DE19737942A1 - Display device for mounting in motor vehicle - Google Patents

Abstract

The display device has a display (6) comprising a liquid crystal element (7). In a first switching position, the LC element is transparent in a large angle range. In a second switching position, the element is transparent within a small angle range. Several LC elements may be sandwiched together. Photosensors may also be provided.

Description

The invention relates to a vorese for attachment in a motor vehicle hene display unit with a display, an image on the dis play either in a small, directed angular range or in one large angular range is visible.

Such display units are used, for example, for satellite navigation and used to display a television picture in today's motor vehicles sets and are known from practice. The display has one by one vertical axis swiveling, in a center console of the motor vehicle stored screen. This allows you to choose the screen swivel the driver or the front passenger so that the illustration only in a small angular range is visible from their angles. Alternatively To do this, you can move the display to a central position in which the fig can be seen in the wide angular range of both. Des for example, the passenger can switch the display in while driving turn its direction and watch a television program without the driver is distracted from the traffic situation. Alternatively, you can driver and front passenger on the same display, for example view the image of a city map of a satellite navigation.

A disadvantage of the known display unit is that the display is complex is to be stored and connecting cables for the display difficult to lay are. Furthermore, the arrangement of the display unit in the Motor vehicle very difficult, for example, one in a center console mounted display that is swiveled to the front passenger often still  the angular range of the driver can be seen. The driver will therefore distracted from the traffic.

The invention is based on the problem of a display unit at the beginning mentioned type so that they distract the driver at egg The image intended for the passenger is reliably prevented and that they are as simple as possible in an intended position in the motor vehicle is to be assembled.

This problem is solved according to the invention in that the display Has LC element, which in a first switch position in the large Angular range translucent and in a second switching position outside of the small angular range is opaque.

This design allows the display to be firmly in the dashboard of the Kraft vehicle mounted and with the small angular range on the passenger and with the large angular range aimed at the driver and front passenger become. The illustration on the display is in the second switch position of the LC elements not visible from the driver's point of view. The driver is therefore not distracted from the traffic situation. Only in the first Switch position is the illustration on the display in the large Winkelbe richly visible. The driver and front passenger can use the illustration on the Recognize the display. A so-called LC element is suitable, for example te TN cell. Since the device according to the invention no movable me contains mechanical components, it is particularly inexpensive to manufacture and mountable.

The small angular range in which the image is always visible can be ge according to an advantageous development of the invention, almost unlimited zen when several LC elements are sandwiched one above the other are. The small angular range is simply limited by a Coordination of the polarization directions and / or the rubbing direction of the Glass plates of the LC elements.

An impairment of the readability of the display by the LC element can be according to another advantageous development of the invention  just avoid it if the LC element behind the translucent shape teten display is arranged.

The illustration on the display is according to another advantageous Wei terbildung the invention illuminated evenly when the LC element on a light box provided to illuminate the display is ordered.

Foreign light falling on the display could cause the driver of the motor vehicle even in the opaque switch position of the LC-Elements can recognize an image on the display. Such Influences of extraneous light can be according to another advantageous development simply avoid the invention if the display has a dark tint te surface.

Influences of extraneous light can be according to another advantageous development simply avoid the invention if the LC element before the dis play is arranged. The display can also be self-illuminating or be provided with reflected light.

The translucency of today's LC elements is usually strong Temperature dependence. You could think of a heating or To arrange cooling device on the LC element. This would have invented display unit according to the invention, however, high energy consumption. Wei terhin such a heating or cooling device would be a particularly ko the most intensive design of the display unit according to the invention. However, the display unit according to the invention is in the manufacture and in Operation particularly inexpensive if a control voltage of the LC element can be regulated depending on the temperature. To always do that optimal difference between the light transmittances in z. B. Driver and Obtaining a passenger's line of sight can be temperature-dependent Voltage control can be very beneficial.

To change the control voltage depending on the tempera one could provide an electronic temperature sensor and the Control voltage depending on the signals from the temperature sensor  regulate. The display unit according to the invention does not require a tempera door sensor if in front of the LC element in the small, directed angular area richly arranged a photosensor. This photo sensor determines from the light transmitted by the LC element electrical signals, according to de the control voltage of the LC element can be regulated. Next This design creates a particularly high difference in light permeability of the display unit according to the invention direction of observation ensured.

The light transmission of the display unit according to the invention can be for Adjust the driver and front passenger independently of each other if a second Photosensor arranged outside the small, directed angular range is.

The angular range of the photo sensors can be according to another advantage adhere to further limit the invention if the photosenso Ren each a columnar or tubular, directed towards the LC element Have aperture.

The passenger can see the light transmission in his viewing direction the display unit according to the invention according to its size or Set the seating position to an optimal value when the photo sensors are pivotable.

