DE1169639B - Multi-pane insulating glass and process for its manufacture - Google Patents

Description

Multi-pane insulating glass and process for its production The invention relates to a multi-pane insulating glass and a method for its production. Such insulating glass panes consisting of two or more panes, which through at their edges an intermediate web are kept at a distance are known per se. So far has these webs are essentially made of lead. The one with a rigid intermediate web connected insulating glass panes are limited in size during manufacture. They are not insensitive to vibrations and twisting, especially at Use in all types of transport. By loosening the intermediate bridge you can Leaks occur, which means that moisture can penetrate between the panes and question the transparency (by fogging up the windows). One also has Attempts have already been made to manufacture the intermediate webs from masses such as neoprene. As a result of the plastic deformability of these materials, a secure edge seal is required not with the insulating glass, especially if it is exposed to vibrations guaranteed. In addition, the normal, previously used plastics stand out characterized by poor adhesion. They are usually not resistant to linseed oil, so that when Puttying in such insulating glass panes with the usual types of putty for the intermediate web is destroyed after a short time.

The invention now relates to a multi-pane insulating glass in which the discs at the edge by an intermediate web made of a rubber-like synthetic resin compound be kept at a distance from each other. The novelty of the invention can be seen in that the intermediate web consists of an elastomeric polysiloxane compound, which is through a Silicone resin, which contains a common hardening agent suitable for cold curing, is connected to the glass panes. The edge of the disks can in itself be bordered in a known manner with a metal jacket.

There are already multilayer glasses known in which one layer made of alkylsiloxanes is tightly embedded between two layers of glass. In contrast the invention is an insulating glass that consists of two only through one Intermediate web is made of interconnected glass panes.

The use of materials known as intermediate layers for bridges insulating glass panes was not obvious to the expert. With a multilayer glass it is especially necessary that the siloxane layer must be fully transparent while there is no mention of a bond between the layer and the glass pane. These intermediate layers generally remain permanently deformable, but this is not the case with multilayer glasses It is important because the intermediate layer is constantly being pushed through the tightly fitting on both sides Glass panes is protected.

Given these properties, those used in multilayer glasses transparent siloxane masses, it was not to be expected that certain silicone rubber masses would be would be suitable for the production of multi-pane insulating glass according to the invention. In particular, it was not to be expected that a completely shock-resistant insoluble elastic connection of the silicone rubber with the glass plates would result. surprisingly the silicone rubber used according to the invention is not only characterized by one particularly good adhesion but also through excellent elastic properties, so-called rebound properties, within a very wide temperature range without any plastic deformation occurring.

The manufacture of the multi-pane insulating glass according to the invention takes place in such a way that silicone resin is first brushed onto the edge of a pane of glass and then a silicone rubber compound which is a catalyst suitable for cold curing contains, is applied. A strip of solid silicone rubber is then placed on top placed on the edge of the pane and the second pane, its edge in the same way is provided with silicone resin and not yet hardened silicone rubber. After the mass has hardened, the air between the panes becomes sucked out and replaced with dry air.

The spacer strip between the two panes can optionally also consist of silicone foam gammi. This allows a particularly great elasticity can be achieved with simultaneous weight reduction. Porosity of the intermediate strip can in a known manner by vulcanizing with mixing of air into the mass achieved will. The silicone rubber used as an intermediate strip can also fillers, especially quartz and other silica-containing compounds contain. If desired, heating elements can also be embedded in the intermediate stone be to. to avoid fogging of the windows even in very cold weather. Furthermore, the strength of the intermediate webs can be increased by embedding a stiffener, especially made of metal.

The amount of the catalyst used for cold curing is generally kept as small as possible in order to reliably prevent precipitations from the mass, even after prolonged use. The use of an amount of catalyst of about 1 % has proven to be beneficial. It is advantageous to use catalysts with alkaline properties. For less demanding requirements, it is often sufficient to mix the silicone rubber used as an intermediate strip with other types of synthetic rubber, such as various types of bunas. Both cold-curing and hot-curing types of rubber can be used. Silicone rubber compounds, as described, for example, in patent specifications 906 999 and 916 587 , have proven to be particularly suitable.

