NO140004B - SEALING STRIP FOR INSULATING MULTIPLAYER WINDOWS - Google Patents

Description

The present invention relates to a sealing strip which serves as a spacer, arranged along the edge of a plate in the production of multi-layer windows comprising at least two transparent or translucent plates which are separated from each other at the periphery by means of said strip.

In the following description, reference is made to windows with glass panes, but this of course implies no limitation in the invention.

It is known that the sealing strips form a joint which has a dual role; on the one hand, it ensures that the air space between the plates becomes tight, and prevents steam and stbv from penetrating into this air gap, and on the other hand, it holds the aforementioned glass panes firmly in place in relation to each other at a given distance.

These joints, which are formed by the sealing strips, consist, when they are made of plastic material, of an inner strip of a first plastic material of the polyisobutylene type and of an outer sealing compound of another plastic material of the silicone or polysulphide elastomer type. This sealing compound is sprayed between the strip and the edge of the glass panes and due to the compound's excellent adhesive properties, it holds the panes in the correct position while helping to ensure tightness. The inner list serves, among other things, as the spacer that separates the panes and that maintains the desired space between them. Finally, to ensure that moisture trapped in the air space between the panes of glass is absorbed, a wetting agent such as silica gel, colloidal silicon or a substance of the molecular filter type is introduced into the inner strip.

The sealing strips in insulating multi-layer windows can be made from sticks of thermogelatinizing and self-adhesive material of the "hot melt" type, and with such sealing strips it is possible to have a relatively large space between the panes. However, the manufacturing process cannot be fully automated.

On the other hand, moldings produced by extrusion will be particularly suitable for automated production. Automatic machines for producing the inner strip and the outer coating of the sealant are, among other things, described in French Patents No. 74 34156, 74 34334, 74 34640, 72 28403, 72 45076,

72 42468 in the name of the patent applicant.

When automatic coating of sealing strips with a large thickness is to be carried out, e.g. with such machines as described in the above-mentioned patent no. 72 42468, it is nbd necessary that the plastic material has certain characteristic properties, particularly with regard to viscosity, to make extrusion possible and to ensure a good connection to the glass.

The plastic strips have thus given good results for air gaps with a width of 5 - 6 mm, but above these thicknesses, strips of a known type will tend to deform, so that the desired distance and density are not achieved in a satisfactory manner. In a similar way to the width of the air gap between the panes, the thickness of the sealing strip is mentioned, the distance measured vertically on the surface of the glass panes.

Furthermore, if the strip adheres poorly to the glass, an automatic placement would be impossible, because it would slide against the glass surface while the pane of glass passed under the injection nozzle. In the same way, if the strip did not have the necessary viscosity, it would be deformed instead of getting the right thickness, so that it would be impossible with the help of applied pressure to place the second square so that the system would be straight.

Sbkeren has made it clear that it is possible to avoid these disadvantages and in particular to produce multi-layer windows with a sealing strip of great thickness using a material which gives a viscosity measured by a Mooney consistometer of 115° after a test time of 8 minutes at 40°C.

Soker has now established that it is possible to automatically place a strip with a thickness of more than 4 mm and all the way up to 19 mm and more, using preparations which after 8 minutes and at 40°C have a viscosity expressed in Mooney degrees of more than 115° after a test according to French standard NFT 43005 using a Mooney consistometer. Such preparations can e.g. is produced by a formation of polyisobutylene and butyl rubber, where the weight ratio between polyisobutylene and butyl rubber is between 4 and 8.

The sealing strip according to the invention is thus characterized in that it is made of a material which, on a weight basis, includes:

A preferred list has the following composition:

which are subjected to tests according to French standard NFT 43005, mentioned earlier, by means of a Mooney consistometer to establish viscosity curves as a function of temperature and time shown in fig. 1 and 2.

It is noted that at 40°C and after 8 minutes, the viscosity of this preparation is always above 115° Mooney.

The molecular filters used as desiccant preferably consist of a mixture of molecular filters, where the dimensions of the adsorption pores are respectively 4 Å and 10 Å and where the weight proportions are as follows:

Filter of 4 Å: 0-4 weight percent of the list,

Filter of 10 Å: 0 - 1 weight percent of the entire list.

Other advantages and characteristic features of the invention appear from the following description under

view to the accompanying drawings.

Fig. 1 is a curve showing the variation at 40°C of the Mooney viscosity as a function of time of a material included in the sealing strip. Fig. 2 is a curve showing the variation of the Mooney viscosity as a function of temperature after 8 minutes of the plastic material included in the sealing strip.

A strip according to the invention can be placed automatically on a glass plate with a speed of at least 30 cm/sec., due to a sufficient adhesive ability in relation to the glass, and since no deformation is obtained for thicknesses equal to or greater than 19 mm.

The placement of this strip is carried out according to a procedure which consists in placing the strip on one of the glass plates in such a way that the strip's axis forms an angle with the application direction a which lies between 15 and 45° and preferably between 25 and 35°.

Claims (3)

1. Sealing strip that serves as a spacer, arranged along the edge of a sheet when manufacturing multi-layered windows comprising at least two transparent or translucent sheets that are separated from each other at the periphery by means of said strip, characterized in that it is made of a material which, on a weight basis, includes: 2. Sealing strip according to requirement 1, grade i- ■-sert in that it has the following composition: 3. Sealing strip according to one of the preceding claims, characterized in that the sealing strip comprises a molecular sieve which consists of a mixture of two such where one has adsorption pores in the size of 4 Å, and the other has adsorption pores in the size of 10 Å, and that they are found in following weight ratio: filter with pores 4 Å: from 0 to 4% of the total weight of the list filter with pores 10 Å : from 0 to 1% of the total weight of the list.