DE3708847A1 - Insulating panel - Google Patents

Abstract

Insulating panel consisting of a largely light-transmissible capillary-structured core of low density with transparent cover layers on both sides and with a relatively high density border structure which is profiled at its periphery, which insulating panel is characterised in that the transparent cover layers are attached to said panel only at the circumferential structure, as a result of which material combinations are possible between the capillary panel core and cover layer which lead to improved properties of the insulating panel.

Description

In patent application 00 658 / 86-3 dated February 19, 1986, the Design of an insulating plate has been described, which in addition to their heat and cold insulation properties ins ensures particularly high light transmission and application technically through a profiled and compacted plate fang shape allows easy assembly. they is characterized in that it consists largely of a translucent capillary structured core less you te with transparent cover layers on both sides and a profiled outline structure larger on its circumference Has density.

The additional patent application is the special one below Design of such a plate claims the deck layers only attach to the peripheral structure to this, with which material combinations between Ka pillar plate core and outer layers are made possible lead to improved properties of the insulating plate.

The above patent application assumes that it is a Series-produced capillary plate used, the z. B. of thermoplastic plastic capillaries made of polyethylene terephthalate, polycarbonate, polymethacrylate or polystyrene  is formed and which on the plate surfaces at the Tube ends of the capillaries abge through cover layers are closed.

In contrast, the plate design claimed here uses tion capillary plates, which on the plate surfaces no closure at the tube ends of the capillaries have the top layers.

The capillary ends are open and are through the deck layers just covered. For holding the cover layers is only an attachment to the plate edge, d. H. at the profiled outline structure made.

This bracket can be continuous on the border structure run, but it can only be a line or a point be shaped.

It is preferably used as a welding or adhesive Ver binding executed. A continuous on the plate circumference binding line, (which in practice has a small width has elongation and thus results in a flat connection) the advantage of sealing the formed by the capillaries th airspace to prevent the ingress of dirt or moisture.

It is also possible not to mount the bracket immediately res connecting between cover layers and plate edging structure, it can also be done by clamping the Top layer edges on the peripheral structure by means of a border profiles can be made.

Sealing of the capillary structure is also possible here due to the precise design of the border profiles.

The attachment of the cover layers only at the edge of the Ka pillar plate has the particular advantage that it is not necessary on the plate surfaces by welding or adhesive technology connections the tube ends of the capillaries and that  entire capillary structure through the surface layers to have to close. The advantage is - besides the one saving of manufacturing processes - especially in that the passage of light through the plate is not or is hardly reduced, because every welding or sticker ben transparent cover layer materials on the capillaries This would result in an optical disturbance that could be negative affects the passage of light.

He brings the plate construction claimed here significant improvement in light transmission compared to the in the main application 00 658 / 86-3, with Cover layers of capillary ends formed Plates.

Another advantage of the configuration according to the invention an insulating plate results from the possibility Use top layer materials that are used for capillary structure tured plate are "alien". This means that cover layers can be combined to form plates that otherwise only with complex measures on the capillary to be attached to the surface.

A special example is a capillary plate made of poly called carbonate tubes with a transparent top layer made from a polyvinyl fluoride film (trade name "Tedlar") to be covered. Such a combination has the exception neat advantage of very good weather resistance.

Without measures of pre-treatment of the adhesive Capillary ends and foil, the application of an adhesive and the adhesive welding between such Foil and the capillary end surfaces with the described Light transmission reduction would be one of the applications material combination is not possible at all if you have one Cover layer termination of the capillary ends required.

Here brings the plate according to the invention in the claim design a very advantageous solution.  

In addition there is a further, very considerable advantage when combining unsealed capillary plates with "overstretched" cover layer films:
After attaching to the edge of the plate, the film can be subjected to a shrinking process which places it closely on the surface of the plate. The prerequisite here is the use of shrinkable cover films and - since the shrinking process has to take place under the influence of heat - a corresponding heat resistance of the capillary plate.

The combination described above is again an example listed: polycarbonate capillary plate with polyvinyl fluoride top layer film.

Also shrinking polymethacrylate film onto poly carbonate capillary plates or on polymethacrylate Capillary plates (whose thermal resistance was higher gen must than the shrink temperature to be used Cover film) is possible.

From the following figures are some examples of Ausge staltung the plate according to the invention can be seen. The For the sake of clarity, drawings are to scale shown distorted.

Fig. 1 shows a cross section through the width of a pillar plate, the cover layers of which are thermally welded to the plate border in a sealing manner. At the ends of the slabs, which are not visible here, the same process is carried out, with the top layer edges at the slab corners having been given incisions or cutouts.

The cover layer 1 is a polycarbonate sheet, the capillary plate 2 consists of polycarbonate capillaries, the profi lined border 3 is thermally formed on the capillary plate and the cover layer edges are thermally welded to it.

Here, as in Fig. 2, the cover layers with stand from the plate surface are drawn to show that on the plate surfaces there is no attachment of the cover layers to the tube ends of the capillaries.

In Fig. 2, a cross section through a plate is shown, which shows another border profile, on which the cover layers 1 with an adhesive (not shown here) be fastened.

The capillary plate 2 consists in this example of poly methacrylate, the cover layers 1 consist of a poly vinyl fluoride film.

FIG. 3 shows the same plate as FIG. 2, but here the cover layers 1 lie directly on the plate surface after a shrinking process.

Finally, in Fig. 4, a plate combination is provided, which is formed from a capillary plate 2 consisting of Po lycarbonate capillaries with covering layers 1 consisting of polyvinyl fluoride film, and a border profile made of plastic foam 4 . The Deckschich th 1 are clamped by means of the border profile 4 on the circumference of the capillary plate 2 . They were stretched after assembling the plate construction by a thermal shrinking process, so that they could immediately adapt to the plate surface shape.

The contact surfaces between the plate surface or plates edge and the top layer film, as well as between the border Profile and cover layer film are clearly shown in the picture drawn for the sake of space. In reality these contact surfaces are close together.

Claims (7)

1. Insulating plate, consisting of a largely translucent capillary structured core less you te with double-sided transparent cover layers and with a profiled peripheral structure of greater density, characterized in that the trans parente cover layers have only one attachment to the peripheral structure to this. 2. Plate according to claim 1, characterized in that the Fastening by welding or adhesive Ver binding is made. 3. Plate according to claim 1, characterized in that the Attachment by clamping the top layer edges the circumferential structure by means of border profiles is taken. 4. Plate according to claims 1, 2 and 3, characterized net that after fixing the top layer edges other surface layers a shape adjustment to the Capillary plate surfaces by a thermal Received shrinkage process. 5. Plate according to claim 1, characterized in that it from a combination of a polycarbonate capillary plate tenkernes with cover layers made of polyvinyl fluoride film consists. 6. Plate according to claim 1, characterized in that it from a combination of a polymethacrylate capillary plate tenkernes with cover layers made of polymethacrylate film consists. 7. Plate according to claims 1 and 3, characterized in that the border profiles from a plastic foam consist.