EP1825078A1

EP1825078A1 - Construction element for vitrifying a building

Info

Publication number: EP1825078A1
Application number: EP05804423A
Authority: EP
Inventors: Helmut Teschner; Roland Burkhardt Roth
Original assignee: Webasto SE
Current assignee: Webasto SE
Priority date: 2004-12-13
Filing date: 2005-10-24
Publication date: 2007-08-29
Also published as: WO2006063544A1; US20090019798A1; CN101099013A; JP2008523273A; DE102004059959A1

Abstract

The invention relates to a construction element (10) for vitrifying a building, which comprises at least one pane of glass (12) and a splitter protection element (30) which is connected to the pane of glass. According to the invention, the splitter protection element (30) comprises, in a peripheral edge area (14), at least one retaining element (18) for fixing to the building. The invention also relates to the use of a construction element (10) which comprises at least one pane of glass (12) and a splitter protection element (30) which is connected to the pane of glass. The splitter protection element comprises, in the peripheral edge area (14), at least one retaining element (18) which is used to vitrify a building.

Description

Component for the glazing of a building

The present invention relates to a structural element for the glazing of a structure which has at least one glass pane and a splinter protection element connected to the glass pane. From DE 201 09 00 U1 such a generic device is known, which has a glass plate made of toughened safety glass, on which a splinter protection film is applied. The splinter protection film is glued or laminated on one side on the glass plate. In an alternative embodiment, the glass plate is composed of two discs, which are joined together via the known splinter protection film to a two-disc laminated safety glass.

EP 1 026 338 A2 discloses a curved glazing for overhead glazing, decoration, sound insulation or the like, consisting of a mechanically curved pane of flat glass. In order to avoid the falling of large glass splinters at a fraction of the disk, here also an anti-shatter foil can be used, which holds the broken glass similar to a laminated safety glass in case of breakage. For fixing the glazing elements lateral holding elements are proposed, which surround the glass pane. DE 102 06 717 A1 discloses a glass lid with splinter protection film for closing an opening of a vehicle roof, which is provided with a transparent pane of safety glass, wherein on the underside of the disc or on the underside of a arranged on the underside of the disc solar cell assembly a splinter protection film is attached , In order to attach the glass cover to the vehicle, an inner cover plate is provided on the underside, which is embedded in a surrounding the glass cover surrounding foam and serves as a support assembly for the disc. A folded portion of the splinter protection film is connected by means of a screw or the like with the cover inner panel and thereby in turn with the body. Thus, in a broken disc, the splinter protection film with the adhering Scheibensplittem is no longer rigid, but can continue from the holding element in place and Be held in place. In this way it should be prevented that the broken disc dissolves together with the splinter protection film from the frame.

It is an object of the present invention to provide a structural element for the glazing of a building in which a glass construction with a splinter protection element on the one hand can be realized in a lightweight construction and which on the other hand is still securely held on the building in case of breakage of the glass pane.

This object is achieved by a device according to claim 1 and a use of such a device according to claim 22. In the solution according to the invention, the splinter protection element has, in a peripheral edge region, at least one holder which serves for attachment to the building.

In this solution, it is advantageous that, on the one hand, a comparatively light glass pane can be used, which does not release any dangerous splinters into the building or into the surroundings of the building due to the splinter protection element in the event of a breakage of the pane. The use of laminated safety glass (VSG) is therefore no longer absolutely necessary, which leads to a considerable weight reduction. This advantage is combined with the further advantage that, as a result of the fact that the splinter protection element is fastened in a peripheral edge region via a mounting on the building, a broken pane which remains attached to the splinter protection element does not enter the building completely or in the building Buildings can fall away in the area. In this way it can be prevented that objects and splinters can penetrate from the outside through the broken pane in the interior of the building and the interior of the destruction of the disc in case of burglary is freely accessible.

Preferred embodiments of the invention will become apparent from the dependent claims.

While brackets can be directly integrated into the splinter protection element (eg, holes or loops) with which the splinter protection element is fastened to the building, in preferred embodiments of the invention, the retainer is a separate, additional retaining element which connects the splinter protection element to the building. The splinter protection element is connected in further preferred embodiments of the invention by means of an adhesive film such as a hot melt adhesive film to the glass. Preferably, the splinter protection element is laminated to the glass. In particularly preferred embodiments of the invention, a solar cell assembly is mounted at least in partial areas of the splinter protection element between the latter and the glass pane, with which the component can also contribute to the energy supply.

