DE19943355A1 - Display material is formed by front partially-reflective layer and rear layer carrying information made visible by backlighting, hence forming composite acting as mirror or display - Google Patents

Abstract

The front layer (1) is partially-reflective layer. Behind it is a display layer (2), on which information is seen when illuminated actively or passively. Light incident on the reflective layer from the front, is largely reflected, as from a mirror. Illumination of the display layer, reveals its information to a viewer at the front.

Description

The present invention relates to a reflective material with a display function and be preferred uses of such a material, especially in devices with electrical lighting.

Mirrors and materials with a reflective surface can be found in technology and design widely used. As a rule, mirrors or materials with a reflective surface only designed for the purpose of appropriately reflecting incident light. For modern ones Office buildings are also known for mirrored surfaces, although in the visible spectrum are predominantly reflective, but largely in the infrared spectral range are opaque. Common materials with a reflective surface are therefore in their Functionality significantly restricted.

Many types of information display devices are also known in the art for example screens, LED displays, LCD displays etc. The ones visible to the viewer However, the surface of such information display devices often does not meet the requirements changes in modern design and in particular cannot be used as mirrors the.  

The object of the present invention is to provide a material, in particular a composite material create that can be used both as a mirror and as an information display. A Another object of the present invention is to preferred applications of the inventions to create appropriate material.

This object is achieved by a material with the features of claim 1 and by a device according to one of claims 23 to 26, 28, 29 and 31. Advantageous Further training is the subject of the related subclaims.

According to the invention, a material, in particular a composite material, is created which a reflective layer and an information display layer. The reflective Layer serves as a mirror, in particular in the visible spectral range of light emitted by a Front or viewing side falls on the material to reflect back. The Information display layer is according to the invention on the back of the reflective Layer arranged, i.e. H. with the intended use of the material on the Viewing side of the material facing away from the material.

The information display layer provides information by means of active or passive illumination in the form of a light pattern with brightness and / or color differences, in particular are presented in the visible spectral range.

The reflective layer of the material according to the invention has a partial reflection assets on, d. H. Light that strikes the reflective layer only becomes of it Part reflected, the rest of the light is transmitted. Thus, the light pattern that the reflective layer is partially presented by the information display layer penetrate to perceive on the surface of the reflective layer as information to be able to be taken.

According to the invention, therefore, a material with a double function is created. The Ma material can be used on the one hand as a mirror and on the other hand as an information display. According to the invention, both functions can be performed in a confined space and with one and the same ben material can be realized, so that space and manufacturing and operating costs are saved can be.  

The material according to the invention can be used in a variety of ways where functional An information display is desired for reasons, but at the same time, for example from aesthetic reasons, a reflective surface is desired.

This dual function can be used in a variety of ways. Many used in technology Information displays are particularly unattractive when switched off. this applies for example for LED displays on which the Zif can easily recognize far fields. According to the invention, the surface of such In formation display devices mirrored, which clearly the overall aesthetic impression improved. According to the invention, the disruptive overall aesthetic impression of Information displays completely.

According to the present invention, on the mirrored surface of the material In formation can be shown completely unexpectedly for a viewer. This is all the more true than it is unusual for information to be displayed on a reflective surface. This surprising effect can be used to attract the attention of the Be trachters even more to draw attention to the information presented. The mate according to the invention rial is therefore particularly suitable for advertising or warning purposes.

In the following, the term passive illumination in particular includes the illumination the information display layer by means of one on the back of the information display layer light source understood, which is useful at any time is switchable and can preferably provide light with variable intensity. At this Embodiment provides the information display layer for displaying information Ab sections of different transmission and / or different spectral absorption are capable of representing the light that strikes the information display layer from the light source and penetrating them, modulating them differently in intensity and / or color.

In the following, the term active illumination is understood in particular to mean that at least individual sections of the information display layer due to an electrical measurement mechanism can emit light automatically, as can be the case, for example, for LED arrays is known.  

Further details on the active or passive illumination of the information display layer are explained in more detail below with reference to preferred embodiments be described.

