DE102011121031A1 - Laminated glass pane, used in a construction area or an automotive industry, comprises two outer discs, and a composite film arranged between the outer discs, where the composite film comprises a bracket comprising a bolt - Google Patents

Abstract

The laminated glass pane (1) comprises two outer discs (3, 4), and a composite film arranged between the outer discs, where the composite film comprises a bracket (2) that is integrated into the laminated glass pane. The bracket comprises: a bolt (8) whose position is determined in the glass pane in a circumferential direction by an aperture in a first disc and in a rear direction by a second disc; and a plate (7) adjacent to the first disc and attached to the bolt. A bolt connection is provided between the bolt and the plate. A sealing foil is arranged between the plate and the first pane. The laminated glass pane (1) comprises two outer discs (3, 4), and a composite film arranged between the outer discs, where the composite film comprises a bracket (2) that is integrated into the laminated glass pane. The bracket comprises: a bolt (8) whose position is determined in the laminated glass pane in a circumferential direction by an aperture in a first disc and in a rear direction by a second disc; and a plate (7) adjacent to the first disc and attached to the bolt. A bolt connection is provided between the bolt and the plate. A sealing foil is arranged between the plate and the first disc. The bolt is embedded into the composite film, and is shielded against the outer discs. The bolt at its end facing the second disc comprises a reinforcement formed in a collar-shaped manner. A gasket is arranged between the bolt and the aperture in the first disc. The gasket has O-ring. The laminated glass pane further comprises other foil having a photovoltaic cell. An independent claim is included for a method for producing a laminated glass pane by laminating precomposites.

Description

The invention relates to a laminated glass pane comprising two outer panes and at least one composite foil arranged between the outer panes, with at least one holder integrated in the laminated glass pane.

When laminated glass is a laminate of two outer and possibly further discs with arranged between these composite films, the z. B. is used as a laminated safety glass in the construction or automotive industry. Here, a so-called pre-bond is first made, which consists of the outer discs and the films to be arranged therebetween. Ultimately, the composite is then usually made in autoclaves by an interaction of heat and pressure. Apart from extremely high investment costs for autoclave, these have proven to be disadvantageous when it comes to equip the laminated glass with brackets, which are integrated in particular for increasing the stability from the outset in the laminated glass. It often comes to glass breakage; the proportion of rejects in such produced laminated glass is particularly high.

Thus, the present invention has the object to provide a laminated glass with brackets that meets high stability requirements.

This object is achieved in that the holder has a bolt whose position is fixed in the composite glass in the circumferential direction through an opening in the first disc and in the rearward direction through the second disc.

A central part of this holder forms a bolt which is inserted into the pre-bond between the discs and foils so that its position is fixed in its circumferential direction by the first disc and in its rearward direction by the second disc. The thus positioned bolt lamination of the complete laminated glass, whereby the bolt is finally integrated into the composite. This is a laminated glass with brackets realized that can withstand the highest demands. If the bolt is held in the circumferential direction through the opening in the first disc and in the rearward direction by the second disc, the bolt is fixed in the circumferential direction or in the rearward direction in a corresponding manner. The bolt is thus held in this starting position in a sense by both discs.

The bolt is optimally embedded in the discs by being fixed in the circumferential direction approximately over half its length in the first disc and additionally in the rearward direction by the second disc. In addition thereto, it is envisaged that the holder has a plate which can be placed on the bolt and bears against the first disk. For this purpose, the plate has a central, formed corresponding to the bolt opening or bore. This plate as a further component of the holder serves to additionally secure the bolt in its position before and / or after the lamination process. The plate presses with the inclusion of the bolt against the first disc or lies flat on this.

This type of clamping action can exert the plate on bolt and first disc particularly well when a screw connection is provided between the bolt and the plate. For this purpose, the bolt carries at least in the area in which it protrudes from the first disc, an external thread. Accordingly, it is provided that the plate carries an internal thread in the region of its opening corresponding to the bolt. The plate is thus screwed on a suitable variant of the invention on the bolt until it rests flat on the first disc and there has taken their clamping position.

It is helpful to see if there is no direct contact between the inside of the plate and the first one. Therefore, it is recommended that a foil is arranged between the plate and the first disc. By avoiding direct contact between the glass sheet and the plate made of steel, the film can have a certain pressure or load distribution effect here. It is important in this context that in the area between the pane and the plate no water penetrates into the holder or the laminated glass pane, which is why the use of a water-repellent sealing film makes sense. Thus, the laminated safety glass according to the invention is in particular also much better suited for outdoor applications than was the case with hitherto known laminated glass.

