DE10000300A1 - Liquid crystal display - Google Patents

Abstract

In the case of a liquid crystal display (1), a laterally arranged light coupling surface (2) enables the liquid crystal display (1) to be actively illuminated by means of a light source (3). For this purpose, the liquid crystal display (1) has a light deflecting element (7) which deflects the incident light radiation in the direction of a liquid crystal cell (5). The light polarized by means of a back polarization filter (9) is reflected on a rear, reflective element (10) and deflected into the liquid crystal cell (1). The segmented representation takes place on a front side (14) of the liquid crystal display (1) provided with a front polarization filter (13). Compared to known liquid crystal displays with a transflector, a possible color deviation and the restricted readability associated therewith can be considerably reduced. At the same time, the manufacturing effort and the required installation space are significantly reduced.

Description

The invention relates to an illuminable liquid crystal Oil display, especially in a motor vehicle, with a Front polarization filter, a back polarization filter and one by two each connected to electrodes Substrates included liquid crystal cell as well a arranged behind the back polarization filter, reflective element.

Such a liquid crystal display is used in practice used to present a representation on the one hand in daytime operation by means of the incident ambient light (reflective operation), on the other hand one in night operation To enable active lighting using a light source chen. For this purpose, the reflective element has a trans an adjustable transmission so that the incident ambient light reflects, but at the same time the light coming from the light source - except for one inevitable, from the transmission of the transflector dependent weakening - unhindered from the back of the transflector can radiate. Made through that  Open possibility, depending on the ambient brightness a desired brightness by means of the light source even with changing ambient brightness Always have one for reading the liquid crystal display appropriate brightness guaranteed.

As a disadvantage in the described prior art has, however, been shown to change with the reflective or transmissive properties of the reflec tive element also a change in color spectrum is connected. As a result, color deterioration are caused by the legibility of the rivers sig crystal display is difficult.

The invention is therefore based on the problem of a Liquid crystal display of the type mentioned at the beginning create in the color distortions due to the change from reflective to transflective or transmissi ven operation of the liquid crystal display are minimized. The readability of the rivers is particularly important sig crystal display can be improved.

This problem is solved according to the invention in that the liquid crystal display a light deflecting element Redirection from the side into a light coupling area of the Liquid crystal display incident light towards the Has liquid crystal cell. This requires that reflective element in active lighting none transflective property, since incoming light is one Light source not through the reflective element must occur so that color distortions are minimized. The light becomes active lighting, for example as a light guide, the light coupling surface che fed and redirected to the light deflecting element that it is just like the ambient light in daytime operation on the reflecti  ven element is reflected and into the liquid crystal cell shines. At the same time, those with the Use of a transflector associated loss of brightness noticeably reduced. Furthermore, a com compact, particularly very flat design can be achieved, in addition to a complex control unit can be dispensed with for the reflective element. By the compactness and light weight of the This is particularly suitable for liquid crystal displays for use in motor vehicles since the goals of a good use of space and maximum weight reduction especially urgent in modern vehicles will see.

The light deflection element and the light coupling surface can be arranged on a separate component, depending on the individual requirements for the rivers sig crystal display is added. Another special the cheap embodiment of the invention, however, is given when the light deflecting element on one of the At least liquid crystal cell facing surface one of the two substrates is arranged. Hereby there is no additional component, so that the requ the available space can be further reduced. Here the substrate also serves as a light guide for the light coupled by means of the light coupling surface radiation and thus enables uniform light distribution division with uniform brightness.

A particularly advantageous further development is Invention given that the light deflecting element an abge a viewer of the liquid crystal display facing side of the reverse polarization filter is. This will direct the light towards the Front of the liquid crystal display deflected so that in actively illuminated operation, no light redirection on the  reflective elements is required. The single ones Components of the liquid crystal display are from the coupled light only in one direction happens, so possible loss of brightness continues can be reduced.

