DE4241143A1 - Edge union for insulating glazing - involves three or more panes of glass with two transparent outer substrates and at least one transparent intermediate inner substrate - Google Patents

Abstract

Between adjacent substrates (1-3) are edge-side distance holders (6-9), which hold the substrates at a predetermined distance. A sealing medium (20,21) seals a gas in a moisture-tight manner in the intermediate spaces (10,11) between the substrates inside the distance holders. The outer substrates (1,2) extend over the inner substrate (3) in its edge area (4,5) and the sealing medium (20,21) extends into the area extended over by the outer substrates, covering both the distance holders and the inner substrate. The transparent substrates are glass panes, partic. float glass panes, and the sealing medium is formed by polysulphide or polyurethane or silicon. USE/ADVANTAGe - As a three-pane insulation glazing. The inner pane is subjected to a low thermic tension and the sealing mass is applicable in the edge area simply, preventing the formation of free spaces.

Description

The invention relates to triple or multi-pane insulating glazing, namely in particular the edge bond of such insulating glazing.

Insulating glazing is used for ordinary windows, large areas Building glazing, conservatory glazing etc.

Three-pane insulating glazing has been known for a long time. A three-pane insulating glazing can be considered in terms of its physical properties as a series arrangement of two two-pane insulating glazing. This is illustrated in FIGS. 3 and 4. The adjoining panes 3 a and 3 b of the two two-pane insulating glazing are combined to form an inner pane 3 of the three-pane insulating glazing.

Three-pane double glazing has significant advantages over it Two-pane insulating glazing, especially with regard to thermal insulation and sound insulation. An essential mechanism of heat transfer in Two-pane double glazing is the convection of the filling gas between the two panes of glass. This can be done by arranging an inner pane between the two outer panes can be significantly reduced. A three disc Double glazing has double glazing of the same thickness greater thermal insulation because the convection of the filling gas through the Barrier-acting additional pane is prevented. With regard to sound transmission the additional pane represents a damping element, so that the sound insulation a three-pane double glazing compared to a two-pane double glazing is significantly improved.

Fig. 4 shows a cross section through a three-pane insulating glazing according to the prior art. Such double glazing is e.g. B. known from DE-24 61 533-C3. As essential elements, it comprises a first and a second outer pane 1 , 2 and an inner pane 3 arranged between them. Spacers 6-9 are arranged in the edge regions 4 and 5 of the panes 1 , 2 , 3 of the insulating glazing and fix the distance between the individual panes 1 , 2 , 3 to a predetermined distance. The spacers 6-9 are surrounded in the area outside the interstices 10 , 11 by sealing compounds 12-15 , which close the interstices in a gas-tight and moisture-tight manner.

A three-pane insulating glazing according to the described prior art has the following disadvantages:

The externally thermally insulated inner pane 3 can be strongly heated under the influence of solar radiation, in particular when the pane 3 absorbs certain spectral ranges of the radiation and / or heat-insulating coatings are present on the substrate surfaces. If, as shown in FIG. 4, the middle pane 3 is guided outwards through the edge bond, the temperature of the pane 3 in the edge regions is substantially lower than in the irradiated inner region of the pane due to the heat sink present there. As a result, the inner pane 3 is subjected to high thermal stress. The inner pane in the prior art described usually made of a special glass, for. B. a toughened safety glass (ESG) to counteract the risk of breakage of the glass.

Another disadvantage of the described edge bond of the three-pane insulating glazing according to the prior art is the difficulty in applying the sealant 12-15 in such a way that there is no free space at the boundary layer between the sealant and the panes, in particular the middle one Disc, are formed. Such free spaces can neither be recognized nor eliminated during production and increase the risk of condensation.

It is therefore the object of the present invention to have a three or more disc To create double glazing, in which the inner pane has a slight subjected to thermal stress and the sealant in the edge area under Prevention of the formation of free spaces can be applied in a simple manner.

The object is solved by the features of claim 1.

The double glazing according to the invention is characterized in that the Outer substrates the at least one inner substrate in the edge area Insulating glazing protrude and the sealant in the Extends substrates over the entire area between the outer substrates. The sealant can connect flush to the spacers, so that the  Spacers are covered by the sealant. Training the Edge bond of the insulating glazing according to the present invention has the front part on that the inner substrate is not through the edge bond through to the outside is guided, but is thermally insulated in the edge area by the sealant. The result is an essentially homogeneous temperature distribution in the interior Substrate so that thermal stresses in the inner substrate are largely avoided become. On the other hand, the sealant is not covered by the inner substrate interrupted so that the sealant can be applied in one piece and the Risk of free space formation is significantly reduced. Still is advantageous that the diffusion processes with respect to gas and moisture that occur at the Interface between glass and sealant take place at the invention Solution on the inner substrate are prevented.

Further, advantageous configurations of the insulating glazing according to the invention result themselves from claims 2 to 9.

The transparent substrates can be made from simple float Glass panes exist. The use of special glasses for the at least one Indoor substrate is not required.

The sealant can advantageously be made of polysulfide or Be made of polyurethane or silicone. Furthermore, according to the claims 4 to 7 another sealant, e.g. B. made of butyl, that can connect directly to the spacers.

The spaces between the individual substrates can according to claim 8 further increase the thermal insulation with an inert inert gas, the one has low thermal conductivity and a low tendency to convection his.

