DE2022381A1 - Insulating packing for storage containers for liquefied - gases - Google Patents

Abstract

The packing for storage containers for liquid N2 or He has alternate layers of strongly reflecting Al and poorly conducting pref. vinyl copolymer layers, applied to a carrier sheet of tear-resistant material, pref. Al foil, or polyester or polyimide foil, evaporation-coated on both sides with Al.

Description

SuperisolaticnsPackum The invention relates to a superinsulation pack With a large number of alternating layers, the heat radiation is strong reflective and poorly conductive materials.

To maintain low temperatures, such as B. in storage of liquefied gases such as nitrogen or helium, it is necessary to avoid exposure to heat to keep the outside as small as possible. To achieve this it is known in the evacuated space between an inner container containing the liquid gas and an outer container, a superior insulation packing made of a plurality of radiation shields, in particular metal sheets or plastic films that are covered on one or both sides with Iletall are coated, bring between them alternating layers of the Heat poorly conductive material, in particular made of plastic, are arranged. The heat transfer through this super-insulation packing occurs essentially through heat radiation and heat conduction. With an increasing number of radiation shields the heat radiation decreases. A greater thickness of the insulation layers causes a] rise in heat radiation. However, the greater the radiation density the more difficult it will be to remove the individual radiation shields through the spacer or to keep insulation material separate from each other. Even when winding each one Form layers or in case of slight mechanical stress of the super insulation packing there are so many contact points between the individual radiation shields that the Decrease in heat radiation due to the large number of radiation shields the increasing heat conduction over these contact points more as is compensated. The great pressure sensitivity of the well-known super-insulation packages, which only allow a relatively low radiation shield density of up to 50 layers per cm, is increased by the fact that the layers are loosely placed on top of one another.

The object of the present invention is to provide a super-insulation pack to create that has a large radiation shield density and largely in the practically occurring pressure area is insensitive to pressure.

This object is achieved according to the invention in that the alternately arranged layers from the heat radiation strongly reflecting and from the heat Poorly conductive materials on a carrier film made of tear-resistant material are upset.

With this structure according to the invention, the super-insulation packing can considerably larger, d. H. functional radiation shield densities, e.g. B. up to 10 000 layers per cm can be achieved.

The super-insulation package according to the invention shows when pressing about 1 kp / cm2 no appreciable increase in the proportion of heat conduction, so that the entire Heat flow through these super insulation packs is greatly reduced. The mechanical Loads are essentially absorbed by the carrier film and have an effect does not focus on the actual super-insulation pack.

The carrier film can advantageously be made of aluminum or of Plastic coated with aluminum on both sides, in particular polyester or polyimide exist.

In an advantageous embodiment of the invention, the heat radiation reflective layer, made in particular of aluminum, on which the heat poorly conductive layer, in particular made of plastic, such as surface rough Vinyl copolymer consists, on vaporized, whereby the l'nniniumschicht through the adhesive effect of the vinyl copolymer acting at elevated temperature fixed adheres to the plastic layer. Because of this firm adhesion of the individual layers The pressure sensitivity of the super-insulation packing according to the invention is still one on top of the other increased.

In another embodiment, there is the poorly conductive layer made of water glass. This super insulation pack has the advantage that it is not flammable is. It is therefore particularly suitable for insulating oxygen containers.

A particular advantage of this compact super insulation is its lightness processing. To z. B. to apply 50 radiation shields only need one or two drager foils with a corresponding number of vapor-coated shields and intermediate layers are introduced into the vacuum space or on that to be isolated Part to be applied, which is very important with conventional super-insulation Weight falling manual labor time of hammering in the ends when insulating cylindrical Body significantly reduced.

Two embodiments of the invention are shown in the figures.

1 shows a superisolation pack in section with a Plastic film vapor-deposited on both sides as a carrier in section with an aluminum foil as a carrier.

In FIG. 1, aluminum layers are on both sides of the plastic carrier film 1 2 evaporated. On the right side, alternating layers of insulation are then closed 3 made of vinyl copolymer and evaporated aluminine layers 4 on. It can be achieve a layer density of up to 10,000 per cm.

In FIG. 2, in place of the plastic carrier film 1, there is an aluminum carrier film 1 'provided, on the right side alternating insulation layers 3' and vapor-deposited Aluminum layers 4 'are arranged.

Claims (4)

Claims 1. Suerisolaticnspackung with a variety of alternately arranged Layers made of highly reflective heat radiation and poorly conductive heat radiation Materials, characterized in that these layers are on a carrier film made of tear-resistant Material are applied. 2. Super insulation pack according to claim 1, characterized in that gekeo that the carrier film is made of aluminum or plastic coated with aluminum on both sides, in particular polyester or polyimide. 3. Super insulation packing according to claim 1 or 2, characterized in that that the thermal radiation reflecting layer, in particular made of aluminum consists on which the heat-poorly conductive layer, in particular made of plastic, such as vinyl copolymer, is vapor-deposited, with the aluminum layer through the adhesive effect of the vinyl copolymer at elevated temperature adheres firmly to the plastic layer. 4. Super insulation packing according to claim 1 or 2, characterized in that that the poorly conductive layer consists of water glass. L e r s e i t e