WO2017129369A1 - Window element, attachment for a window element, façade element, system consisting of façade elements - Google Patents

Abstract

The invention relates to a window element (1) for a façade element (2), comprising at least two panes (3), at least one chamber (4) formed between the at least two panes (3), and at least one OLED film layer (5). The at least one OLED film layer (5) is arranged on at least one face of a pane (2). The at least one OLED film layer (5) is designed to display information, and the window element (1) is substantially transparent. The invention additionally relates to an attachment (10) for producing a window element (2) according to the invention and to a system consisting of façade elements (2).

Description

 Window element, attachment for a window element, facade element, system of facade elements

description

The invention relates to a window element with an OLED film for a facade element, a facade element, a system consisting of several facade elements and the use of the system according to the invention.

Conventional window elements for facade elements consist of either pure transparent glass, frosted glass or colored glass. Furthermore, it is possible to provide parts of a window element with a screen or to obtain a screen by means of a glued foil. The disadvantage here is that a separate component is needed for each desired function. If a function is no longer desirable, it may be necessary to replace the entire window element if, for example, frosted glass has been installed as a privacy screen. As a screen can also serve a teilverspiegelte disc. However, this has the disadvantage that the screen is essentially effective only in brightness differences. Because if an interior area is illuminated brighter by lighting than an outdoor area, the privacy of the interior is no longer given. In addition, so-called LC glass is known, which is also referred to as intelligent glass. This form of glass is a switchable glazing. The translucency of this glazing can be achieved by applying an electrical voltage or by other triggers, such as the like. Solar radiation or heating, to be changed. Depending on the design, these glasses can serve as sun protection or privacy screens, for example.

CONFIRMATION COPY Actual main purpose of a window, however, is the thermal insulation. For this purpose, a so-called multi-pane glass is usually used. Multi-pane glass is a component consisting of at least two glass panes for windows and other glazing. Between the panes there is a cavity, which is hermetically sealed and serves for thermal insulation. The insulating glazing is in contrast to other types of heat-insulating glazing an independent system that does not require a surrounding frame. This is achieved by means of a marginal composite, which holds the individual glass sheets at a distance and simultaneously hermetically seals the space between the panes. The space between the panes is currently most often filled with argon (18 mW / m * K). Other alternatives are krypton (9.5 mW / m * K) or xenon (5.5 mW / m * K). Currently, a two-layer glued edge composite is used as edge seal. Here is a 10 mm to 20 mm wide profile made of aluminum, stainless steel or plastic (the spacer) on both sides with a sticky layer of polyisobutylene or

Butyl rubber provided. This layer connects the panes together after pressing together and at the same time represents the first sealing plane. After filling the pan gap with gas, the gap between the circumference of the spacer and the protruding edges of the glass is provided with a second permanently elastic sealing plane of polyurethane or special polysulfides. For façade elements that are exposed to UV light at this point, silicone is used, which, however, is more permeable to gas. This development is further accelerated by the Federal Government's goals of reducing CO 2 emissions; EnEV 2007 and EnEV 2009 made the requirements for thermal insulation of buildings considerably more stringent. The object of the invention is therefore to provide a heat-insulating window element for a facade element, which is flexible, multifunctional, low-maintenance and easy to integrate into existing facade elements or attachable to existing window elements and space-saving ausgestaltetbar. This object is solved by the subject matter of claims 1, 11 and 12. Further advantageous embodiments are the subject of the dependent claims.