So that light from the back of the material, i.e. H. from the viewing or front side opposite side of the material, can reach the viewing side, has the reflect the layer according to the present invention has a partial reflectivity, i. H. on Reflectivity of less than 100 percent. However, the reflective layer needs do not have such a partial reflectivity on the entire surface. On partial reflectivity is only required on those sections where Informa tion should actually be displayed.

As a result of the active or passive illumination of the information display layer, light falls from the side of the information display layer onto the reflective layer partially penetrates and can then from the viewing side of the material or on the reflective layer are perceived.

According to the invention, any moving and / or still picture information can be used as information being represented. Examples of moving picture information are video picture sequences, television image information, technical advertisements with time-variable content, for example drawing and / or numerical displays or date and / or time information, each in black and white and / or color. Static representations of subjects are examples of still image information in black and white and / or color, technical information such as drawing and / or digital displays, but also textures or structuring of materials that are arranged behind the reflective layer.

The reflectivity of the reflective layer is at least in the spectral range, in which the information by means of light of a predetermined wavelength or wavelengths Distribution should be shown, chosen so that light from the front or view side of the material strikes the reflective layer, sufficiently reflected is so that the reflective layer as a mirror with a satisfactory reflection fortune works. On the other hand, the reflectivity of the reflective layer also chosen so that there is sufficient light that embodies the information to be displayed, the reflective layer can penetrate from the back of the material and on the front  the or viewing side of the material are clearly perceived as information can. The reflectivity of the reflective layer is subject to a certain extent compromise, depending on various factors, such as how light strong is the illumination of the information display layer, how bright the foreground of the Ma terials when used as intended and how bright the information on the reflective layer is to be displayed.

The reflectivity of the reflective layer is preferably at least that Spectral range in which the information by means of light of a predetermined wavelength or Wavelength distribution should be shown, in the range of 75 to 95 percent, in particular others in the range of 85 to 95 percent.

The reflectivity of the reflective layer is preferred to be visible overall Spectral range essentially constant. Such reflectivity can be determined by me metallic vapor deposition of a surface or by coating with a dielectric variety compartment coating, in particular with a number of dielectric layers with a thickness about a quarter of the wavelength of light in the relevant spectral range, can be achieved.

The reflectivity selected in the visible spectral range can also extend into the continue infrared spectral range. However, it may also be preferred that the reflection layer in the infrared spectral range is much more permeable than in the visible spectrum tralbereich is to prevent excessive heating of the information display layer in the Counteract illumination.

So that the reflectivity of the reflective layer is not caused by background reflection behind the reflective layer, it is preferred that at least the surface of the information display layer facing the reflective layer an anti-reflective coating, as is known, for example, from glasses, in particular is especially provided with dielectric multilayers. It is further preferred that the Information display layer, if it is not illuminated, a dark background reason, so that as far as possible no disturbing light from the back of the reflective Layer ago can get to the front. For this purpose, the back of the Information display layer can also be provided with a light diffusely scattering surface.  

The reflective layer is preferably closed directly with the information display layer a composite material with a sandwich structure. However, there can also be a gap be provided between the two layers. In the latter embodiment, it will preferred that the gap is light-tight at the end, so that in the gap in the we considerably no light can fall in laterally, which would otherwise be due to the sections of the reflective Layer with the partial reflectivity would be visible on the front of the material.

In a first embodiment, in particular with passive illumination of the information display layer, is the information display layer as a transparent or semi-transparent Material designed to display sections with different information Transmission has. Such a layer is removed on the back by means of a light source lights up, the light penetrating the information display layer becomes the Ab cut intensity-modulated with different transparency, so that the luminous flux one Information is imprinted. The transparency of the material for all wavelengths in the visible spectral range be uniform, but it can also be spectrally different, so that the luminous flux in addition to gray level information also a color pattern as In formation can be impressed.