A particularly advantageous embodiment of the invention is given when one of the substrates turns on the light has coupling surface and if the light coupling surface on one end face of the light coupling surface send substrate is arranged. The corresponding Substrate enables an integral component on the one hand, the coupling of additional Light radiation by means of the light coupling surface, others on the one hand the unhindered passage of the through the Front of the liquid crystal display Ambient brightness. Such a substrate can therefore easily against a conventional substrate can be exchanged and therefore requires no effort ge redesign. Other embodiments in which both substrates with corresponding light coupling surfaces and light deflection elements are enabled for example an optionally differently bright one Lighting.

Another particularly favorable further training of the Erfin dung is given by the fact that one of the light coupling face opposite face of the liquid crystal l display is provided with a reflector. Hereby can loss of brightness due to the uncontrolled Exit of the coupled light at one of the lights coupling side facing away can be prevented. A such as a coating, Mirror surface therefore enables further improvement the efficiency of active lighting. Here can also additional side surfaces and also the  over a display area of the liquid crystal display outgoing edge areas with such a reflector be equipped.

An embodiment of the is particularly simple Invention in which the light deflecting element as a structure door surface is executed. Such a Lich executed tumble steering element allows essentially unchanged External dimensions of the liquid crystal display. Here prevents a microstructure, for example structure surface also led to local brightness differences limit and thus leads to a further improvement Readability. The structure area can for example as a texture or lens structure and both on the surface and inside a trans Parent element can be arranged.

In the light coupling surface can by means of a Lichtlei comparatively bright ambient light, which the Liquid crystal display is not directly accessible, or the light of independent lighting units shine. A particularly advantageous development of In contrast, invention is also given when the rivers sig crystal display one in the light coupling area illuminating light source. Such a light source enables the optimal adjustment of the required Chen illuminance according to the prevailing Operating conditions. The light source can do this can also be electronically dimmable, for example smooth transition between passive lighting by means of Ambient brightness and active lighting using the Allow light source.

A particularly suitable further training is the Invention given that the light source Discharge lamp is. The discharge lamp enables  due to their great brightness at the same time low heat radiation also readability with negative display of the liquid crystal display, with which the controlled segments are bright compared to the in other dark background stand out.

In contrast, another advantageous development of the invention achieved when the light source Has light emitting diode (LED). Because of the low energy consumption and the longevity of such a design Liquid crystal display is also used outside of the constant power supply possible. Here is for example se use with portable and battery or battery mulator-operated devices possible. The light emitting diode (LED) is particularly suitable for positive display, at which the controlled segments as darkened areas on the otherwise brightly lit background darge represents are.

The color distortions of the liquid crystal display in Consequence of the change from reflective to transflective or transmissive operation can be according to another advantageous development of the invention in wide Limits are almost completely excluded if the color spectrum of the light source to the color spectrum of incident light incident on the liquid crystal display is adjusted. Since the color spectrum of the incident light, in which is usually ambient brightness (i.e. Sunlight), among other things, year and day can vary depending on the time, with a fixed one Color spectrum light source not among all Conditions an identical match of their color to ensure spectrum with that of incident light. remedy could be an adjustability of the color spectrum of the Create light source, which is very expensive and is expensive. However, from a medium,  constant color spectrum of the Incident light can be assumed, so that with an adjustment the light source for almost all relevant applications the color falsifications are excluded can.

According to another development of the invention, it is also of particular advantage if in front of the front polarisa tion filter and / or between the light source and the Light coupling surface a spectral filter is arranged. This is the color spectrum of the up in a simple manner light and / or the light source and color ver counterfeiting of the advertisement is therefore definitely excluded.

