DE3211764A1 - Composite sheet-like material for insulation purposes - Google Patents

Abstract

The invention relates to a composite sheet-like material for insulation purposes comprising a plurality of interbonded layers of material. Such a composite material is used in particular for pipe insulation. The composite sheet-like material, with coating on one side, is composed of at least two layers. Adhesively attached on a relatively thick sheet-like material layer of a flexible foam there is provided, for example, a layer of asbestos paper. On the asbestos paper itself there is then an aluminium foil attached on the outside.

Description

description

The invention relates to a sheet composite material for insulation purposes made of several interconnected layers of material.

For insulation purposes, especially for the insulation of pipes, it is known to use composite materials consisting of a layer of flexible foam and another layer applied on top. This on the soft foam The attached layer is either a thin layer of asbestos or a very thin single layer Aluminum foil. In order to have the best possible thermal insulation, but also possibly flame-retardant To be able to produce an insulation layer, soft foam was normally used flame retardant ingredients added. This made the known composite material more expensive.

On the other hand, it has been customary to use such a composite material Example to produce pipe insulation as a molding material. This too required higher production costs and also brought the disadvantage of a relative restricted range of applications.

The invention is therefore based on the object of a sheet composite material to create a reliable insulation and inexpensive production a versatile use allows.

This task is achieved in the case of a surface composite material of the generic type solved by the features of the characterizing part of claim 1.

The composite material according to claim 1 consists of at least two layers. Here, a heat-reflecting layer can be used as the only top layer and a surface material that conducts heat well. Preferably, however between this top layer still a heat-insulating sheet material arranged, so that a three-layer composite material is formed. on the soft foam consisting of a sheet material is either one-sided or optionally a first layer of a further heat-insulating layer on both sides second surface material applied. Connected to this second sheet material is another layer of thin metal foil. The heat-insulating to flame-retardant, possibly even a fireproof first layer, which is applied to the flexible foam is, takes the place of flame-retardant components, which according to the state the technology are provided in the flexible foam. That extra first layer is chosen from a thin pliable material, preferably an asbestos paper and especially a white asbestos paper with a thickness of about 0.5 mm. This asbestos paper is by means of a cold glue on the layer of flexible foam, which is normally a thickness of about 10 mm to 100 mm is applied.

Another layer is placed on top of the asbestos paper as the outer layer Layer of a metal foil, also preferably with a cold adhesive, is provided. The outer metal foil thickness is about 0.05 to 0.15 mm and more preferably 0.10 mm.

Due to the two-dimensional production of the one-sided coating composite material consisting of three layers becomes a favorable manufacturing cost level achieved, whereby the application possibilities almost the entire isolation range include. In particular, this composite material is also suitable for insulation of pipes that carry heating fluids, steam or the like, for example. as well this surface composite material can also be used to insulate air ducts and garage doors or doors, walls and ceilings, but also for sound insulation. The composite material has a permanent temperature resistance in the range of -600C to + 800C, so that it is also suitable for cold insulation.

Usually the composite material is made into panels or as well produced in sheets, with polyurethane as flexible foams or Polyethylene are particularly preferred, with a layer thickness of up to about 100 mm. A white asbestos paper is normally laminated onto this, with the asbestos paper even provided on the outside with an aluminum foil or aluminum alloy foil is. However, the aluminum foil can also be heat-sealed onto the asbestos paper be applied, while cold bonding is preferred over flexible foam will.

The main function of the outer aluminum foil is from the outside reflecting radiant energy incident on the composite material. she serves but also, better heat dissipation when the inner two are heated locally Layers or the inner layer to allow.

In order to produce an even more cost-effective surface composite material, that still achieves a comparable insulation quality is preferably used Instead of the asbestos paper, put a flame-retardant paper on top of the soft foam first applied layer. This flame retardant paper is much cheaper than normal asbestos paper or white asbestos paper, so that it even lends itself to to build up the first layer with several layers of this flame retardant paper. A particularly favorable relation between the achievable insulation quality and the manufacturing and material costs are achieved if 2 layers make this difficult flammable paper can be used.

The 2 layers can be done using a commercially available cold glue be connected to each other. Regardless of the number of layers of the flame retardant The top layer of the first layer of paper is an aluminum foil with a Laminated film thickness of approx. 10 µm to 70 µm.