According to the invention, a window element is provided for a façade element which has at least two panes, for example a multi-pane insulating glass, at least one Has formed between the at least two panes formed chamber and at least one OLED film layer. A facade element according to the invention may be, for example, a window, an inner or outer door, a partition wall or a partition wall. An OLED layer is here only as an example and representative of any imaging and out of operation at least partially at least in the visible spectrum (about 400 nm to 700 nm wavelength) called layer. OLED film layers combine the advantages of high transparency out of operation and an actively lit screen with high energy efficiency and correspondingly low waste heat. Another example of such a layer are thin, at least partially transparent, LCD screens, which are currently even more cost-effective than OLED screens, but usually do not produce light but can only color-filter light from a light source that shines through them, which can be provided in the window element according to the invention. The window element according to the invention preferably has an integrated backlight, for example. The at least one OLED film layer is in this case arranged on at least one side of a pane, wherein the at least one OLED film layer is designed for displaying information, and wherein the window element is substantially transparent. Substantially transparent means that despite the coating with at least one film 50%, preferably at least 80% of the daylight, particularly preferably 90% of the daylight can penetrate the window element. The reference value 100% here is an unglazed wall opening. Thus, it is possible to use the window element according to the invention as a commercially available window element. A chamber according to the invention can serve for heat insulation or the efficient removal of waste heat from an electrical consumer located in it, in particular an OLED film layer operated as a screen. Accordingly, a chamber according to the invention can be filled with a good heat-conducting or a well-insulating, preferably gaseous medium. Preferably, the chamber is sealed for such a medium, so that it can not escape and in particular moist ambient air or pollutants can penetrate into the chamber, in particular with the sensitive OLED film layer. For example, penetrating dust particles could be deposited electrostatically on the electrically operated OLED film layer and thus compromise the luminosity.

Preferably, the at least one OLED film layer can be operated by an external or internal energy source and / or can be activated wirelessly or by cable via a transceiver. An activation is necessary, so that different functions by means of OLED film layer can be realized. For example, the transceiver may be a smartphone, a tablet, a laptop or similar devices, with which a control can be realized.

In a further preferred refinement, the at least one OLED film layer extends over the entire, but at least the entire, visible surface of the window element, which is not covered by a frame, for example. Covering the entire window element with the OLED slide layer ensures that the viewer perceives only the function provided by the OLED slide layer. Distracting or unwanted environmental influences, such as excessive background light (for example, sunlight), can thus be completely blanked out. In particular, variable and over the surface of the window element inhomogeneously illuminating Störlichtquellen (such as the headlights of passing means of transport) can be dynamically hidden. For this purpose, a camera system can detect the stray light sources and be in control connection with a transceiver, which adjusts the illumination of the OLED foil layer depending on the stray light for local distribution, intensity and / or color such that the stray light is compensated.

It is further preferred that at least one OLED film layer is located on an outer side of a disk facing away from the chamber and / or on an inner side of a disk facing the chamber. The attachment to an inside of the disc has the advantage that the film is better protected against environmental influences, such as rain or damage. Especially with regard to the use of OLEDs, an additional protection against moisture is advantageous, as this can damage or even destroy the OLEDs. In addition, the OLED film layer is arranged scratch-protected.

Preferably, the at least one OLED film layer is constructed modularly by a plurality of individual adjacent and / or overlapping OLED film parts. A continuous individual film has the disadvantage that it is very difficult to attach for large areas without kinks, waves or other deformations of the film occur. In addition, a film layer of large area, based on the area unit, is more susceptible to defects such as pixel errors and therefore more wasteful and expensive. Thus, it is advantageous to cover a large area with several smaller sheet elements which directly adjoin or overlap one another to simulate a continuous sheet. So Any area of a window element OLED foil layers can be covered in particular standardizable size. When overlapping film parts, the transparency of the window element decreases because the light is shadowed by several consecutive film parts. According to the invention, therefore, a control device can be provided which selectively controls the overlapping regions and regulates the intensity of the overlapping film parts with respect to intensity and / or color distribution of the emitted and / or transmitted light, so that, for example, the brightness in the overlapping regions is at least one Page of the window element does not deviate from the other areas. In the simplest case, from the perspective of one side, only the overlapping region of the overhead film part is activated, while the overlapping region of the at least one lower film part is not activated. In particular, it can be provided that window element covered in a modular manner with foil parts is calibrated in order to ensure homogeneous illumination over the surface, regardless of manufacturing deviations. A system for such a calibration consists for example of a computing unit and / or the sensor receiver of the window element, which is in control connection with a camera system for receiving the window element. According to the invention, the calibration can take place during initial startup or after production of the window element. In addition, a recalibration can be carried out in order to compensate, for example, over time decreasing luminosity or transmittivity in certain areas of the window area, such as, for example, pixel errors.