As soon as the hardening of the whole mass has ended, which is the case within 6 to 24 hours when using silicone rubber with the aforementioned catalysts at normal temperature, the air present in the space between the two panes of glass is sucked out as much as possible through an opening in the spacer strip. At the same time, dried air at room temperature as far as possible is blown in through a second opening, if possible at the opposite corner of the double pane. The air can be dried in any known manner, for example with silica gel or other drying agents. If necessary, the double pane can also advantageously be heated at the same time as the air is sucked off and blown in again in order to dry it completely. This usually also increases the strength of the silicone rubber connection between the panes. Instead of air, dried nitrogen can also be used to fill the space between the panes.

The use of silicone rubber instead of the previously used materials for the waste stood stripes at Doppelscheibengläsem offers numerous advantages. The silicone rubber is initially completely resistant to heat and cold within the broadest limits of about -60 to 200 ° C. It is not thermoplastic, but always remains fully elastic even under extreme circumstances. The silicone rubber is resistant to swelling and therefore resistant to all practically used putty oils and greases.

Other masses, such as B. also natural rubber, show after more or less long service life signs of aging. The masses become brittle and cracked. The adhesion to the glass decreases, so that the double-pane insulating glass leaks will. Once this is done, the air that is present between the discs takes away Moisture on. The windshield steams up or freezes at low temperatures totally one. This also significantly reduces the insulating capacity of the panes, which especially when glazing cold rooms, where there is a considerable temperature gradient exists between the inner and outer wall, makes it particularly disturbing.

The size of the insulating washers that can be produced according to the invention is practically unlimited. While with the previous double glazing, if if they exceeded a certain size, the stresses in the rigid edge connection were so large that the discs either broke or loosened the If there were intermediate strips from the glass wall, these are nuisances due to the elasticity and compliance of the silicone rubber in the double-pane insulating glass according to FIG the invention completely eliminated. This also makes it possible to use the new double-pane insulating glass To be used in vehicles such as ships, buses and the like, in which the glazing is subject to constant strong vibration. While otherwise under these Stresses loosened the connection of the panes in a very short time the new laminated glass damped the vibrations by the silicone rubber, so that no cracks appear even after prolonged use. It turns out to be special advantageous that the silicone rubber against the effects of weather and of the sea water is stable.

The particularly beneficial effect of the silicone rubber may on it based on the fact that this is a material that is chemically has a relationship to glass due to its silica content. In any case the adhesion of the mass to the glass is unexpectedly favorable and permanent.

The material used according to the invention is not only water-repellent, but can even withstand boiling or steaming without further ado without compromising the tightness the edge connection suffers somehow.

Curved safety glass panes can also be made using the method of the invention -without further manufacture, which is just for ship glazing from particular advantage is. The glazing is tropicalized. Any type of glass, so not only mirror glass, but also toughened or hardened glass, such as tempered glass, Wired glass, frosted glass, can be processed according to the invention.

The drawing illustrates an embodiment of the invention. The glass panes 1 and 2 are held at a distance from one another by an intermediate web 3 made of silicone rubber. The intermediate web is tightly connected to the panes with the aid of the adhesive 4. The edge of the safety glass is covered with a lead foil 5 as edge protection. The lead foil 5a on the inside of the insulating glass is separated from the lead foil 5b on the outside in order to prevent heat transfer from the outside to the inside. Between the two lead edges 5 a and 5 b , a buffer 6, advantageously made of silicone rubber, can be arranged, which further enhances the insulating effect.

Claims (2)

Claims: 1. Multi-pane insulating glass, in which the panes are held at a certain distance from one another at the edge by an intermediate web made of a rubber-like synthetic resin compound, characterized in that an intermediate web made of an elastomeric polysiloxane compound is connected to the glass panes by a silicone resin containing a customary hardening agent suitable for cold curing is connected and the edge of the discs is bordered in a known manner with a metal jacket. 2. A method for producing a multi-pane insulating glass according to claim 1, characterized in that silicone resin is first brushed onto the edge of a pane of glass, then a silicone-rubber compound containing a catalyst suitable for cold curing is applied, and a strip of solid silicone rubber is then applied placed on the edge of the pane and the second pane, the edge of which is provided in the same way with silicone resin and not yet cured silicone rubber, is placed, whereupon the air located between the panes is sucked out and replaced by dry air after curing has taken place. 3. The method according spoke 2, characterized in that silicone foam gunimi is used as an intermediate strip. 4. The method according spoke 2, characterized in that a quartz-containing silicone rubber is used as an intermediate strip. 5. The method according spoke 2, characterized in that alkaline substances are used as a catalyst for the cold curing of the silicone resin. Contemplated publications: USA. Patents No. 2756171, 2760893..