According to claim 9, an embodiment of the spacers as the hollow profiles Advantage on that this is a desiccant to absorb the intermediate in the substrate can absorb existing residual moisture.

The invention is illustrated below on one in the drawing Embodiment explained in more detail. It shows  

Fig. 1 a cross-section through an embodiment of a glazing according to the present invention,

Fig. 2 shows a cross section through a further embodiment of an insulating glazing according to the present invention,

Fig. 3 shows a cross section through two successively arranged two-ticket benisolierverglasungen according to the prior art,

Fig. 4 shows a cross section through a three-pane insulating glazing according to the prior art.

Fig. 1 shows a cross section through a three-pane insulating glazing according to the invention. Between the two outer substrates 1 and 2 , an inner substrate 3 is arranged. The substrates can be simple float glass panes. It is not necessary to make the inner substrate 3 from a special glass, in particular from toughened safety glass (ESG). It is also possible to use a plurality of inner substrates arranged one behind the other, each separated by a space.

The distance between the substrates is fixed by means of the spacers 6-9 arranged on the edge. The spacers can be a frame profile running around the entire insulating glazing, in particular a hollow profile. In addition to the low weight, the use of a hollow profile has the advantage that the hollow profile can accommodate a desiccant. The drying agent can communicate with the substrate interspaces 10 , 11 via the openings 22-25 and enable absorption of the residual moisture in the substrate interspaces. The interface between the substrates and the spacers must e.g. B. be sealed using a butyl seal.

It is essential to the invention that the outer substrates 1 , 2 protrude beyond the inner substrate 3 in its edge regions 4 and 5 and a sealing means 20 , 21 extends continuously in the region between the two outer profiles 1 , 2 which is dominated by the outer substrates. The sealant 20 , 21 effects, on the one hand, a gas and moisture-tight closure of the substrate spaces 10 and 11 and, on the other hand, thermal insulation of the inner substrate 3 in the edge regions 4 , 5 . Thermal stresses in the inner substrate 3 are significantly reduced by this measure.

As a sealant z. B. polysulfide, polyurethane or silicone. It is however, it is also possible to use other organic sealing plastics.

To further improve the thermal insulation of the insulating glazing, there is also the possibility of filling the substrate interspaces 7 and 11 with a chemically inert inert gas which has a low thermal conductivity and a low tendency to convection. In addition, the inner substrate and / or the outer substrates with a heat-insulating coating, for. B. according to DE 38 07 600 of the applicant.

To reduce the weight, the inner substrate 3 can have a small thickness or consist of a light, transparent plastic, since the inner substrate does not have to absorb any static forces. It is also possible to design the inner substrate as a film. To equalize the pressure in the first substrate space 10 and the second substrate space 11 , it may be advantageous to z these spaces. B. by means of openings in the inner substrate 3 .

Fig. 2 shows another embodiment of the glazing according to the invention. In addition to the features already described in FIG. 1, this embodiment has an additional sealing layer 30-33 . This additional sealing layer can be sprayed or extruded directly onto the spacers 6 to 9 . The material for this additional sealing layer is e.g. B. butyl suitable. However, it is also possible to use this additional sealing layer e.g. B. in foil form as an outer finish on the surfaces 34 and 35 .

Claims (9)

1. Insulating glazing with
two transparent outer substrates ( 1 , 2 ),
at least one transparent inner substrate ( 3 ) arranged between the outer substrates ( 1 , 2 ),
spacers ( 6-9 ) arranged on the edge between adjacent substrates ( 1-3 ) in order to keep the substrates ( 1-3 ) at a predetermined distance and a sealing means ( 20 , 21 ) in order to seal the between the substrates ( 1-3 ) gas within the spacer (6-9) formed intermediate spaces (10, 11) and moisture-tight seal,
characterized,
that the outer substrates ( 1 , 2 ) protrude the inner substrate ( 3 ) in the edge region ( 4 , 5 ) and the sealing means ( 20 , 21 ) continuously in the area overhanged by the outer substrates ( 1 , 2 ) extends between the outer substrates ( 1 , 2 ) and covers both the spacers ( 6-9 ) and the inner substrate ( 3 ). 2. Insulating glazing according to claim 1, characterized in that the transparent substrates ( 1-3 ) are glass panes, in particular float glass panes. 3. double glazing according to claim 1 or 2, characterized in that the sealing means ( 20 , 21 ) made of polysulfide or polyurethane or silicone is formed. 4. Insulating glazing according to one of claims 1 to 3, characterized in that a second sealing means ( 30-33 ) for additional sealing of the spaces ( 10 , 11 ) formed between the substrates ( 1-3 ) is provided. 5. double glazing according to claim 4, characterized in that the second sealing means ( 30-33 ) directly adjoins the spacers ( 6-9 ). 6. double glazing according to claim 4 or 5, characterized in that the second sealing means ( 30 to 33 ) consists of butyl. 7. Insulating glazing according to one of claims 5 to 6, characterized in that the second sealing means ( 30 to 33 ) on the spacers ( 6 to 9 ) is sprayed or extruded. 8. Insulating glazing according to one of claims 1 to 7, characterized in that the spaces ( 10 , 11 ) are filled with an inert gas which has a low thermal conductivity and a low tendency to convection. 9. Insulating glazing according to one of claims 1 to 8, characterized in that the spacers ( 6-9 ) are designed as hollow profiles, have an opening ( 22-25 ) to the spaces ( 10 , 11 ) and are filled with a desiccant .