The transparent or semi-transparent material particularly preferably comprises information a suitable plastic film, for example in the manner of black and white or color negative films, especially a so-called backlight film. With the transparent However, it can also be th or semi-transparent material of the information display layer a glass or plastic layer, which is either superficial with a gray shade fen- or color pattern is provided, for example by etching and / or coloring the Surface, or which has grayscale or color patterns in the material itself, for example caused by storage. Such a glass or plastic layer is preferred have a light diffusely scattering surface, so that light that is reflected by the reflective Layer gets through, is not directly reflected back. Finally, the Informati on display layer also comprise another transparent or semi-transparent material, that can impress intensity or color patterns on a luminous flux, for example a ver equally coarse-mesh textile with a fabric structure or a comparatively thin blackened and / or colored cardboard web.  

In a further embodiment, the information display layer comprises a matrix or an array of light emitting polymers. Such polymers are known to be similar to semiconductors have a band gap, so that when a suitable span Plastic light is emitted. Arrays are already in the prior art known from light-emitting polymers, the individually controllable fields in the manner of a Have LED matrix, each of which a control electrode is assigned. Preferably the back of such a matrix has a light diffusely scattering surface.

The aforementioned materials for the information display layer can also be plastic for example by applying heat to any three-dimensional shape be shaped. Plastic deformation in lampshades or is particularly preferred Lamp columns which are coated or provided with a material according to the invention.

In this embodiment, the reflective layer can be in the form of a metallic or dielectric coating can be applied directly to the information display layer, for example directly on a plastic film or a matrix of light-emitting Polymers. In this way, the manufacturing cost of the material can be further increased be lowered.

The reflective layer can also be applied to a separate transparent material be connected to the information display layer to form a flat composite material is, for example, a laminate with a sandwich structure. In particular, it can reflect de layer is formed directly on the surface of a plastic layer, for example by vapor deposition with a metal layer or a dielectric multilayer. The plastic layer with the information display layer is preferably thermover welded or formed as a laminate material by gluing.

In another preferred embodiment, the information display layer is so placed that at least a portion of this can be actively illuminated. Examples of active out Illuminable information display layers are screens, in particular bright plasma screens, LCD displays designed for transmitted light operation with background lighting are how these, for example, from the control of overhead projectors using Com are known here, a layer comprising a matrix or an array of LEDs, etc.  

In this embodiment, the reflective layer, in particular a metallic one or dielectric multi-layer coating directly on the surface of the information pointing layer be formed. However, because such information displays are often considered ready components to be purchased, it is preferred that the reflective layer on the Surface of a glass or plastic layer or another suitable transparent Layer is formed. This layer is then, for example, by gluing, laminating or another suitable connection technique connected to the information display layer the.

For LEDs but also light-emitting polymers, it is characteristic that the light emission occurs in a comparatively narrow-band spectral range, for example in the red Spectral range. Therefore, in a further preferred embodiment, the spectral Reflectivity of the reflective layer chosen just so that this in the narrow-band emission wavelength range a comparable narrow-band minimum has, whereas the reflectivity in the rest of the spectral range, as in the aforementioned embodiments, a comparatively high and preferably approximately assumes a constant value. In particular, the reflection ver May the mirror be chosen as close as possible to 100 percent. That way ensures that even more light from the information display layer is the reflective Penetrate layer and can be perceived by a viewer, but that in in the other spectral ranges, the material is used as a high-quality mirror material that can. The high transmittance in a relatively narrow-band spectral range is not perceived by viewers as disturbing. Rather, this only leads to one slightly reduced reflectivity of the mirror.

Such reflectivity can be achieved by multiple coating with dielectric Easily reach quarter-wave layers. The minimum reflection is preferably ability of the reflective layer in the area of the narrowband minimum in the area from 50 to 85 percent, especially in the range from 50 to 65 percent.

In all of the aforementioned embodiments, at least the reflective one is preferred Layer covered by a protective layer that acts as mechanical protection and / or oxidati protection for the usually sensitive reflective layer. Such protection  Layers are in the prior art for example to protect mirrors or glasses known.

The invention is illustrated by way of example below and with reference to the beige added drawings of preferred embodiments explained. Thereby more Features and advantages of the invention will be apparent. The figures represent:

A material layer according to the invention Fig 1 is a schematic cross-sectional view of a first embodiment with passive illumination of the information display.

