DE4330094A1 - Mfg. food containers with high m.pt. - by coating paperboard board containers with layer of melted mineral powder - Google Patents

Abstract

In mfr. of food containers, e.g. margarine or yoghurt tubes, with a high m.pt. using paperboard, the paperboard containers are coated with a layer of melted mineral powder. The layer is introduced into a hot carrier gas in the form of particles and melts in the gas. The container is initially coated on the inside with simultaneous cooling from underneath and lateral outside cooling. The outside is coated subsequently with interior cooling. ADVANTAGE - The containers are light and easy to dispose of through reuse. They are suitable for foodstuffs.

Description

The invention shows a method for producing vessels from organic substances and substances with a high melting point.

Vessels are required for transport and storage of food among other things. These vessels are either fragile made of glass and heavy or plastic and then a problem of disposal or recycling.

It is therefore an object of the invention to demonstrate a method with which vessels can be made are light and easy to dispose of by recycling in a known manner and usable for food.

The object is achieved by the Claim 1 solved.

Cardboard tubes are covered with a layer of melted Rock powder coated. First, these paper cups and other vessels made of organic material cold with a coating of a substance with a high melting point provided, such as a layer of lime or thinly applied Layer of clay and dried. Even the organic matter can Special paper with a high proportion of kaolin. After that such a vessel placed on a cooling surface and like tongs surrounded by two half-shells, which also cool the vessel. The cooling from below and the sides prevented heat damage to the vessel in the following Coating with the high melting point fabric. Therefore a gas stream flows into the vessel and carries molten particles a substance with a high melting point on the vessel wall on. The gas flow as the carrier gas has such a high temperature as is necessary to melt the particles.

After the particles have been released onto the wall of the vessel, this becomes Aspirated and reheated carrier gas and used again. This coating process runs as quickly as necessary is, together with the external cooling, heat damage to the avoid organic material. After the inner coating  the container is coated on the outside. For this the vessel put on a holder with the bottom of the vessel behind above. The bracket now takes over the cooling and cooling the vessel from the inside, while the fan flow, the carrier gas, applies the particles of the substance with a high melting point. The outer coating can be made of colored mineral and moreover a wafer-thin coating made of melted glass.

The advantage of the process is the production of vessels from pure natural materials such as wood and stone powder. These containers would be food-safe and usable for them, also light and could be machine washable. They would be easy to dispose of, because after grinding it was enough soaking in water to separate the organic Materials from mineral rock powder.

Claims (3)

1. A method for producing vessels from organic substances and substances with a high melting point, characterized in that
the organic substance has the shape of the vessel to be produced,
the vessel stands on a cooling surface and is surrounded by two cooling, folding half-shells,
the vessel has already been cold-coated with a mineral coating,
the substance with a high melting point in particle size is blown into the vessel onto the vessel wall as a uniform layer,
the carrier gas has the high temperature necessary for melting the particles and, after the particles have been released to the vessel wall, is sucked off and reheated for reuse,
the intensity of the cooling and the speed of the process sequence protect the vessel or its organic matter from heat damage,
for the outer coating the vessel is turned over and put on a suitable holder,
this bracket provides cooling from the inside. 2. The method according to claim 1, characterized in that the high-melting, colored mineral coating applied on the outside is with an additional order of glass coating. 3. The method according to claim 1 and 2, characterized in that that the container is moist during the inner coating and is dried before the outer coating.