In addition, the splinter protection element can be connected to the entire surface of the glass pane or, in the case of embodiments of the integrated solar cell composite element, the splinter protection element can be directly connected to the glass pane in areas with solar cells with the solar cells and in areas that are not covered by solar cells.

In further embodiments of the invention, the holding element is not only in connection with the splinter protection element itself, but also directly with the glass pane. The retaining element can be glued to the glass pane and the splinter protection element. In alternative embodiments of the invention, the holding element is connected via a Randumschäumung or a foam backing with the glass and the splinter protection element in turn foamed into the Randumschäumung or foam backing and so also attached to the support member. In order to improve the holding forces of the splinter protection element on the holding element in variants of bonding or foaming, the surface of the splinter protection element can be provided with means to increase the adhesion between the splinter protection element and the bond or the edge foam or adhesive bonding. Examples of this are a surface roughening of the splinter protection element or alternatively the application of a raised structure. In further preferred embodiments of the invention, the retaining element is screwed in particular with the splinter protection element and may additionally also be screwed to the glass pane. In other embodiments of the invention, the splinter protection element is jammed in the holding element, and in particularly preferred embodiments, the holding element serves at the same time to attach the entire component to the building. The splinter protection element itself may be a composite material or a splinter protection film, in particularly preferred embodiments it is a splinter protection film composite. In these embodiments the use of ethyl vinyl acetate (EVA) films is particularly preferred. In a further preferred embodiment of the invention, the glass pane is a single-pane safety glass, resulting in a particularly weight-reduced solution. On the one hand, a component according to the invention can be used to glaze a facade of a building, it being possible to mount corresponding components in transparent window areas as well as on non-transparent parts of the facade. Alternatively, a device according to the invention can also be used for overhead cladding to obtain a roof-like glazing.

In the following the invention will be described by way of example with reference to the accompanying drawings. Showing:

Fig. 1 shows a cross section of the edge region of an inventive

Component according to a first embodiment; and FIG. 2 is a view like FIG. 1 of a second embodiment of the invention

Invention.

1 shows a component 10 according to the invention which has a glass pane 12 made of toughened safety glass ESG, which is provided in an edge region 14 with an edge foam 16. The edge foam 16 connects the glass pane 12 with a holding element 18, which has an extension 24, with which the component 10 for glazing of a building on a facade can be attached. On a side facing the structure of the device 10 is on the glass 12 a splinter protection film 30 and in partial areas of the glass between this and the splinter protection film also a solar cell assembly 22 is attached. The splinter protection film 30 is adhesively bonded directly to the glass pane on the rear side of the solar cell assembly 22 and on the partial regions of the glass pane 12 which are not covered by the solar cell composite. The adhesion can be achieved via an adhesive film or hot melt adhesive film (not shown here), which, for example, fixes the anti-splintering film 30 in a lamination process. Alternatively, the splinter protection film 30 itself may be formed as an adhesive film, whereby the layer structure is simplified. The solar cell assembly 22, which is thus located between the splinter protection film 30 and the glass pane 12, can be incident on the device 10 solar radiation into energy convert, which can be dissipated by lines not shown here to the building. The solar cell assembly 22 may be glued to the glass pane 12 independently of the splinter protection film 30, or it is placed on the glass pane 12 during construction of the component 10 and laminated together with the latter on the glass pane 12 during application of the splinter protection film 30.

In order to prevent a breakage of the glass pane 12 completely detaching it from the building structure together with the splinter protection film 30, the splinter protection film is fastened separately and additionally at one end 32 in the edge area 14 on the holding element 18. About this attachment, which is achieved in the illustrated embodiment of the invention on the foaming of the splinter protection film 32 in the Randumschäumung 16 of the device 10, is a direct, non-positive connection from the end 32 via the Randumschäumung 16 in the holding element 18 and its extension 24th ensured in the building, not shown here. In order to optimize the foaming of the splinter protection film 30, the end 32 of the splinter protection film is not glued flat in this end to the glass pane 12, but the splinter protection film is here bent away from the glass pane in the Randumschäumung 16 or out. The holding element 18 also has a clamping finger 26, which is designed such that it presses the splinter protection film 30 against the glass pane 12 in a clamping area 20. Thus, at this point, on the one hand self-sealing in the foaming of Randumschäumung 16 is achieved, which simplifies the manufacturing process of the device 10, and on the other hand, reinforced by the clamping action in the clamping area 20, the connection between splinter protection film and retaining element.