Fig. 2 is a schematic cross-sectional view of a layer material of the invention according to a second embodiment with active illumination of the information display;

Fig. 3 is a schematic cross-sectional view of a lamp according to the invention with a material according to the first embodiment; and

Fig. 4 is a schematic view of a mirror having a material according to the invention ge according to the second embodiment to selectively display information or to serve as a mirror.

In the figures, the same reference symbols designate identical or functionally identical elements or characteristics.

Fig. 1 shows a schematic cross-sectional view of a material according to the invention ge according to a first embodiment. The material comprises a reflective layer 1 and an information display layer 2 . As indicated schematically by the differently dotted sections of the information display layer 2 , this comprises a number of sections of different transparency for light, in particular in the spectral range in which information is to be displayed. This is usually the visible spectral range, but can also be the infrared spectral range, for example. On the back of the information display layer 2 , ie on the side facing away from the reflective layer 1 , a light source 4 is arranged, which can optionally be switched on and off and can also be controlled before with respect to the intensity. It can also be provided that individual sections of the information display layer 2 can be illuminated by means of separate, independently controllable light sources.

Light that strikes the reflective layer 1 from the front or intended viewing side, ie from the left edge in FIG. 1, is partially reflected by the latter. The reflected portion R depends on the reflectivity of the reflective layer 1 and, in a particularly preferred embodiment, is in the range from 85 to 95 percent, so that most of the incident light is reflected again. The reflective layer can thus serve as a mirror for a viewer who is sensitive to the front of the material.

Light emitted from the light source passes through the information display layer 2 . The luminous flux is imprinted on the sections with different transparency information. The transparency can be almost constant in the entire emission wavelength range of the light source 4 . In this case, information is impressed on the light in the form of grayscale values. However, the transparency can also vary over the emission wavelength range of the light source 4 . In such a case, information is also impressed on the light in the form of color level values.

After crossing the information display layer 2 , the light finally hits the back of the reflective layer 1 . Depending on the chosen reflectivity of the reflecting layer 1 , a part T of this is let through to the front or viewing side of the material. There the information imprinted on the light is finally visible on the surface of the material.

By optionally switching on and off and varying the intensity of the light source, the information can optionally be switched on and the brightness can be variably displayed on the surface of the reflecting layer 1 .

Glass or plastic layers are possible as materials for the information display layer 2 , on the surface or in the volume of which information is stamped or embedded in the form of gray or colored areas. There are also any other transparent materials that have sections with different transparency, for example comparatively coarse-mesh textiles, where the structure of the fabric corresponds to the information to be displayed. In the case of these materials, the information is mainly presented only in the form of still images, ie images or characters that cannot be varied over time.

However, a projection screen with background illumination or an LCD display with background illumination can also be used as material for the information display layer 2 .

Fig. 2 shows a schematic cross-sectional view of a material according to a second embodiment. With this material, the information display layer is actively illuminated. For this purpose, the information display layer 5 comprises a number of sections, the brightness of which can be varied independently of one another in binary form and / or in any increments. This is indicated schematically in FIG. 2 by the hatched and non-hatched fields 5 a and 5 b.

Examples of such an information display layer are in particular LED arrays, arrays made of light-emitting polymers or screens. Such ads are suitable for both the representation of moving images as well as still images.

The illumination of the information display layer 5 leads to a luminous flux, the information is imprinted in the form of brightness and / or color patterns. This luminous flux strikes the back of the reflective layer 1 and is partially let through to the front or viewing side. The information in the form of brightness and / or color patterns is visible there on the surface of the reflective layer 1 .

Fig. 3 shows schematically a cross-sectional view of a lamp 6 with a material according to the invention according to the first embodiment.

In the example shown, the lamp has a columnar design and comprises a lampshade in the upper region, which is arranged around the light source 4 . The lampshade comprises the material according to the invention with the reflective layer 1 and the information display layer 2 , 5 or consists entirely of this. The lamp also comprises a lamp base 9 , a base 8 , which is preferably designed to be closed, and an upper end 7 , which is open at the top in the illustrated embodiment. In principle, the lamp or the lampshade can also be designed in any other way.