According to a preferred embodiment of the invention it is provided that the bolt is embedded in the at least one composite film, preferably in two or a double composite film. When heated as part of the lamination process softens the composite film. By taking advantage of the associated adhesive effect during curing, the holder is integrated directly into the composite safety glass pane in this wax-soft structure. The brackets are thus taken up to some extent by gluing in the context of curing the previously deliberately heated composite foil and its structure in the laminated glass. For this purpose, it is useful if the Composite film as part of the pre-composite already has a recess which corresponds approximately to the bolt. Thus, the bolt fits at its end facing the second disc exactly in the z. B. punched recess in one or two superimposed composite films, without it being possible for displacements in the axial or radial direction, based on the bolt coming.

It is important to prevent direct contact between the usually made of stainless steel parts of the holder, in particular the bolt and the glass panes as possible. Therefore, it is proposed that the bolt is shielded from the outer panes embedded in the laminated glass to realize a corresponding shield. Direct contact in the area in which the bolt penetrates the disc is avoided, as it comes to the lamination as complete as possible embedding.

The effect of embedding the brackets or the bolts in the laminated glass pane is further improved by a special design or shaping of the bolt when the bolt has a collar-like reinforcement at its end facing the second disk. Thus occurs a kind of anchoring effect with respect to the composite films, which is optimally utilized thanks to the solid design of the bolt at its end facing the second disc with a correspondingly larger surface to be embedded. The depth of this reinforcement preferably corresponds to two composite films in which the reinforcement is embedded accordingly. The bolt is fused into the composite foils after the bond at a depth of approx. 1.2-1.5 mm.

A supplementary proposal in this direction provides that a seal is arranged between the bolt and the opening in the first disk. This seal surrounds the bolt in its central portion in which it is fixed in the first disc. This means that on the one hand the direct contact between the bolts made of precious metal and the glass pane is prevented by the seal. On the other hand, an additional seal is achieved under the criterion of being able to use the laminated safety glass according to the invention preferably also for outdoor applications.

A preferred embodiment provides that serves as a seal at least one O-ring, preferably a plurality of O-rings. These O-rings surround the bolt lying against each other in its middle section. Preferably, it is up to five O-rings.

A further preferred embodiment of the invention provides that the laminated glass pane comprises a further film comprising at least one photovoltaic cell, that is to say that an additional film having at least one photovoltaic cell serving as an energy source is integrated into the laminated glass pane.

The present invention also relates to a method for producing a laminated glass pane by lamination of a pre-bond comprising individual panes with composite foils arranged therebetween and at least one holder to be integrated into the laminated glass pane.

Such a method is mainly characterized by the fact that one of the holder associated bolt is inserted into the pre-bond that this is held in its circumferential direction through an opening in a first disc and in its rearward direction by a second disc and that the pre-bond subsequently is laminated to a final composite.

With this method, it is possible to integrate holders in the laminated glass in a particularly effective manner already during production in a single process step. For this purpose, the precombustion already comprises, in addition to the discs and composite films, the holders, but at least the essential component of the holder, the bolt. Particularly suitable for carrying out such a method is a device for producing laminated safety glass with an upper and lower pressure plane, which are adjustable relative to each other and in which the housing is equipped with a plurality of trusses. By means of this device, pressure forces can be exerted on the discs assembled to form a pre-composite from the top as well as from the bottom. Thanks to a particularly massive design of the equipment frame or traverses, it is possible to absorb the high forces resulting from the production of the workpiece and to ensure the production of uniformly shaped and well-processed discs.

According to a further variant of the invention, it is envisaged that in the laminated glass pane, a further film having at least one photovoltaic cell is integrated.

This is particularly suitably the case when the mounts and the films are integrated with photovoltaic cells in a common process step in the laminated glass pane. That is, also the production of the composite of the additional photovoltaic cells takes place in a common process step in the way of Lamination of the complete laminated safety glass instead.

Also in relation to the photovoltaic cells or the other film having them, it is advisable to prevent any contact with the holders made of precious metal and to the glass. It is therefore provided that further protective films may be integrated into the laminated glass pane, if appropriate, on both sides of the film having at least one photovoltaic cell. The photovoltaic cells are thus shielded to their front and / or to their back by additional films. The targeted type of lamination in a suitable device ultimately causes the brackets together with bolts can be absorbed voltage neutral in the laminated glass. It is important to prevent a direct contact between the brackets and the glass by a possible comprehensive adhesive effect between the composite film and bolt or the reinforcement at its end facing the second disc end. The bolt is thus anchored as large as possible in the first brought to melting and then curing composite film. That is, the bolt is integrated into the laminated glass by embedding the bolt in the composite sheet softened by heating at least in the area surrounding the bolt.

