DE102015221185A1 - A laminated glass panel apparatus and method of controlling a laminated glass pane apparatus - Google Patents

Abstract

A laminated glass panel device according to the present invention comprises a laminated glass with a photochromic layer, an artificial light source which generates light having a wavelength spectrum which changes a transmittance of the photochromic layer, a coupling means for coupling light of the artificial light source into the photochromic layer and a controller for controlling the artificial one Light source such that the transmittance of the photochromic layer is changeable.

Description

The present invention relates to a laminated glass pane apparatus and a method of controlling a laminated glass pane apparatus. The laminated glass pane device is particularly suitable for a motor vehicle.

From the DE 10 2005 007 427 A1 For example, an electric sun visor for a motor vehicle is known. A windshield of a motor vehicle is at least partially adjustable in its transparency. For this purpose, the windscreen on a PALC layer or an SPD layer, which can be switched depending on an applied voltage between a transparent state and an opaque state or between a less-toned state and a more toned state.

To control such a windshield, the application of an electrical voltage is required.

Furthermore, it is from the DE 10 2008 024 870 A1 known to use a photochromic window, which has a self-toning effect according to a UV radiation intensity. In the case of strong UV sunlight, the photochromic window reduces its transmittance and increases the transmittance at lower UV solar radiation and thus has a self-tinting effect.

However, this photochromic windowpane is not according to the requirement of an operator, i. a vehicle occupant, controllable, but only responds to sunlight.

It is the object of the present invention to provide a laminated glass pane device with a photochromic layer and a method for controlling such a laminated glass pane device, wherein a transmittance of the laminated glass pane is controllable upon request.

This object is achieved by a laminated glass pane device having the features of claim 1. Furthermore, this object is achieved by a method for controlling a laminated glass pane device having the features of claim 11.

Advantageous developments are mentioned in the dependent claims. A laminated glass panel device according to the present invention comprises a laminated glass with a photochromic layer, an artificial light source which generates light having a wavelength spectrum which changes a transmittance of the photochromic layer, a coupling means for coupling light of the artificial light source into the photochromic layer and a controller for controlling the artificial one Light source such that the transmittance of the photochromic layer is changeable. Light refers to electromagnetic radiation in a visible and invisible area to the human eye. The artificial light source is a radiation source for this electromagnetic radiation.

In particular, the photochromic layer is a photochromic layer whose color is changeable.

By coupling light with a suitable wavelength into the photochromic layer, the transmittance of the laminated glass pane as a whole can be changed independently of solar radiation. The coupling device is preferably adapted in such a way that light is coupled into a light-conducting layer adjacent to the photochromic layer, in particular directly adjacent to it. The light guiding layer is adapted to radiate the coupled light of the artificial light source into the photochromic layer. As a result, the photochromic layer can be acted upon substantially uniformly over a larger area by the light which changes the transmittance, so that the transmittance of the laminated glass pane as a whole can be uniformly changed.

According to a preferred embodiment, the coupling device can be adapted to control the light of the artificial light source via an edge, i. an end face to couple the laminated glass pane.

As a result, the coupling device can be arranged outside a viewing region of the laminated glass pane.

Furthermore, the laminated glass pane of the laminated glass pane device according to the invention advantageously has at least one filter layer which is opaque or at least only partially permeable to light in a wavelength spectrum which alters the transmittance of the photochromic layer.

The filter layer can thus prevent, for example, sunlight or light from another light source from undesirably changing the transmittance of the photochromic layer.

Advantageously, a corresponding filter layer is formed on each side of the photochromic layer.

Thus, it is reliably prevented from meeting the photochromic layer from either side of the laminated glass of sunlight or light from another light source, which could undesirably alter the transmittance of the laminated glass pane.

According to a preferred embodiment, the light source generates substantially invisible light in the ultraviolet wavelength spectrum, i. UV light.

UV light is advantageous in that it is invisible to the human eye.

The light source may advantageously be a semiconductor light source, i. a light-emitting diode, for example, be a UV diode.

A semiconductor light source is particularly inexpensive to produce and consumes a small amount of energy.

According to a further preferred development, the laminated glass pane has a heat protection layer so that it does not strike the photochromic layer.

This is advantageous in that the photochromic layer changes its properties in the presence of heat rays.

In particular, the heat protection layer reflects light or radiation of the infrared spectrum.

The laminated glass pane further preferably has outer glass layers.

The photochromic layer can also be formed only in a partial region of the laminated glass pane, so that a portion of the laminated glass pane in the transmittance can be changed.

The laminated glass pane may be a pane of a motor vehicle, for example a windscreen, a rear window, a side window or a roof window.

The laminated glass pane device may also be used in any other area where glass sheets are applied, such as buildings.

Preferably, the controller is adapted to control a light transmittance and / or a degree of tinting of the laminated glass pane according to an operator request.

Furthermore, the present invention relates to a method of controlling a laminated glass pane device with a laminated glass pane having a photochromic layer comprising the steps of controlling, i. Turning on and off, an artificial light source, and coupling light of the artificial light source in the photochromic layer. The features of the invention described above can be combined as far as possible and meaningful with each other.

Here is a brief description of the drawing:

1 FIG. 10 is a schematic sectional view of a laminated glass panel device according to an embodiment of the present invention. FIG.

Hereinafter, a laminated glass pane apparatus according to an embodiment of the present invention will be described with reference to FIG 1 described.

