DE2252237A1 - DEFORMABLE MULTI-LAYER INSULATING MATERIAL - Google Patents

Description

Deformable multilayer insulating material The invention relates to a Multi-layer insulating material, as well as from this material by punching and deforming Manufactured insulating parts To reduce the heat transfer from pipelines, Heat exchangers and other temperature-controlled aggregates to their environment lower Temperature insulation materials are used, which are built up from several layers are. The individual layers are taking into account the various possibilities selected for heat transfer. In the case of multilayer materials of this type, predominantly Metal foils with a low E; mission ratio e.g. aluminum, the heat radiation, Layers of a material of low thermal conductivity allow heat to be transferred through Prevent heat conduction in the direction of the temperature gradient. Multi-layer materials are known made of thin aluminum foils with layers of organic and inorganic fibers Such. Nonwovens or fabrics made from asbestos or glass fibers reduce the heat transfer However, these composite materials are due to their low mechanical strength and reluctant to narrow stiffness; not very suitable for processing molded parts, Around To remedy this deficiency, these two-layer materials are glued to a carrier sheet of sufficient mechanical strength and punched processed into molded parts When using adhesive bonds, e.g. with However, heat seal adhesives depend on the thermal resistance of the adhesive to the use of the insulation material limits, another disadvantage of glued multilayer insulation materials also consists in the fact that chemical degradation when exposed to temperature of the adhesive takes place, whereby the released substances usually an odor nuisance have as a consequence.

Mechanical connections between the metallic support and the actual insulating layer made of aluminum foil / fiber material z, 3, by rivets however, the insulation values deteriorate by creating heat transfer bridges.

The object of the invention is to create a multilayer insulating material, which has a low thermal conductivity and without impairing the Insulation properties can be processed into molded parts by punching and deforming and avoids the disadvantages outlined.

According to the invention, a multilayer material is provided, consisting from a carrier sheet, a layer of a heat insulating material e.g. asbestos or Glass fibers and an intermediate aluminum foil, characterized in that that the connection of the individual layers by stapling with out openings from the support sheet excavated prongs is formed, the heat-insulating layer can be made of a fabric, fleece or cardboard, organic or inorganic Fibers consist, The connecting prongs are made of the Carrier plate by means of breakthroughs in round, square or other geometric shapes formed and are chosen in height so that they are in the insulating layer penetrate, but do not pierce it.

These openings in the carrier plate have the further advantage of that a spherical deformation is made much easier and the resistance to bending is reduced will.

Joining the aluminum foil / thermal barrier layer with the serrated The carrier material can be, for example, rolled on with a low specific surface pressure take place. The connecting prongs penetrate the aluminum foil / thermal insulation layer one and are more or less unplaced, whereby the bracketing is achieved.

This mechanical interlocking of the carrier plate and aluminum foil with a thermal insulation layer there is only one point contact with the aluminum foil, so that the heat transfer through conduction is kept low.

On the other hand, this interlocking is sufficiently strong that it can be punched out and embossing into molded parts, the layers do not become detached. By omission a temperature-dependent adhesive can therefore also be used with this thermal insulation material Much higher temperatures can be used, due to this special arrangement and connection 'was also created an insulating material that is comparable to Materials has a much more favorable coefficient of thermal conductivity.

Of importance here is the special effect that between the carrier plate and aluminum foil created additional air chambers as a result of the perforations It is within the scope of the concept of the invention that the carrier sheet is not only one-sided, but to provide openings on both sides and an aluminum foil / thermal insulation layer on both sides to raise.

Favorable coefficients of thermal conductivity are also achieved if the heat-insulating Layer e.g. consists of asbestos cardboard, which is used to create a higher proportion of dead Buftråumen Has impressions or elevations, or else perforated similar to a perforation.

The invention is described below with reference to the drawings further explained: In Figure 1, the insulating material according to the invention is in an enlarged Scale shown in cross section.

With (1) the carrier is designated, from which the openings (4) are pushed out are and form the interlocking prongs (5). Between the insulating layer (3), e.g. asbestos fabric and the carrier material with openings is the Metal foil (2), e.g. aluminum, arranged. Between the carrier material (1) and the Air chambers are formed, which are marked with (6).

Figure 2 shows the plan view of the heat insulating layer, wherein with (3) a fabric with (7) a perforated asbestos cardboard is designated.

In Figure 3 is a thermal insulation layer with embossing (8) with (9) one shown with surveys.

Claims (6)

Claims Multi-layer insulating material preferably consisting of a carrier Sheet metal, a layer of insulating material, and one in between Foil with a low emission ratio e.g. aluminum, characterized by that the connection of the individual layers with the carrier plate by clamping is formed with prongs excavated from breakthroughs in the carrier. 2. Multi-layer insulating material according to claim 1, characterized in that that the insulating layer made of a fabric, fleece or cardboard of inorganic or organic fibers. 3. Multi-layer insulating material according to claims 1 and 2, characterized characterized in that the insulating cardboard is perforated. 4. multilayer insulating material according to claims 1 to 3 ,. characterized in that the cardboard is embossed or Has elevations. 5. Multi-layer insulating material according to claims 1 to 4, characterized characterized in that the height of the prongs formed by the perforation is lower is than the total thickness of the multilayer material. 6. insulating parts made of multilayer insulating material according to claims 1 to 5, characterized in that they are stamped or pressed after stamping be shaped. L e r s e i t e