In another preferred embodiment, at least one active and / or passive element is provided for cooling the at least one OLED film layer. A cooling of these elements is imperative, especially in OLED film layers, which are located on a disk inside between two disks in a chamber. Failure to dissipate the waste heat could cause damage to the film and / or the window element. To prevent this, various cooling elements are possible. One possible realization of active cooling is the use of a Peltier element. This element generates a temperature difference when current flows through, whereby cooling of the OLED film layer is possible.

Furthermore, a spacer is preferably provided between the at least two disks, which comprises a thermal bridge. This thermal bridge is suitable for dissipating the waste heat of the OLED film layer. About such an arrangement, a söge- called cold edge generated, although a disadvantage to a relevant expert in terms of thermal insulation, but at least partially dissipate the waste heat in the operation of an OLED film layer as a large screen area. Preferably, this element is provided laterally at the top of the discs to produce convection of the fluid in a chamber. In commercially available windows, the spacer is made of a poorly heat-conductive material such as rubber, since it prevents the heat from being able to escape from the room to the outside. The arrangement of a poorly heat-conductive material at a wheel edge leads to a so-called warm edge. For this reason, triple glazing is particularly preferred in order to obtain two chambers, of which a chamber which adjoins an OLED film layer has a high thermal conductivity and therefore forms a cold edge in order to dissipate the waste heat of the OLED film layer. The further located on the outside of the window member chamber, however, has a poor thermal conductivity in order to ensure the desired thermal insulation.

A particular advantage of the invention is that, with good thermal insulation of a connected through the window element exterior and interior, the efficient cooling during operation of an OLED film layer is guaranteed as a large screen area. In the case of a window element according to the invention, in addition to the at least one OLED film layer, a further layer which is different from the OLED film layer may be arranged. The further layer is preferably configured as a partially mirrored layer, a UV absorption layer, a heat-insulating layer, an optical polarizing layer oriented for shading from above incident ambient light and / or a dirt and / or liquid-repellent layer. The partially mirrored layer can consist, for example, of a layer, for example 5 nm or 10 nm to 30 nm or 50 nm thin, of a metal such as chromium, which is applied directly to a pane or to a film applied to a pane. The different layers can be evaporated on the disc, deposited or glued.

Preferably, the at least one chamber is sealed from the environment. Particularly preferably, the window element has two chambers, wherein at least one chamber filled with an OLED film layer with thermally conductive medium and / or at least a chamber without OLED film layer is filled with heat-insulating medium. A seal is advantageous with regard to the filled chambers, since otherwise the medium could escape and ambient air and thus moisture could penetrate into the chamber.

According to a further embodiment of a window element according to the invention, an input device can be provided. Preferably, it is part or full surface on a disc, preferably on an outer side of a disc provided. It is also conceivable to arrange a pressure-sensitive, temperature-sensitive or capacitive input device in or on an inner side of a pane. For example, an input device according to the invention may be a touch-sensitive layer or a touch display. Also conceivable is an input device with a microphone system for voice control or with an optical system for detecting defined control gestures of a user. In addition, a computing unit can be installed in the window element or assigned by a wired or wireless data connection. In this embodiment, a window element according to the invention can be equipped, for example, with the functionality of a computer or tablet computer.

According to a further embodiment of a window element according to the invention, it is possible, preferably laterally and / or from all sides of the window element, to provide lighting means for decoupling light into the window element. For homogeneous illumination of the window element may preferably be arranged downstream of the light sources in the direction of the beam path in each case one or more scattering lenses or other optical scattering elements. In this embodiment, the laterally arranged light sources can be used as background illumination for an OLED foil layer.

