DE4118208A1 - Fast viewed displays control under variable lighting - uses light sensors for intensity, direction and spectrum and has liquid-crystal viewing panels - Google Patents

Abstract

An opaque panel (15), viewed under external light (5), is overlaid by a liq.-crystal layer (2) and viewed through a polarised screen (14). Some of the same light is focussed on to a sensor, e.g. a phototransistor and processor (3,4), for control the translucency of the liq.-crystal layer. Alternatively a translucent panel may be viewed by light polarised from behind, the panel may be divided into different zones and several panels may be overlain. Several sensors may be employed to sample the light intensity, direction and spectrum. ADVANTAGE - Rapid adjustment to viewing under variable light.

Description

The present invention is in the field of optical devices or Devices used for attenuation, filtering or partial Suppress light.

The local attenuation or dimming of disturbing light is in many areas of technology and everyday life of Importance. For a permanent, i.e. H. in the damping effect weakening that does not change generally serves opaque panels, or elements made of transparent Media such as glasses or plastics, their translucency is reduced by tinting or partially reflective mirroring. One depending on the amount and / or direction of the incidence of light Varying the strength of the weakening is only through mechanical addition, removal or positioning of the Elements or panels possible, what a corresponding apparatus expenditure means.

An alternative to this are elements from optical media, the one depending on the amount of light incident have a self-tinting effect (sunglasses with this Property have been on the market for several years available). The self-tinting effect occurs with these media however always with a certain delay that is up to can take a few minutes. Rapid changes in intensity of the It cannot compensate for light. In addition, the Tint mostly changed only within a limited range be, so that an almost complete dimming at very intense light is not reached. A dependency on the direction or other characteristics of the incident There is no light other than the intensity.

The present invention is therefore based on the object to develop a device which without screens or others mechanical components quickly reduce brightness Incidence of light from predetermined directions causes in addition to the intensity of the light also others  characteristic properties of the incident light as triggering parameters for damping adjustment can be used can.

The device according to the invention solves this problem by use one or more optical sensors that one or more characteristic depending on the direction Detect properties of the incident light and in convert electrical signals. Take electronic aids the electrical signals thus obtained and control or several liquid crystal elements in the sense of a modified Light transmission.

Further details and advantages of the present invention are more preferred in the following description Exemplary embodiments described using the schematic drawings, in which

Is Fig. 1 is a single liquid crystal element which can be changed by electronic means in its light transmittance with respect to polarized light,

Fig. 2 shows a corresponding liquid crystal element having sectors each having a different axis of orientation,

Figure 3 illustrates the cascading sequence of liquid crystal elements representing. Each having a different axis of orientation,

Fig. 4 shows a system for directional dimming of reflected light, and

Fig. 5 shows a sensor for direction-dependent Lichtdetektierung.

The present invention makes use of the polarizing one Effect of liquid crystals that are electrically aligned can be. For example, this principle is broad Application in liquid crystal displays (LCD). Polarized light depending on the position, it becomes the alignment axis of the liquid crystal element weakened or let through.

Using this principle, an embodiment according to the invention as outlined in FIG. 1 can be produced. The device 1 for direction-dependent attenuation or dimming of light consists of one or more individual liquid crystal elements 2 , the optically effective alignment axis 8 of which can be changed electrically. Incident polarized light 5 with an orientation 6 is attenuated as it passes through the activated surface 7 of the element 2 , so that only a reduced amount of light 10 passes through. The direction-dependent effect is achieved in that certain properties of the incident light 5 are detected by one or more sensors 4 , at least some of the sensors having a directional characteristic.

In Fig. 5 shows a possible embodiment is shown of a sensor. A lens 43 bundles the incident light 5 onto a light-sensitive element 42 , which is located in a cylindrical housing 41 for shielding and generates electrical signals 44 when light falls. Other embodiments are also possible, with various light-sensitive elements such. B. photo resistors, diodes or transistors can be used. When using appropriate arrangements (e.g. matrix, CCD), a very precise analysis of the detected light sources can be achieved.

The signals generated are recorded by a control unit 3 , which controls the electrodes 9 required for aligning the liquid crystal elements. With this arrangement, for example, a diaphragm can be realized that only automatically responds to light from a defined angular range.