The film thickness is preferably in the range of 40 #m.

An alternative way to make the sheet material relatively inexpensive build up consists in that the first and second layers, which are on the flexible foam is firmly applied, summarized you replaced tallfolienschicht will. In contrast to the prior art, this metal foil layer has a relatively strong layer structure, which is preferably in the range of 1/10 mm lies.

With this metal foil layer there is the option of replacing a single layer, which is preferably made of aluminum, several of these layers, for example in the sense of a glued laminate, directly on the soft foam to apply firmly.

Above all, the composite material can be used as an insulating membrane Dimensions of around \ 1 m wide and up to 20 m long, but also as an insulating board with a width of about 0.5 m and a length of about 1 m can be used. It is particularly suitable as an insulation jacket for pipes of any diameter. Since no jormmaterial but a sheet material is used, only the appropriate cutting of the composite material for the insulation of pipes necessary. After cutting the composite material according to the outer diameter of the pipe to be insulated, the composite material is placed around the pipe, the Deformation of the composite material occurs essentially in the flexible foam, so that a fictitious zero level line after the sheathing, for example on asbestos paper, specifically the inner layer of which occurs.

The fixed connection in such a pipe sheathing can by means of an aluminum adhesive tape, for example according to DIN 4102fKl, which is in the area of the butt joint of the butting cladding composite materials to the outer Metal foil is glued on. By using this aluminum adhesive tape it is achieved that also in the area of the joint gap the heat or cold insulation and also the Reflection from externally incident radiation energy is managed almost optimally.

When joining together abutting surface composite materials and the subsequent gluing, for example by means of an aluminum adhesive tape in the joint gap area, the entire surface composite material can be combined with the adjacent Overlap composite material. Suitably, only the the top two layers may be wedge-shaped overlap. at Such a connection is also possible with the upper two layers of asbestos paper and aluminum foil at one end of the composite sheet material Let the soft foam survive while doing these two top layers at the other end of the flexible foam at a corresponding distance from the edge of the soft foam ends. This distance preferably corresponds to the protrusion of the two upper layers of the composite material coming to lie against it.

The one for connection to the outer metal foil of the composite material Any aluminum tape that is stuck on has a width that matches both the overlap of the individual layers as well as the joint gap area of two adjacent composite materials covered.

This laminate overlapping technique is preferred used for pipes with a smaller diameter. Can also be used as an assembly aid A half-shell can be used until the actual adhesive tape covers the two sheet materials closely connects.

The invention is based on two the basic structure below or the connection principle of schematically depicting drawings is explained in more detail. 1 shows a fragmentary section through the layers of a sheet-like composite material; 2 shows a fragmentary section through a sheet-like composite material in the area of the joint gap and perpendicular to it with overlapping upper layers and FIG. 3 a section like FIG. 2 through another embodiment of a sheet composite material.

Hin lacenverbundmaterial 1 according to FIG. 1 consists of three Scluicluten. The lower layer of, for example, flexible polyurethane foam 2 comes against the to be insulated object. On the one facing away from the insulating object A KalL bond is usually a relative feature on the flexible foam thin white asbestos paper layer 3 laminated. This white asbestos paper layer 3 is on the outside with an aluminum foil with a thickness in the range of O, ü75mm.

The connection between the individual layers is preferred caused by a cold glue 5,6. With a thickness of the asbestos paper of approx. 0.5 mm, the entire surface composite material has a thickness that is decisive the strength of the flexible foam is determined. This strength of the flexible foam can range from about 1 cm to 10 cm.

In Fig. 2 is the use and connection of a sheet composite material shown according to the invention. The isolation can be seen as an example take place in one plane; however, the composite material is preferably used for Pipe insulation used. So thoughtfully, it closes at the bottom of the Section according to Fig. 2 of the actual pipe jacket.

The two abutting surfaces 13 and 14 of the sheet composite material are in the embodiment of FIG. 2 with protruding upper two at one end Layers 3 and 4 equipped. This protruding end of the top two layers 3 and 4 is shown when using the two end regions of the composite material in placed in an overlapping manner on the top metal foil layer of the other end. Both the overlapping area 12 and the abutting surface 11 become outside as a whole glued together tightly with an aluminum tape, so that a solid connection exists between the two ends of the sheet composite material.