According to a further embodiment, a window element according to the invention can have at least one light source for emitting UV light, preferably light having a spectral color distribution and / or intensity corresponding to natural sunlight. Natural sunlight entering the skin intervenes in human or animal metabolism, in particular due to its special ultraviolet component, and can, for example, strengthen the immune system. Thus, a window element according to the invention of this embodiment can be used as a skin tanning agent or also for therapeutic purposes. the.

Furthermore, the invention relates to a window element for a facade element with at least two panes, with at least one chamber formed between the at least two panes and optionally at least one OLED foil layer according to a prescribed configuration and arrangement. In this case, the at least one chamber is designed as a luminous body, preferably as a cold cathode luminous body or as a gas discharge lamp. For homogeneous illumination of the chamber, a plurality of electrodes per electrical polarity (such as, for example, anodes and cathodes) may preferably be arranged distributed uniformly on at least two or all sides of the chamber. Preferably, the electrodes are designed so that they do not substantially obstruct the visible surface of the discs comprising the chamber. For example, the electrodes may be arranged only laterally so that they do not protrude into the visible surface of the discs. It is also conceivable to design the electrodes as thin filaments which are barely perceptible to the human eye in the visible region of the window element, so that even large-area visible regions can be homogeneously illuminated even in central sections. The chamber is preferably filled with a noble gas such as neon, helium, nitrogen, carbon dioxide, krypton and / or argon. Depending on the gas or gas mixture, the color of the emitted light can be adjusted. It is also conceivable, in particular, that light can be generated by selecting a suitable gas mixture, at least with an ultraviolet spectral component.

The invention further relates to an attachment for a conventional window element comprising at least one pane with an OLED film layer and an attachment element for connection to a conventional window element. The attachment element can be configured inter alia as a clamping element. It is also conceivable a kind of adhesive connection or a combination of both variants to ensure a permanent and secure connection. An attachment according to the invention consists, for example, of at least one disc on which, at least on one side, a circumferential frame is arranged with a circumferential contact surface for connection to a conventional disc. By attaching the attachment over the contact surface with the conventional disc creates a preferably airtight chamber. At least one OLED film layer is mounted on the at least one pane of the attachment, preferably on the same side as rotating frames, so that in the assembled state of essay and conventional disc, the OLED film layer is scratch and weather protected in the chamber. One particular advantage of such an essay is that so with any conventional disc, the specifications of such as sun protection, mirroring, UV protection, weather resistance, liquid or protective coating, thermal insulation properties, standards, price or according to other known to one skilled in the functionalities of a Slice can be selected, an inventive window element can be generated. According to the invention, therefore, such an attachment can be configured with the features of a window element according to the invention.

Furthermore, the invention is also directed to a facade element with at least one window element according to the invention. In a preferred embodiment of the facade element, this has, in addition to the window element, further elements, in particular a loudspeaker system and / or a camera system. For example, the loudspeaker system may serve to enhance the acoustics shown on the window elements.

It is further preferred that the facade element is movable with at least one movement device, preferably pivotable about at least one hinge or displaceable in a guide. A further advantage is that at least one movement device is designed as a sliding contact and / or for receiving flexible cables for the transmission of signals and / or electrical energy. It is also conceivable optical signal transmission by fiber or by free jet on the window element. In this case, the window element can be assigned an optoelectric transducer for signal conversion of an optical signal into an electrical signal.