In 1 is a laminated glass pane device 1 for a motor vehicle, for example. For a roof glazing or the like., Shown. The laminated glass pane device 1 has a laminated glass pane 3 on, which is composed of several layers in the composite. The laminated glass pane 3 has a photochromic layer 5 attached to a light-conducting layer 9 borders. The photochromic layer 5 and the light-guiding layer 9 are between two filter layers 13 . 14 arranged. As outer layers, the laminated glass pane 3 a glass layer 17 facing a vehicle exterior, and a glass layer 18 on, which faces a vehicle interior. Furthermore, between the glass layer 17 and the filter layer 13 a heat protection layer 15 educated.

The laminated glass pane 3 is frontally with a suitable plastic material 19 molded. Embedded in the plastic material are UV light-emitting diodes 7 which serve as the artificial light source according to the present invention. The UV diodes 7 are in particular along an end face of the light-conducting layer 9 educated. The light-conducting layer 9 is further formed such that at the interface between the Lichtleitschicht 9 and the photochromic layer 5 from the light-conducting layer 9 Light in the photochromic layer 5 can be coupled. This can be achieved with suitable refractive measures, such as, for example, with a roughening or a microscopic structure at the boundary layer of the light-conducting layer 9 or with suitable refractive nanoparticles in the light-conducting layer 9 are distributed. As a result, through the side into the Lichtleitschicht 9 radiating diodes 7 UV light from the diodes flat in the photochromic layer 5 be blasted.

The photochromic layer 5 is designed such that the transmittance at Irradiation with UV light changed, ie in particular reduced.

Furthermore, the laminated glass pane device 1 one in the 1 not shown control that can control the UV diodes, ie in particular on and off. When the UV diodes are switched on, UV light thus enters the photochromic layer 5 radiated, whereby their transmittance is reduced. When the UV diodes are off, the photochromic layer returns to or returns to its maximum transmittance.

The light-conducting layer is preferably made of a polyethylene terephthalate plastic having a thickness of 0.3 to 1 mm. The filter layers 13 and 14 are preferably made of a PVB film, which has a low refractive index and UV rays can reflect or not through. This can prevent the photochromic layer from being prevented 5 Unintentionally irradiated by UV rays, in particular by sunlight, and thus unintentionally changes their transmittance. The PVB layers preferably have a thickness of 0.4 to 0.8 mm.

The infrared reflecting layer 15 , which consists, for example, of vapor-deposited silicon oxide or silver, prevents the photochromic layer from being over-heated by sunlight from outside and thus changing its photochromic properties.

Overall, by the composite glass pane device according to the invention, a transmittance of the laminated glass pane can be changed if desired with relatively simple means with low energy consumption.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 102005007427 A1 [0002]
• DE 102008024870 A1 [0004]

Claims (11)

Laminated glass pane device ( 1 ), in particular for a motor vehicle, with a laminated glass pane ( 3 ) containing a photochromic layer ( 5 ), an artificial light source ( 7 ) which generates light with a wavelength spectrum which has a transmittance of the photochromic layer ( 5 ), a coupling device for coupling light of the artificial light source ( 7 ) into the photochromic layer ( 5 ) and a controller for controlling the artificial light source ( 7 ) such that the transmittance of the photochromic layer ( 5 ) is changed. Laminated glass panel apparatus according to claim 1, wherein the coupling means is adapted to direct the light into one of the photochromic layer ( 5 ) adjacent light-conducting layer ( 9 ), wherein the light-conducting layer ( 9 ), the light of the artificial light source ( 7 ) into the photochromic layer ( 5 ). Laminated glass device according to claim 1 or 2, wherein the coupling device is adapted to the light of the artificial light source ( 7 ) over a border ( 11 ) of the laminated glass pane ( 3 ). Laminated glass pane device according to one of claims 1 to 3, wherein the laminated glass pane ( 3 ) at least one filter layer ( 13 . 14 ) for light in a wavelength spectrum which determines the transmittance of the photochromic layer ( 5 ) is impermeable or at least partially permeable. Laminated glass device according to claim 4, wherein on each side of the photochromic layer ( 5 ) a filter layer ( 13 . 14 ) is trained. Laminated glass device according to one of claims 1 to 5, wherein the light source ( 7 ) Generates light in the ultraviolet spectrum, and in particular is a semiconductor light source. Laminated glass pane device according to one of claims 1 to 6, wherein the laminated glass pane ( 3 ) a heat protection layer ( 15 ), which in particular reflects radiation of the infrared spectrum, so that it does not strike the photochromic layer. Laminated glass pane device according to one of claims 1 to 7, wherein the laminated glass pane ( 3 ) outer glass layers ( 17 . 18 ) having. Laminated glass pane device according to one of claims 1 to 8, wherein the laminated glass pane ( 3 ) is a disc of a motor vehicle, in particular a windscreen, a rear window, a side window or a roof window, is. The laminated glass apparatus according to any one of claims 1 to 9, wherein the controller is adapted to control a light transmittance and / or a degree of tinting of the laminated glass according to an operator's request. Method for controlling a laminated glass pane device comprising a laminated glass pane ( 3 ) containing a photochromic layer ( 5 ), an artificial light source ( 7 ) which generates light with a wavelength spectrum which has a transmittance of the photochromic layer ( 5 ), a coupling device for coupling light of the artificial light source ( 7 ) into the photochromic layer ( 5 ), with the steps controlling the artificial light source ( 7 ) and coupling the artificial light in the photochromic layer ( 5 ), so that the transmittance of the photochromic layer ( 5 ) is changed.

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