Even better, the bolt is shielded from the outer discs embedded in the laminated glass so that as much as possible any contact between the bolt and the discs is excluded.

The invention is characterized in particular by the fact that it is possible with the method according to the invention to integrate in a lamination process holders and possibly also photovoltaic cells in laminated glass panes, taking into account safety and design criteria. In this case, the two or more discs to be joined together by composite films together form the bearing for a bolt to be embedded as a central component of such a holder. For the bolt, an opening or hole in the first disc is provided, in which the bolt is inserted until it reaches its seat, in which it rests on the inside of the second disc, whereby it is thus held in the rearward direction. So both discs together hold the bolt, the first disc in its circumferential direction, the second disc in its rearward direction. An additional safeguard consists in a plate which is screwed onto the protruding from the first disc part of the bolt before or after the lamination process and then rests flat in its final position on the first disc and thus fixes the bolt simultaneously and additionally. It is understood that the laminated safety glass pane according to the invention can have more than two panes to be joined together. It is particularly well suited for outdoor applications, because it not only meets high stability requirements, but also ensures a seal against water ingress. This is u. a. a water-repellent film to be positioned between the inside of the plate and the first disk and / or a sealing ring arranged between the bolt and the opening in the first disk.

Further details and advantages of the subject invention will become apparent from the following description of the accompanying drawings in which a preferred embodiment with the necessary details and individual parts is shown. Each shows a laminated safety glass pane:

1 in plan view,

2 in side view,

3 in a section after the line AA after 2 .

4 in exploded view,

5 a variant too 1 with photovoltaic cells,

6 a variant too 4 with photovoltaic cells and

7 a variant too 3 with photovoltaic cells.

The 1 - 4 show a variant of the invention without photovoltaic cells and thus without a correspondingly formed film or protective films. In 1 is a laminated safety glass pane 1 shown, here in plan view, the first disc 3 located at the top. Central is a holder 2 recognizable, consisting of the bolt 8th and the plate 7 with which the bolt 8th additionally in the direction of its longitudinal axis 14 is attached.

The structure of the laminated safety glass then explains 2 with the two discs 3 and 4 , Between the first disc 3 and the second disc 4 is a composite foil 5 arranged over the entire surface, the two slices after the lamination process due to an adhesive effect 3 and 4 permanently connected. From the holder 2 Here are just the ones made of laminated glass 1 protruding parts 2 to recognize, namely the bolt 8th and the plate 7 ,

This structure is even better illustrated in 3 , The first disc 3 and the second disc 4 are through a composite foil 5 , Preferably, a PDM film separated from each other or are connected to each other after lamination. This foil sees a recess 13 for the bolt 8th as an essential part of the holder 2 in front. This bolt 8th stores in the backward direction, ie with its rear end 15 on the second disc 4 , is thus in the direction of its longitudinal axis 14 held. Transversely to its longitudinal axis 14 , ie in the circumferential direction, is the bolt 8th through an opening 6 or hole in the first disc 3 held, being between the first disc 3 and the bolt 8th an O-ring 12 , preferably of PVB, is positioned. As additional fixation of the bolt 8th serves a plate 7 with a corresponding to the bolt 8th trained opening 16 , The plate 7 lies with its inside 17 on the first plate 3 at. In addition to this is a screw connection 9 between the bolt 8th and the plate 7 intended. Between the plate and the first disc 3 Again, a water-repellent film 11 , Preferably provided an EVA film. Thus, the bolt consists of a kind of three bolt sections 18 . 19 and 20 , From the first section 18 in which the bolt 8th in its circumferential direction through the first disc 3 and in the rearward direction through the second disc 4 is held, a second section 19 in which the bolt 8th from the plate 17 in the area of the screw connection 9 is surrounded and a third section 20 made of laminated glass 1 stands out and offers corresponding connection possibilities.

4 shows the exploded view of the composite according to the invention, consisting essentially of the two outer discs here 3 and 4 , The two outer discs 3 and 4 are through the composite foil 5 interconnected, the latter has a recess 13 which corresponds to the bolt 8th is trained. In the first disc 3 is again an opening 6 for the bolt 8th intended. This is in addition to the plate 7 fixed, in turn, with the bolt 8th is screwed. A slide 11 is water-repellent and thus prevents water from entering the holder 2 or the laminated glass pane 1 , This contributes to the fact that the laminated safety glass according to the invention is particularly well suited for outdoor use.