The invention further relates to a system comprising at least one facade element according to the invention with at least one window element according to the invention, wherein an arithmetic unit is provided for the synchronous activation of the facade elements, in particular of the technical devices. When using multiple facade elements for a specific function, a synchronous control is necessary because deviations could be distracting. The invention is further directed to the use of a system according to the invention for a room for simulating any environment of the room. In particular, at least one application as a screen, as privacy protection, as indirect lighting, for a simulation of a day cycle, as an advertisement and / or an application as a security system is possible. For use as a security system, in particular an embodiment with speaker system and camera system is advantageous in that the events can be recorded on the cameras, while ^'s and / or the speaker can be output, for example warnings concerning the OLED. Conventional security systems simulate the presence of residents by timed turning off and on of lights. The window elements according to the invention make it possible to display persons on the transparent OLED film layers who move through an interior from the perspective of an outside observer.

For example, window elements, facade elements or systems according to the invention can be used in dark or low-light outdoor situations. Such outdoor situations are, for example, in particular closed rooms, basements, bunkers, light-protected laboratories, cells, hospital rooms or regions with low natural sunlight, such as, for example, regions in northern latitudes during the winter months. The lack of sunlight and a controlled day-night cycle can lead to dissatisfaction, malaise or even pathological conditions such as depression in people in rooms with such an outdoor situation. For example, a system according to the invention for simulating a day cycle, which in particular is longer and / or brighter than the natural clock cycle of the outside situation, can be used. According to the invention, a luminous means can also be provided at least with a proportion of radiation in the ultraviolet spectral range, preferably the spectral range in the special distribution, which corresponds to natural sunlight. Thus, the UV-induced effect of sunlight on the human body and in particular the human skin can also be simulated and substituted. Further advantages and embodiments will become apparent from the accompanying drawings. Technical features listed therein are also claimed in isolation from their combination of features, which is given by way of example only. Technical features with the same or similar effect are marked with the same reference number. Because of Clarity is partly waived by the marking of repeatedly displayed technical features.

a schematic cross-sectional view of a window element according to the invention in a facade element; a front view of a window element according to the invention with overlapping foil elements; an alternative embodiment of the window element shown in Figure 2 with non-overlapping but adjacent foil elements. a trained as an attachment window element with clamp connection during assembly; another designed as a tower window element before assembly;

6 shows a schematic representation of a facade element according to the invention;

Fig. 7: a schematic representation of a preferred embodiment of a

 Window element with 2 OLED foils;

8 shows a schematic representation of a preferred embodiment of a

 Window element with 1 OLED film and another layer;

9 shows a schematic representation of a further preferred embodiment of a window element with 3 panes and 2 OLED films;

Fig. 10: a hinge with a duct;

FIG. 11 shows a further hinge designed as a sliding contact; FIG. Fig. 12: a further alternative embodiment of a window element with a

Cooling element and

Fig. 13: another embodiment of a window element with 3 panes with a cold and a warm edge.

FIG. 1 shows a cross-sectional view of a window element 1 according to the invention, which is mounted in a facade element 2. The window element 1 in this case has two discs 3, which are aligned parallel to each other. On one of the disks 3, an OLED film layer 5 is attached. Furthermore, a spacer 7 is mounted between the discs 3, which comprises a thermal bridge in order to dissipate the waste heat of the OLED film layer 5. Accordingly, this spacer 7 simultaneously serves to cool the OLED film layer. In addition, in Figure 1, a further layer 8 is shown, which may serve as a screen, for example. There is a chamber 4 between the two discs 3, which, depending on the application, can be filled with a heat-conducting or heat-insulating medium.

FIG. 2 shows a front view of a window element 1 according to the invention. Shown here is the pane 3, on which small foil elements 5a are attached, which are arranged adjacent to one another and overlap in some areas 5b. Furthermore, an element 6 for cooling the individual OLED film elements 5a is shown schematically, which may be formed, for example, as a Peltier element. In addition, AnSteuerelemente 9 are provided, by means of which the individual film elements 5a are controllable. FIG. 3 shows an alternative embodiment of the window element 1 from FIG. 2 with foil elements 5a adjoining one another only.