The invention permits various embodiments. To further clarify its basic principle, one of these is shown in the drawing and is described below. This shows a side view of the structure of a liquid crystal display 1 installed in an instrument panel or center console of a motor vehicle (not shown further here ) . The liquid crystal display 1 has a laterally irradiating in a light-coupling 2 light source 3 by means of the active illumination of representations of the liquid crystal display 1 in low light conditions is possible. For this purpose, the light emanating from the light source 3 first strikes a substrate 4 designed as a light guide, which is provided on its surface 6 facing a liquid crystal cell 5 with a light deflecting element 7 . The light deflecting element 7 , designed as a microstructure element, deflects the incident light and then initially falls through a further, rear substrate 8 and a back polarization filter 9 . The light is reflected on a reflective element 10 arranged behind the back polarization filter 9 and then radiates in the opposite direction as polarized light into the liquid crystal cell 5 . Two in each case with one of the two substrates 4 , 8 connected electrodes 11 , 12 enable, according to the principle known per se by applying an electrical voltage, an orientation of liquid crystals, not shown, which thus use a front polarization filter 13 on a front side 14 of the liquid crystal display 1 Depending on the control, make a visible, bright or opaque display of a respective segment recognizable. In order to keep the brightness losses of the light source 3 emitting into the light coupling surface 2 and designed as a discharge lamp as low as possible, an end face 15 of the substrate 4 is provided with a reflector 16 which prevents the undesired escape of the light. In contrast to a known transflective operation, on the one hand the overall height of the liquid crystal display 1 is substantially reduced, and on the other hand color distortions that are inevitable when using a transflector are almost excluded.

The drawing can be seen further, that there is arranged in this embodiment, before the front polarizing filter 13, that is facing to the viewer's side of a liquid crystal display 1, also referred to as a wavelength filter spectral 17th Incident light 19 , which is symbolically represented by three arrows and enters the liquid crystal display 1 and is usually formed by ambient brightness, thus penetrates the spectral filter 17 . In addition, a further spectral filter 18 is arranged between the light source 3 and the light coupling surface 2 , which is penetrated by light emitted by the light source 3 . Through the spectral filter 17 , 18 , the color spectra of the incident light 19 and the light source 3 are matched to one another, so that regardless of whether the incident light 19 or the light source 3 is used for display on the liquid crystal display 1 , no color distortions occur.

Claims (11)

1. Illuminable liquid crystal display, in particular in a motor vehicle, with a front polarization filter, a back polarization filter and a liquid crystal cell enclosed by two substrates, each connected to electrodes, and a reflective element arranged behind the rear polarization filter, characterized in that the liquid crystal display ( 1 ) has a light deflecting element ( 7 ) for diverting incident light into the side into a light coupling surface ( 2 ) of the liquid crystal display ( 1 ) in the direction of the liquid crystal cell ( 5 ). 2. Liquid crystal display according to claim 1, characterized in that the light deflecting element ( 7 ) on one of the liquid crystal cell ( 5 ) facing surface ( 6 ) at least one of the two substrates ( 4 , 8 ) is arranged. 3. Liquid crystal display according to claim 1 or 2, characterized in that the light deflecting element ( 7 ) on a viewer of the liquid crystal display ( 1 ) th side of the back polarization filter ( 9 ) is arranged. 4. Liquid crystal display according to one of the preceding claims, characterized in that one of the sub strates ( 4 , 8 ) has the light coupling surface ( 2 ) and that the light coupling surface ( 2 ) on an end face ( 15 ) of the light coupling surface ( 2 ) having sub strates ( 4 , 8 ) is arranged. 5. Liquid crystal display according to one of the preceding claims, characterized in that one of the light coupling surface ( 2 ) opposite end face ( 15 ) of the liquid crystal display ( 1 ) is provided with a reflector ( 16 ). 6. Liquid crystal display according to one of the preceding claims, characterized in that the light deflecting element ( 7 ) is designed as a structural surface. 7. Liquid crystal display according to one of the preceding claims, characterized in that the liquid crystal stall display ( 1 ) has a light source ( 3 ) radiating into the light coupling surface ( 2 ). 8. Liquid crystal display according to claim 7, characterized in that the light source ( 3 ) is a discharge lamp. 9. Liquid crystal display according to claim 7, characterized ge indicates that the light source is a light emitting diode (LED) having. 10. Liquid crystal display according to one of claims 7 to 9, characterized in that the color spectrum of the light source ( 3 ) to the color spectrum of incident in the liquid crystal display ( 1 ) incident light ( 19 ) is adapted. 11. Liquid crystal display according to one of the preceding claims, characterized in that a spectral filter ( 17 ; 18 ) is arranged in front of the front po larization filter ( 13 ) and / or between the light source ( 3 ) and the light coupling surface ( 2 ).