If the light source 4 is switched off, the lampshade acts as a reflecting mirror. If the light source 4 is switched on, the light is impressed upon passing through the information display layer 2 , 5 in the form of changes in brightness and / or color that differ in sections. The modulated light passes through the reflective layer 1 with the partial reflectivity and can be perceived as information on the surface of the lampshade.

To display still image information, the material of the information display layer 2 can have differently blackened and / or colored sections on the surface or in the material volume. Examples of materials for the lampshade are thin cardboard webs, plastic films, simple glass or plastic shapes, mesh structures, for example made of textiles, etc. In particular, the material of the lampshade can also be surface-colored with a semi-transparent printing ink, for example using the screen printing process.

The reflective layer 1 can be applied directly to the material of the information display layer 2 . However, the reflective layer can also be applied to a coating made of a transparent material, for example plastic or glass. In the latter case, it is preferred that the coating with the material of the information display layer is assembled into a composite material. Thermowelding is particularly suitable as a connection method for plastic materials.

For easier assembly, the lampshade, after it first out of the Invention material was cut to size as a rectangular sheet with a joint application strips, for example a self-adhesive strip or with a Velcro, ver see and then by connecting the connecting strip to another end of the web be combined into a suitable three-dimensional shape.

The lampshade can also be provided with stiffening rings etc. in order to fit the three dimensions to maintain the original shape and to ensure suitable mechanical stability. To When assembled, the lampshade can also be sculpted into a suitable three dimensions sional shape are further shaped, for example by heat and over draw over a suitable shape.  

A structure of the arrangement shown in Fig. 3 can be used in many ways for other purposes. For example, as an advertising advertising column with a closed upper end. In order to increase the attention of the viewer, parts of the advertising column can have a reflective surface, which is unusual for advertising columns, and advertising or other useful information, for example text information, can be displayed on other parts as required.

By switching off the light source 4 , all the advertising information can be hidden and shown again at once. When suddenly fading in, passers-by will involuntarily fix the advertising column more precisely to determine what has just changed in the visual field. The desired increased public attention for advertising information can thus be brought about in a simple manner. In order to further increase this effect, each information display section can be assigned its own and automatically switchable light source.

Moving images can also be displayed in individual or all fields of the advertising column if suitable active information display devices are used behind the reflecting layer 1 , as described above.

The control of the light source and the information display layer 5 takes place with the aid of a computer or a suitable control unit.

Fig. 4, finally, a tabular surface element 10, which at least in sections is a material according to the present invention comprises.

The surface element 10 . comprises an edge region 11 , a central region 12 and a smaller section 13 . For the sake of clarity, it is assumed for the sake of clarity that the edge region 11 and the smaller section 13 comprise a material according to the invention, while the central region functions exclusively as a mirror. However, the invention is not limited to such an arrangement.

If the information display layer of the material is not illuminated in the areas 11 and 13 , these areas also have a reflective surface. The entire surface element 10 thus acts as a mirror.

When illuminated, information can be displayed in areas 11 and 13 . For example, an ornamental frame, for example a baroque decorative picture frame, could be faded into the edge region 11 if necessary. Such an ornament can be colored and / or blackened in a plastic layer on the back. Such a name can also be represented by means of an active information display device, for example with an LCD display with background illumination.

With an active information display device can also be customized show different information in the border area, for example a decorative frame one time and current stock market prices as a treadmill the other time.

The material according to the invention can also be arranged at any other location on the surface element 10 , for example in a comparatively small central field 13 . Any image information can be displayed by means of an information display device arranged on the back.

A preferred application relates to the display of floor information and / or white Further operating instructions in the mirror of an elevator. Another preferred application be hits the display of short information or warning texts in a mirror, for example egg a hotel room mirror.

Another preferred application relates to the display of text or number information ions on the reflective surface of decorative elements of objects, in particular Electrical appliances. For example, a stereo system can be provided with a control panel, that has a mirrored surface when the stereo system is inactive. Or the frame of a monitor can be equipped with the material according to the invention.