FIG. 4 shows an embodiment in which the window element 1 is designed as an attachment 10 for a conventional window 12. The attachment 10 consists of a disc 3 with an OLED foil layer 5. The attachment 10 can be attached to the conventional window 12 via the attachment element 11. The attachment element 1 is shown here by way of example as a clamping frame. Fig. 5 shows another formed as an attachment 10 window element 1 before assembly. By way of example, two valves 13 are provided on the disk 3, which has the OLED film layer. It can also be provided only one valve 13 or more than three valves 13. These valves 13 serve to evacuate or purge air in a chamber 4 between the cap 0 and an associated conventional disc (not shown) as well as for introducing gas for heat transfer or thermal insulation.

FIG. 6 shows a schematic view of a facade element 2. A speaker system 21, a camera system 22 and a movement device 23 are additionally arranged on this facade element.

Fig. 7 is a schematic representation of a preferred embodiment of a window element 1 with two OLED foil layers 5 and a chamber 4. Fig. 8 is an alternative embodiment of the window element 1 shown in Fig. 7, in which embodiment an OLED foil layer 5 and another Layer 8 are provided. Particularly preferably, the two OLED film layers 5 shown in FIG. 7 and those shown in FIG. 8 are arranged on the sides of the disks 3, which face the chamber 4 in order to protect the OLED film layers 5 from environmental influences. On the other hand, the further layer 8 can also be arranged closer to an outer side A, and e.g. be designed as a UV filter layer.

Fig. 9 shows a particularly preferred embodiment of the window element according to the invention 1. The window element 1 in this case has a triple glazing and thus consists of three discs 3. Accordingly, two chambers 4 are provided, which could be filled with a different fluid, in each case closer the outer side A heat insulation and closer to the inside I and to the OLED film layers 5 provide a thermal conductivity. In the schematic figures 7-9 is not shown that the chambers (4) can be completed on all sides.

Fig. 10 shows a hinge 30 with a duct 31. Through the duct 31, a flexible cable for power supply or for driving an OLED film layer 5 is preferably performed. FIG. 11 shows an alternative hinge 30, wherein the hinge 30 is designed with a sliding contact 32. Fig. 12 is another alternative embodiment of a window member 1 with a cooling element 6. The cooling element 6 may be formed in this case as a Peltier element. FIG. 3 shows a further embodiment of a window element 1 with three panes 3 with a cold 14 and a warm edge 15. An OLED foil layer 5 can be cooled via the cold edge 14, whereas by placing a hot edge 15 closer the outside A achieves thermal insulation.

The features cited in the description are shown in merely exemplary feature combinations. Insofar as a particular feature combination is not explicitly described as technically necessary, the objects according to the invention can also be configured independently of one another and in any desired combination by all the features described.

LIST OF REFERENCE NUMBERS

1 window element

 2 façade element

 3 disc

 4 chamber

 5 OLED film layer

 5a OLED foil element

 5b overlapping area

 6 cooling element

 7 spacers

 8 more layers

 9 control

 10 essay

 11 attachment element

 12 conventional window

 13 valve

 14 Cold edge

 15 Warm edge

 21 speaker system

 22 camera system

 23 movement device

 30 hinge

 31 line channel

 32 sliding contact

 A outside

I inside

Claims

claims

A window element (1) for a facade element (2), comprising at least two panes (3), at least one chamber (4) formed between the at least two panes (3) and at least one OLED foil layer (5) at least one OLED film layer is disposed on at least one side of a disk (3), wherein the at least one OLED film layer (5) is configured to display information, and wherein the window element (1) is substantially transparent.

2. Window element (1) according to claim 1,

 characterized in that

 the at least one OLED film layer (5) can be operated by an external energy source and / or can be activated wirelessly or by cable via a transceiver.

3. window element (1) according to one of the preceding claims,

 characterized in that

 the at least one OLED film layer (5) extends over the entire surface of the window element (1).

4. window element (1) according to one of the preceding claims,

 characterized in that

 at least one OLED film layer (5) on one of the chamber (4) facing away from the outside of a disc (3) and / or on one of the chamber (4) facing inside a disc (3) is arranged.