The composite material achieved in this way with the structure made of a flexible foam that does not contain any flame-retardant components, but does instead with a layer of asbestos paper, which is quite in the range of 0.3 mm to 0.8 mm thick, is therefore on the one hand particularly cost-effective and on the other hand has good flame-retardant to fire-resistant properties on, whereby the foam does not move even in tests with high exposure to heat inflamed.

FIG. 3 shows a further exemplary embodiment of a sheet-like composite material. In principle, the fragmentary section of the composite material is similar constructed like the one from FIG. 1. In contrast to the composite material from FIG 1, in the example according to FIG. 3, there is the first one applied to the flexible foam Layer in total of three relatively thin, flame-retardant paper layers 31, 32 and 33. These three paper layers 31 to 33, which are themselves, for example, by means of cold glue 7 are connected to form a single laminate, are usually initially separated manufactured as a three-layer layer. The three-ply layer produced in this way is then Firmly applied to the flexible foam in one operation. In another The outer aluminum foil is then included, depending on the desired insulation criteria Glued on with a thickness between 10 µm and 70 µm.

Of course, it is also possible, or even more advantageous, if the first layer consists of three flame-retardant paper layers in one subsequent lamination process is provided with the aluminum foil. The laminate composite The first layer 31, 32, 33 and the second layer 4 are then made using an adhesive process fixed on the surface of the flexible foam 2.

Claims (17)

Flat composite material for insulation purposes Patent claims 1. Flat composite material for insulation purposes from several interconnected layers of material, thereby it is not noted that a sheet of flexible foam (2) one or both sides with at least one layer (3, 4) insulating and / or heat-reflecting and heat-conducting sheet material is provided. 2. sheet-like composite material according to claim 1, characterized in that g e k e n n z e i c h n e t that the layer is designed as a thicker metal foil. 3. sheet-like composite material according to claim 1, characterized in that g e k e n n z e i c h n e t that the sheet material made of soft foam (2) with a first layer (3) a thermally insulating second sheet and a second bonded thereto Layer (4) is provided with a metal foil. 4. Laminate material according to one of claims 1 to 3, characterized It is not noted that the flexible foam (2) is made of polyurethane or polyethylene consists. 5. Laminate material according to one of claims 1, 3 or 4, characterized It is not noted that the first layer (3) is made of flame-retardant paper is constructed. 6. sheet-like composite material according to claim 5, characterized in that g e k e n n z e 1 c h n e t that the first layer (3) of at least two layers (31,32,33) is heavy made of flammable paper. 7. Laminate material according to one of claims 1, 3 or 4, characterized it is noted that the heat-insulating second flat material (3) is a Asbestos paper, especially a white asbestos paper, is. 8. Laminate material according to one of claims 2 to 7, characterized it is not noted that the metal foil (4) has one or more aluminum or Has aluminum alloy layers. 9. composite material according to one of claims 1 to 7, characterized it is noted that the layers (2,3,4) of the sheet materials by means of a cold adhesive (5,6) are connected to one another. 10. Laminate material according to one of claims 1 to 9, characterized It is not noted that the flexible foam (2) has a thickness of about 10 mm to 100 mm. 11. Laminate material according to one of claims 7 to 10, characterized It is noted that the asbestos paper (3) is approx. 0.5 mm thick. 12. Laminate material according to one of claims 2 to 11, characterized it is noted that the metal foil (4) is approximately 0.05 mm to 0.15 mm, in particular 0.1 mm thick. 13 composite material according to one of claims 5 or 6, thereby It is not noted that the second layer is a laminated aluminum foil with a film thickness of 10 µm to 70 µm, in particular about 40 µm. 14. Laminate material according to one of claims 1 to 13, characterized it is not noted that an insulating membrane with dimensions of about 1 m wide and 20 m in length or an insulating board about 0.5 m wide and 1 m long is. 15. Use of a sheet composite material according to one of the claims 1 to 14 for the insulation of pipes. 16. A method of using a sheet composite material according to a of claims 1 to 14 according to claim 15, characterized in that the surface composite material to a width corresponding to the outer diameter of the Pipe is cut, that the cut sheet composite material is placed around the pipe with the metal foil facing outwards and that the abutting Ends of the composite material in the area of the joint gap with a metal adhesive tape be firmly glued. 17. The method according to claim 16, characterized in that it is e t that the metal tape has an inner layer of asbestos paper.