An alternative embodiment of the invention is shown in FIG. 2, in which, as in FIG. 1, a cross-sectional view through an edge region 14 of a component 10 according to the invention is shown. Similar to FIG. 1, here too a component 10 is provided with a splinter protection film 30 and also here there is a solar cell assembly 22 between splinter protection film and glass pane. In contrast to FIG. 1, however, a holding element 18 on the glass pane 12 is not attached by means of a Randumschäumung an edge portion 14 thereof, but are the holding element and an end 32 of the splinter protection film 30 together and with the glass sheet via a bond 28 in connection. The need for a Randschschäumung thus omitted in this embodiment of the invention. The bond 28 of the glass pane 12 is designed so that an edge remains free in the edge region 14 of the bond, resulting in a visually appealing image of the building facade, since no supervision of the bond 28 or a foam is possible.

LIST OF REFERENCES

10 component

12 glass pane

14 edge area

16 edge foam

18 holding element

20 clamping area

22 solar cell network

24 extension

26 clamping fingers

28 bonding

30 anti-shatter foil

32 end

34 edge

Claims

claims

1. component (10) for glazing a building which at least one glass pane (12) and a glass pane connected to the splinter protection element (30), characterized in that in a peripheral edge region (14) of the splinter protection element of this at least one holder (18) Attachment to the building has.

2. The component (10) according to claim 1, characterized in that the holder consists of a holding element (18).

3. The component according to claim, characterized in that the splinter protection element (30) by means of an adhesive film with the glass pane (12) is connected.

4. The component (10) according to one of the preceding claims, characterized in that in partial areas of the splinter protection element (30) between this and the glass pane (12) is a solar cell assembly (22).

5. The component (10) according to any one of the preceding claims, characterized in that the splinter protection element (30) over the entire surface with the glass pane (12) or with the glass pane and the solar cell assembly (22) is connected.

6. The component (10) according to one of the preceding, back to claim 2 claims, characterized in that the holding element (18) is also connected to the glass pane (12).

7. The component (10) according to claim 6, characterized in that the holding element (18) with the glass pane (12) and the splinter protection element (30) by means of a bond (28) is glued.

8. The component (10) according to claim 6 or 7, characterized in that the holding element (18) via a Randumschäumung (16) or a foam backing with the glass (12) is connected and the splinter protection element (30) foamed into the Randumschäumung or foam backing is.

9. The component (10) according to any one of claims 7 or 8, characterized in that the surface of the splinter protection element (30) is provided with means to the adhesion between the Splinter protection element and the bond (28) or the Randumschäumung (16) or foam to increase.

10. The component (10) according to claim 9, characterized in that it is in the splinter protection element (30) formed holes for the passage of the bond (28) or the Randumschäumung (16) or foam backing in the means for increasing the adhesion.

11. The component (10) according to claim 9, characterized in that the means for increasing the adhesion is a surface roughening of the splinter protection element (30).

12. The component (10) according to claim 9, characterized in that the means for increasing the adhesion is a raised structure applied to the surface of the splinter protection element (30).

13. The component (10) according to one of claims 6 to 12, characterized in that the holding element (18) with the glass pane (12) and the splinter protection element (30) is screwed.

14. The component (10) according to one of the preceding, back to claim 2 claims, characterized in that the splinter protection element (30) in the holding element (18) is clamped.

15. The component (10) according to one of the preceding claims, characterized in that the holder (18) serves to fasten the component (10) to the building.

16. The component (10) according to one of the preceding claims, characterized in that it is the splinter protection element (30) is a composite material.

17. The component (10) according to one of the preceding claims, characterized in that the splinter protection element (30) is at least one splinter protection film.

18. The component (10) according to claim 17, characterized in that the splinter protection element (30) is at least one ethyl vinyl acetate film (EVA).

19. The component (10) according to one of the preceding claims, characterized in that the glass pane (12) is a toughened safety glass (ESG).

20. The component (10) according to one of the preceding claims, characterized in that the component (10) is an element for facade cladding.

21, component (10) according to any one of the preceding claims 1 to 19, characterized in that it is the element (10) is an element for Überkopfverg loading.

22. Use of a component (10), which has at least one glass pane (12) and a glass pane connected to the splinter protection element (30), wherein in a peripheral edge region (14) of the splinter protection element this at least one holder (18), for glazing a building.