the opportunity to precipitate is given on the wax layer of the support.

This process enables the production of foils from metals, which cannot be beaten to thin sheets, such as nickel, cobalt, chromium. In addition, metal evaporation works more economically (faster) than cathode sputtering. Peel-off embossing foils can also be produced by the method according to the invention are known to have a layer of precious metal, e.g. B. of gold, platinum, Palladium, or its alloys, on a layer of a relatively cheap Wear base metal.

In the case of a peel-off embossing film, it is known that the metal layer must have a have a certain minimum thickness, and- it can be produced by producing one of several metals composite layer the necessary metal thickness can be achieved using a smaller thickness of noble metal than that used to produce a noble metal layer alone would be permissible. This can significantly reduce the cost price of the film -%-"earth.

The base metals selected for the composite layer are those that not be alloyed with the precious metal by diffusion; for the metal that comes with If it comes into contact with leather or other ground, they naturally become metals chosen that are not attacked by the material in question.

Base metals suitable for the composite layer, can generally not be economical by cathodic sputtering from the vapor phase because these metals are too slow to deposit. However, metal evaporation in a vacuum can precipitate these metals just as quickly become such as gold.

Examples of metals that can be used for a release embossing foil with only one Metal layers are good because they do not tarnish easily and are good. Platinum. Palladium and its alloys, as well as I% obalt. Chrome. = Aluminum and _ \ luiiiinittmbronzen. Examples of metals. clie as the base metal of a composite layer suitable are nickel. Cobalt, chrome and copper.

The method according to the invention is carried out in the following manner that the carrier finite a layer of Waclis o. The like. Coated and then in a Vaktiunigefäß is introduced, which preferably means for continuous Owns evacuation. The metal to be deposited is then brought to a temperature heated above its evaporation point at that prevailing in the chamber Vacuum lies; this causes the metal to deposit on the carrier. If the release embossing foil is to have a layer of only a single metal, so the crackdown continues until a layer of sufficient thickness is preserved. When the release stamping foil is a composite layer of a precious metal and a base metal is supposed to have, then the precipitation of the precious metal is stopped For reasons of economy, only carried out a relatively short time. Here can the layer produced will be thinner than the thickness required for a satisfactory one Embossing on a rough surface would be required, or to change the color of the precious metal to maintain. The procedure is then carried out in the same or a similar apparatus repeated by depositing a base metal on the noble metal layer. Then it will be. the metal layer primed, e.g. B. with glue or another adhesive overdrawn.

For example, an embossing foil can be produced with an aluminum layer o, oooi min thickness in a vacuum of o, ooio to o, oo25 mm of mercury; as a heating element Tungsten was used at a temperature of 1000 to 2.250 ° C, to which a Aluminum wire was brought. This film can, for. B. for applying decorations or letters made of aluminum on leather can be used by the heated letters or the like in the form of a stamp with the film in the usual way, whereupon the foil backing is peeled off.

As an example of a gold composite stamping foil with an extraordinary thin gold layer, the layer can first be in a thickness of about o, oooo3 mm and then aluminum can be deposited in a layer thickness of about 0.0001 mm. The same vacuum can be used but requires evaporation of the gold wire a temperature of the heating element of 1.75o to i, Sool C.

The description of how to carry out the procedure is for explanation purposes only mentioned devices are inherent and do not form part of the invention.

The deposited precious metal or base metal can also be a LeSierunri be, and a composite layer can be made up of a layer of precious metal and order two different base metals. So can a copper or 1 layer of nickel deposited on the precious metal and a layer of aluminum turn on the copper or nickel. This protects the precious metal from that there is some diffusion of aluminum into the noble metal.

When the metal to be deposited is an alloy. it will be on heated to a temperature above that present in the vacuum applied Evaporation point of the alloy component that has the highest evaporation point possesses, and the term evaporation point of the metal is to be understood here as that the evaporation point of the alloy component with the highest evaporation point is meant when the metal is an alloy.

However, a metal can also be deposited from a mixture, the other constituent of the mixture is a metal with a significantly higher evaporation point is. The mixture is then heated to a temperature above the point of evaporation of the metal to be deposited, but below the evaporation point of the others metallic mixture component.

The carrier body is preferably used in the form of a roll, those in the vacuum vessel during evaporation or precipitation from a coil is rewound to another. This allows the size of the vacuum vessel to be generated a large sheet of film can be considerably limited.

The deposition of metals from the vapor state in a vacuum for The production of mirror coverings on glass or organic materials is already in progress known and technically carried out, so. that the process itself is no further Description required. A peel-off embossing film can be produced using the method described Manufacture with a composite metal layer in which the strength of the precious metal is less than 40 microns, and the total thickness of the film can be so great that it is suitable for embossing on rough material.

Claims (3)

PATENT CLAIMS: i. Process for the production of release embossing foils, which consists of a carrier, a wax, a z. B. precipitated from the vapor phase There are metal and an adhesive layer, characterized in that the wax layer leading carrier and a metal are enclosed in a vacuum vessel, below Vacuum heats the metal to a temperature above its evaporation point and the vaporized metal has the opportunity to deposit on the wax layer of the Is given to the carrier. 2. The method according to claim i, characterized in that on the wax layer of the carrier first a film of a precious metal, such as gold, platinum, Palladium or its alloys, 'and then a film of a less noble base metal or whose alloy is precipitated. 3. The method according to claim 2, characterized characterized in that a further film is applied to the base metal or its alloy a different base metal or its alloy is deposited. To differentiate the subject matter of the invention from the state of the art, the granting procedure the following publications have been considered: German Patent Specifications No. 631 304 642 447; British Patent No. 478 9i6.