When switching on the electrical device or when vibrations are detected by someone Approaching user turns on behind the mirrored surface of the material information display and shows the user useful operating information. After switching off the electrical device, the material in turn has a mirrored surface che on. The information display can be LED displays, LCD displays with Background lighting or any type of screen.  

For this application, reflection-coated art is also particularly suitable Fabric films, for example chrome-plated films made of light-emitting polymers in Ma trix arrangement.

To display information, the material according to the invention is useful with a control unit unit, for example connected to a computer, which displays the information by means of Controls information display layer appropriately.

A further preferred application can be realized with the aid of the reflective surface element shown in FIG. 4. Consider the case that the entire central region 12 of the surface element 10 is formed from the material according to the invention, with an active information display layer, and that the surface element is to be used as a mirror in a clothing store.

The body stature of a viewer is recorded or a typical body stature is in one Storage device of a control unit stored. In addition, be in the control unit Saved parameters that represent the appearance of clothing using the Informa control display.

Instead of laboriously trying on items of clothing, the viewer presents himself just in front of the mirror. His perspective on the mirror and his current loading care position detected and entered into the control unit. It also gets into the tax entered the item of clothing and in what color, size etc. the viewer wishes to try it on electronically. On command, the control unit turns the rear information display located in the mirror is activated and depending on the above mentioned parameters appropriately controlled to give the viewer the illusion on the mirror to show electronically that he actually tried on the item of clothing.

In this application, the viewer sees parts of the body on the mirror that are not from the garment to be tried on are covered, in reflection, while body par tien, which are covered by the item to be tried on, with the help of the Infor Mation display layer for the user on suitable sections of the mirror electronically and faded in through the reflective layer.  

Further possible forms of application of the material according to the invention include:

• - Large mirrors or entire shop windows alternate between reflection and projected Information;
• - Department store mirrors completely transform into a surface that can be projected from behind, e.g. B. with video or advertising film projection;
• - Sales counters or bar counters are designed as mirrored bodies and are used by Permeable so that you can see the contents of the counter (this is particularly useful full of goods that you want to protect from heat or unauthorized access);
• - Lamps, lampshades, lighting fixtures and the like can be made entirely from the material according to the invention be made;
• - Deformed body with a surface made of the material according to the invention can be realize;
• - Room mirrors can contain a clock with an alarm function, whereby the mirror is at Activation of the alarm function in a mirror with the clock and / or picture displayed and / or transformed video information;
• - Device covers, displays of stereo systems and the like can be used with a film of the present invention;
• - Chrome-plated plastic parts can with foiled parts according to the present inven can be combined, e.g. B. screens, laptops, calculators, phones and the same;
• - Scenes for film production can be realized with the material.

It is obvious that the present invention does not apply to the above ZIAL embodiments and application is limited, but that rather numerous che variations and modifications can be made without departing from the scope of protection deviate from the appended claims.

Claims (31)

1. Reflective material with display function, at least comprising:

• - A reflective layer ( 1 ) and
• an information display layer ( 2 ; 5 ) arranged on a rear side of the reflecting layer in order to provide information by means of active or passive illumination,

what material

• the reflective layer has, at least in sections, a partial reflectivity which is selected such that
• - That the reflective layer ( 1 ) light that strikes from the front on the reflecting layer ( 1 ), mainly reflects to act as a mirror,
• - That, however, when illuminating the information display layer ( 2 ; 5 ) information from the front of the reflective layer ( 1 ) is visible.

