DE874093C - Foil insulation - Google Patents

Description

'Acetic known insulations against "Wärrne and cold, which consist of reflective metal foils which are laid parallel to each other so that arise between the individual foil layers of air. There are also specular K-unststoffolien known which are wave-like" pressed and moved so that the directions of these waves cross each other in the successive foils. The center distance of these foil layers from one another is about 500 to 100 times the thickness of the foil In vehicles, for example, to prevent the individual foils from coming into contact with one another and thus a decrease in the insulation value. In the case of metal foils, the insulation value of creased or corrugated foils due to the mutual contact of the metallic layers is in any case lower than that of flat foils this, touch is not so unfavorable, but the Ref Lesson value of these foils is lower than that of metal foils.

The new insulation is said to have the beneficial effect of metallic flat foils obtained and the disadvantages of touching adjacent foils by interposing them from non-metallic foils. Through a strong increase in such film layers and a reduction in the distance between the foils to about 10 times the thickness of the foil a high-quality, but space-saving insulation is to be achieved.

The new insulation is described in more detail below and is illustrated by the drawings. There is shown in Fig. I the cross section through the insulator foil with protruding intermediate film, Fig. II cross-section through the Folienisolitrung with folded down intermediate film, Fig. III cross-section through the insulator foil with continuous intermediate film, Fig. IV to 0 #nerschnitt tion by the Folienisolie with Foil attachment.

The insulation consists of numerous, flat, reflective metal foils i, between which there are foils 2 made of a non-metallic material, which protrude outward on all sides over the metal foils and thus prevent metallic contact with the individual flat foils. The intermediate foils, for example made of paper or plastic, can also be made flat, or they can be pressed in a waffle-like manner or perforated in order to reduce the contact area with the metal foils. In particular, the intermediate layers can also consist of reflective plastic films. The individual layers of the metallic and non-metallic foils can lie loosely on top of one another. However, they can also be glued or glued to the edges of the film or in places over the surface of the film or also continuously with one another. In the latter case, the glue layer itself can serve as an insulating intermediate film without any additional material 1. To fasten the insulation, the intermediate foils protruding at the edges can be folded over on one or more sides and thus form a fastening flange 3 . For manufacturing reasons, the intermediate film: 2 can also be designed as a sliding band 4. The foil insulation can also be held by existing structural parts or frames 5, which are tensioned against one another by non-metallic traction means 6. It is also important for this film insulation that, in contrast to previously known insulation, the film spacing is very small and that the insulating effect is achieved less through the layers of air in between than mainly through an extraordinarily large increase in the reflective films, so that. the space required for this insulation is low.

Claims (2)

PATENT CLAIMS. i. Foil insulation against cold and heat, thereby characterized in that numerous metallic mirror foils are laid at a small distance and are each separated from one another by non-metallic intermediate foils. 2. Film-insulation according to claim i, characterized in 'that the intermediate sheets niehtmetallischen rich with their edges on all sides beyond the edges of the metallic reflective foil. 3. Foil insulation according to -Anspruch i and: 2, characterized in that the intermediate foils are perforated or have impressions or consist of reflective plastic foils or only of layers of lacquer or glue. 4. Foil insulation according to claim i to 3, characterized in that the mirror foils and #the intermediate foils are glued together at the edges and / or point by point or over the entire foil surfaces. 5. Foil insulation according to claim i to 4, characterized in that the protruding edges of the intermediate foils are folded over like a flange. 6. Foil insulation according to claim i to 4, characterized in that the intermediate foils consist of continuous foil strips. 7. Foil insulation according to claim i to 3, characterized in that mirror foils and intermediate foils are held together by strips or frames or existing structural parts% e which are pressed against one another by non-metallic traction means.