By using appropriate sensors, the attenuation can also be made dependent on the intensity, change in intensity, spectral distribution or polarization properties of the incident light. If several sensors are used, not all of them have to have a directional characteristic, so that other light components can also be detected and used in combination with direction-dependent signals to control the liquid crystal element (or elements). The respective signal threshold values and control parameters can be present for the control unit 3 both as fixed values and can also be variably specified by external actuating devices (not shown).

In order to achieve different damping effects, a liquid crystal element can consist of individual and separately controllable sectors which each have different alignment axes. Such an arrangement 11 is shown in FIG. 2. Depending on the detected light conditions, different sectors or combinations of sectors can be controlled so that the light 10 passing through is attenuated differently.

In another embodiment 12 ( FIG. 3), a plurality of liquid crystal elements 22, 23, 24 , which can be oriented differently, are irradiated one after the other. With this embodiment, different light attenuation efficiencies can also be achieved.

FIG. 4 shows a special embodiment in which a reflecting surface 15 of an arrangement as described so far is added. Incident light 5 - here unpolarized as an example - is first polarized by the polarizing filter 14 . Thereafter, it penetrates one or more liquid crystal elements 2 as described and is reflected back by the reflecting surface 15 , and depending on the geometric arrangement of the individual components, it can pass through the liquid crystal elements one more time. The intensity of the incident light can be varied depending on the direction by detecting the incident light via the sensor 4 and responding to the downstream control unit 3 .

The liquid crystal element 2 can be made with the reflective surface as a unit, the back z. B. would be directly mirrored, for example by metal vapor deposition.

The device according to the invention can thus be used automatically or realizable controllable mirror system that for Light with different angles of incidence can be switched differently Has reflectivity. Even with this arrangement can provide additional sensors, also independent of direction Control can be consulted (not shown). A Application example would be a rearview mirror that is automatic Decreases in reflectivity once position and relative intensity of the incident light a glare can trigger.

The devices according to the invention (as shown, for example, in FIG. 4) can also be used without restriction for unpolarized light by simply polarizing incident light through a polarizing filter 14 . Other filters, e.g. B. to suppress certain wavelengths of light, can also be used in addition.

Claims (11)

1.Device ( 1, 11, 12 ) for attenuating or dimming light, the light ( 5 ) to be attenuated being either already polarized or being polarized by additional aids ( 14 ) and the light thus polarized by at least one electronically variable liquid crystal element ( 2; 22, 23, 24 ) passes through, characterized in that
that at least one optical sensor ( 4 ) is present, which detects one or more characteristic properties of the incident light as a function of direction and converts it into electrical signals, and
one or more electronic aids ( 3 ) record the electrical signals thus obtained and control the transilluminated liquid crystal elements ( 2; 22, 23, 24 ) in the sense of a changed light transmittance. 2. Device according to claim 1, wherein the electronic aids ( 3 ) control one or more liquid crystal elements as a function of the detected signals of one or more sensors exceeding or falling below predetermined threshold values. 3. Device according to claim 1 or 2, wherein the additional aids ( 14 ) for polarization consist of at least one polarization filter or at least one electrically changeable liquid crystal element. 4. Device according to one of the preceding claims, wherein the amount of light attenuation can be varied by adjusting the angle between the polarization direction ( 6 ) of the polarized light and the alignment axis ( 8 ) of at least one electrically changeable liquid crystal element. 5. Device according to one of the preceding claims, wherein the amount of light attenuation can be varied by driving one or more liquid crystal elements ( 2; 22, 23, 24 ) whose alignment axes ( 8 ) with respect to the polarization direction ( 6 ) of the polarized light different angles take in. 6. Device according to one of the preceding claims, wherein at least one liquid crystal element is divided into individual, individually electrically controllable sectors. 7. Device according to one of the preceding claims, wherein the directionally detected properties of the incident Light the intensity, intensity fluctuations, Are polarization or spectral distribution. 8. Device according to one of the preceding claims, wherein spectral components of the incident light can be suppressed. 9. Device ( 13 ) for the selective reflection of light, wherein an at least partially reflecting surface ( 15 ) is combined with a device according to one of the preceding claims. 10. Device according to one of the preceding claims, containing further optical sensors, which without restriction Detect the light conditions in certain directions and their signals as a manipulated variable from the electronic aids are included. 11. Use of a device according to one of the preceding Claims for directional dimming, weakening or reflection of light.