2. Material according to claim 1, wherein the reflective layer ( 1 ) with the information display layer ( 2 ; 5 ) is connected so that in a gap ( 3 ) between the two layers essentially no light falls on the end face. 3. Material according to any one of the preceding claims, wherein the reflectivity of the reflective layer ( 1 ) is substantially constant in the visible spectral range. 4. Material according to claim 5, wherein the reflectivity is preferably in the range from 75 to 95 percent, in particular in the range from 85 to 95 percent.   5. Material according to one of the preceding claims, in which the information display layer ( 2 ) is designed as a transparent or semi-transparent material, in particular as a plastic, glass or textile layer, with transparent and less transparent and in this way information-representing sections, in particular as a film layer that can be passively illuminated on the back. 6. Material according to claim 5, wherein the side of the transparent or semitransparent material facing away from the reflective layer ( 1 ) has a light-diffusing surface. 7. Material according to any one of claims 1 to 4, wherein the information display layer (5) comprises an array (5) of light emitting polymers, or consists of this. 8. Material according to claim 7, wherein the back of the array ( 5 ) of light-emitting polymers has a light diffusely scattering surface. 9. Material according to any one of the preceding claims, wherein the reflective layer by vapor deposition of a metallic coating or a dielectric coating, in particular multi-layer coating, is applied directly to the information display layer ( 2 ; 5 ). 10. Material according to any one of claims 1 to 9, wherein the reflective layer ( 1 ) is designed as a plastic layer which is coated with a reflective coating. 11. The material according to claim 10, wherein the reflective layer ( 1 ) with the information display layer ( 2 ) is connected by thermal welding. 12. Material according to one of claims 4 to 11, wherein the reflective layer ( 1 ) and / or the information display layer ( 2 ; 5 ) is plastically deformed. 13. Material according to any one of claims 1 to 4, wherein the information display layer ( 5 ) is designed so that at least a portion of it can be actively illuminated. 14. Material according to claim 13, wherein the information display layer ( 5 ) is designed as a screen, in particular as a bright plasma screen. 15. Material according to claim 13, wherein the information display layer ( 5 ) is designed as a liquid crystal display (LCD) which is designed for transmitted light operation with background illumination. 16. Material according to claim 13, wherein the information display layer (5) is formed as a LED-array (5). 17. Material according to any one of claims 13 to 16, wherein the reflective layer ( 1 ) is designed as a glass or plastic layer which is coated with a reflective coating. 18. Material according to claim 17, wherein the information display layer ( 5 ) is connected to the reflective layer by gluing. 19. Material according to any one of claims 13 to 18, wherein the reflective layer ( 1 ) by vapor deposition of a metallic coating or a dielectric coating, in particular a multiple coating, is applied. 20. Material according to any one of claims 13 to 16, wherein the reflective layer ( 1 ) by vapor deposition of a metallic coating or a dielectric coating, in particular multiple coating, layer is applied directly to the information display ( 5 ). 21. Material according to any one of claims 7, 8 or 16, wherein the reflectivity of the reflective layer ( 1 ) has a narrow-band minimum in the region of the emission wavelength of the array ( 5 ) made of LEDs or light-emitting polymers. 22. The material of claim 21, wherein the minimum reflectivity in the range narrow-band minimums, preferably in the range from 50 to 85 percent, in particular which is in the range of 50 to 65 percent.   23. lampshade, characterized in that this at least in sections a Ma material according to one of claims 1 to 6. 24. Lamp, characterized by a lampshade according to claim 23. 25. Mirror, characterized in that it comprises at least in sections a material according to one of claims 1 to 6 and a light source ( 4 ) in order to illuminate the transparent or semitransparent material from the side of the material facing away from the reflecting layer ( 1 ). 26. Mirror, characterized in that this is at least in sections a material according to any one of claims 7 to 22. 27. The mirror of claim 26, further comprising an electrical control unit to control the display of information using the information display layer ( 5 ). 28. Information display device, at least comprising:

• - A material according to one of claims 1 to 6 and
• - A light source ( 4 ) to illuminate the transparent or semi-transparent material from the side of the material facing away from the reflecting layer ( 1 ).

29. Information display device, characterized by a material according to one of the An say 7 to 21 on a front of the device to as a mirror and / or dis play to display information on the front of the device. 30. The information display device according to claim 29, further comprising an electrical control unit for controlling the display of information by means of the information display layer ( 5 ). 31. Electrical device comprising a mirror according to one of claims 25 to 27 and / or an information display device according to any one of claims 28 to 30.