The 5 - 7 show the variant of the invention with photovoltaic cells, that is with appropriately trained films and protective films. So is about in 5 a laminated safety glass pane 1 shown in the area of their four corners 33 - 36 brackets 2 . 2 ' . 2 '' and 2 ''' having. Visible are also four evenly across the laminated glass 1 distributed photovoltaic cells 27 . 27 . 29 . 30 ,

6 shows the laminated safety glass according to the invention 1 on average. The first disc 3 and the second disc 4 are through the composite films 5 . 10 . 31 connected after lamination. The bolt 8th stores with its rear end 15 on the second disc 4 , Furthermore, the bolt has 8th at its rear end 15 the reinforcement 21 for better embedding in the composite foil 5 on. After lamination, the bolt is 8th with its rear section 18 from the hardened films 5 . 10 added. The middle section 19 of the bolt 8th is in the area of the disc 3 through which the bolt 8th in its circumferential direction, that is perpendicular to its longitudinal axis 14 is held. A seal 12 surrounds the bolt 8th in this area. This is in accordance with the embodiment 6 from five contiguous O-rings 22 - 26 educated. Further, the bolt 8th in its middle section 19 through the plate 7 fixed, which on the thread 9 screwed on and through the seal 11 is sealed accordingly.

Finally shows in exploded view 7 the structure of the laminated safety glass pane according to the invention with integrated photovoltaic cells. The laminated safety glass pane has the two outer panes 3 and 4 and two composite films 5 and 10 in between. Added to this is the foil 31 with the four photovoltaic cells 27 . 28 . 29 . 30 inside the disk 4 , The laminated safety glass comprises a total of four brackets 2 . 2 ' . 2 '' and 2 ''' , of which only the holder 2 is denoted by its individual parts. This includes next to the plate 7 and the sealing film 11 the bolt 8th and the seal to be applied to this 12 for positioning in the opening 6 in the outer pane 3 ,

Claims (15)

Laminated glass pane ( 1 ) comprising two outer discs ( 3 . 4 ) and at least one between the outer discs ( 3 . 4 ) arranged composite film ( 5 ), with at least one in the laminated glass pane ( 1 ) integrated bracket ( 2 ), characterized in that the holder ( 2 ) a bolt ( 8th ) whose position in the laminated glass pane ( 1 ) in the circumferential direction through an opening ( 6 ) in the first disc ( 3 ) and in the rearward direction through the second disc ( 4 ). Laminated glass pane according to claim 1, characterized in that the holder ( 2 ) one on the bolt ( 8th ), on the first disc ( 3 ) adjacent plate ( 7 ) having. Laminated glass pane according to claim 2, characterized in that between the bolt ( 8th ) and the plate ( 7 ) a screw connection ( 9 ) is provided. Laminated glass pane according to claim 2, characterized in that between the plate ( 7 ) and the first disc ( 3 ) a sealing film ( 11 ) is arranged. Laminated glass pane according to claim 1, characterized in that the bolt ( 8th ) in at least one composite film ( 5 . 10 ) is embedded. Laminated glass pane according to claim 1, characterized in that the bolt ( 8th ) against the outer discs ( 3 . 4 ) shielded into the laminated glass pane ( 1 ) is embedded. Laminated glass pane according to claim 1, characterized in that the bolt ( 8th ) at its the second disc ( 4 ) facing end ( 15 ) a collared reinforcement ( 21 ) having. Laminated glass pane according to claim 1, characterized in that between the bolt ( 8th ) and the opening ( 6 ) in the first disc ( 3 ) a seal ( 12 ) is arranged. Laminated glass pane according to claim 8, characterized in that as a seal () at least one O-ring ( 12 ) serves. Laminated glass pane according to claim 1, characterized in that the laminated glass pane ( 1 ) a at least one photovoltaic cell ( 27 - 30 ) further film ( 31 ). A method for producing a laminated glass pane by laminating a Vorverbundes, consisting of individual panes between them arranged composite films and at least one in the laminated glass to be integrated holder, characterized in that one of the holder associated bolt is inserted into the Vorverbund that its position in the circumferential direction fixing an opening in a first disk and in the rearward direction by a second disk, and then laminating the precoat into a final composite. Manufacturing method according to claim 11, characterized in that in the laminated glass pane, a further film having at least one photovoltaic cell is integrated. Manufacturing method according to claim 11, characterized in that the holders and the film are integrated with photovoltaic cells in a common process step in the laminated glass pane. Manufacturing method according to claim 11, characterized in that the bolt is integrated into the laminated glass pane by the bolt is embedded in the at least one composite film softened by heating at least in the area surrounding the bolt. Manufacturing method according to claim 11, characterized in that the bolt is embedded against the outer panes shielded in the laminated glass pane.

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