5. window element (1) according to one of the preceding claims,

characterized in that the at least one OLED film layer (5) is modularly constructed by a plurality of individual adjoining and / or overlapping OLED film parts (5a).

6. window element (1) according to one of the preceding claims,

 characterized in that

 at least one active and / or passive element (6) is provided for cooling the at least one OLED film layer (5).

7. window element (1) according to claim one of the preceding claims,

 characterized in that

 between the at least two discs (3) a spacer (7) is provided, which comprises a thermal bridge.

8. window element (1) according to one of the preceding claims,

 characterized in that

 in addition to the at least one OLED film layer (5) another, to the OLED film layer (5) different, further layer (8) is arranged, wherein the further layer (8) preferably as a partially mirrored layer, a UV absorption layer , a heat-insulating layer, an optical polarizing layer directed to the shading of ambient light incident from above, and / or a dirt and / or liquid-repellent layer.

9. window element (1) according to one of the preceding claims,

 characterized in that

 the at least one chamber (4) is sealed from an environment.

10. window element (1) according to claim 9,

 characterized in that

the window element (1) has two chambers (4), wherein at least one chamber (4) with an OLED film layer (5) filled with thermally conductive medium and / or at least one chamber (4) without OLED film layer (5) with heat-insulating medium is filled.

11. Window element (1) according to one of the preceding claims, characterized in that

 the window element (1) is provided with an input device, preferably partially or completely over a contact-sensitive layer or a touch display arranged preferably on an outside of at least one pane (3).

12. window element (1) according to one of the preceding claims,

 characterized in that

 are preferably provided laterally and / or from all sides of the window element, light source for decoupling of light in the window element, wherein for homogeneous illumination of the window element are preferably downstream of the light sources in the direction of the beam path scattering lenses.

13. window element (1) according to one of the preceding claims,

 characterized in that

 at least one light emitting device for emitting UV light, preferably of light having a spectral color distribution and / or intensity corresponding to natural sunlight.

14. window element (1) for a facade element (2), in particular according to one of the preceding claims, with at least two discs (3), with at least one between the at least two discs (3) formed chamber (4), wherein at least one chamber ( 4) is designed as a luminous body, preferably as a cold cathode luminous body or as a gas discharge lamp, wherein for the homogeneous illumination of the chamber (4) preferably a plurality of electrodes per electric polarity are preferably distributed uniformly on at least two or all sides of the chamber (4), wherein the Chamber is preferably filled with a noble gas such as neon, helium, nitrogen, carbon dioxide, krypton and / or argon.

15. Attachment (10) for a conventional window element (12) comprising at least one pane (3) with an OLED film layer (5) and an attachment element (11) for connection to a window element (1) according to one of the preceding claims

16. Facade element (2) with at least one window element (1), characterized in that

 the window element (1) according to one of claims 1 to 14 is configured.

17. Facade element (2) according to claim 16,

 characterized in that

 in addition to the window element (1) further elements, in particular a speaker system (21) and / or a camera system (22) are provided.

18. Facade element (2) according to one of claims 16 to 17,

 characterized in that

 the facade element (2) with at least one movement device (23) movable, preferably about at least one hinge pivotally or in a guide is displaceable.

19. Facade element (2) according to claim 18,

 characterized in that

 at least one movement device (23) is designed as a sliding contact and / or for receiving flexible cables for the transmission of signals and / or electrical energy.

20. System comprising at least one facade element (2) according to one of claims 15 to 19 with at least one window element (1) according to one of claims 1 to 9, wherein a computing unit for synchronously driving the facade elements (2), in particular the technical devices ( 21, 22) is provided.

21. Use of a system according to claim 20 for a room for simulating any environment of the room, in particular at least one application as a screen, as privacy, as indirect lighting, for a simulation of a day cycle or the presence of people, as an advertisement and / or a Application as security system.