The angular ranges in which an image is visible on the display can be according to another advantageous development of the invention in the motor vehicle simply by an optical element for imaging the limit light transmitted through the LC element.

According to another advantageous development, the optical element has the invention has a particularly low overall depth if it is a Fresnel lens or prism foil. This is especially the case in a dashboard of the motor vehicle provided display unit is particularly important since this location of the motor vehicle often very little space Available.  

The display unit according to the invention has a particularly low weight, if the optical element is made of a thin-walled plastic.

The display unit is particularly versatile when the LC element has several independently controllable areas. To this Different information can be displayed in different display fields Nes are shown that are visible in certain angular ranges or are invisible. For example, in a field that is at a large angle, is clearly visible to the driver and front passenger, information about a radio station or a traffic management system, whereas Unterhal tion videos are shown in a display field that only in a small angle range (e.g. for the front passenger) is visible.

The invention permits numerous embodiments. For further clarification two of them are shown in the drawing and their basic principle are described below. This shows in

Fig. 1 is a schematic representation of a display unit according to the invention in cross-section,

Fig. 2 is a schematic representation of a propagation of light in the display unit according to the invention from Fig. 1,

Fig. 3 shows a further embodiment of the display unit according to the invention.

Fig. 1 shows one in a dashboard of a motor vehicle 1 in front of a driver and a passenger 2 3 Ad invention mounted geeinheit. 4 The display unit 4 has a display 6 arranged in front of a light box 5 and designed as an LC screen. Between the display 6 and the light box 5 there is an LC element 7, for example a TN cell. The light box 5 serves to distribute light emitted by a light source 8 arranged in a side region of the light box 5 . The LC element 7 and the display 6 have a common polarization filter 9 on their mutually facing sides. Furthermore, a further polarization filter 10 , 11 is arranged on the sides of the LC element 7 and the display 6 facing away from each other. On a region of the LC element 7 that projects beyond the display 6 , two photo sensors 14 , 15 arranged in tubular diaphragms 12 , 13 are directed at the angles α and β. The angles α and β each correspond approximately to the viewing angles in which the passenger 3 and the driver 2 of the motor vehicle are looking at the display 6 .

The display 6 is used, for example, to display television programs and city maps of satellite navigation. The LC element 7 has two switching stages. In a first switching stage, light penetrates from the light box 5 through the display 6 at approximately angles α and β, so that an image on the display 6 can be seen by the driver 2 and the passenger 3 . In a second switching stage of the LC element 7 , the display 6 is only illuminated at approximately the angle α, so that only the passenger 3 can see the image on the display 6 . To avoid external light influences, the top of the display 6 is tinted dark. The photosensors 14 , 15 control a drive voltage of the LC element 7 via electronics (not shown). This ensures the greatest possible transmission of the LC element 7 in the intended angle ranges and the greatest possible difference in light transmittance between the angles α and β in the second switching position of the LC element 7 .

FIG. 2 shows schematically the propagation of the light in the display unit 4 according to the invention from FIG. 1 in the second switching position of the LC element 7 designed as a TN cell. Diffuse light emerging from the light box 5 first strikes the polarization filter 10 of the LC element 7 . This polarization filter 10 only transmits polarized light according to its direction of polarization. For the sake of clarity, the polarization directions of the polarization filters 9-11 and the polarization of the light are marked with arrows in the drawing. In the LC element 7 , the light undergoes a rotation of its polarization. The reason for this is an anisotropy of liquid crystal molecules of the LC element 7 . For example, in the voltage-free state of the LC element 7 designed as a TN cell, there is a helix structure of liquid crystal molecules which rotates the direction of polarization of the incident light by 90 °. As the drive voltage increases, the liquid crystal molecules arrange themselves more and more with the electric field lines, so that a rotation of the polarization direction continues to decrease. After the light has passed the LC element 7 , it reaches the common polarization filter 9 of the LC element 7 and the display 6 . With the polarization of the light shown, only light at the angle α is let through. The light coming from the angle β is absorbed. Thus, in the switching position of the LC element 7 shown, no light reaches the driver 2 symbolized in FIG. 1. The driver 2 cannot recognize any image on the display 6 . An appropriate choice of the liquid crystal molecules of the LC element 7 and the drive voltage applied to the LC element 7 allows the angles α and β to be chosen almost arbitrarily. The LC element 7 can accordingly control the required angular ranges in which the light is to be passed sen.

Contrary to the representation in Fig. 1 and 2, two Po larization filter can be attached between the display 6 and LC element 7 instead of a common polarization filter 9 , so that both the display 6 and the LC element 7 two (on the front and back ) has its own filters. At the expense of a greater amount of construction work, one obtains a decoupling of the components 6 and 7 in this way . Thus, the LC element 7 can be aligned independently of the polarization filters of the display 6, which improves the optical properties of the display unit.

Fig. 3 shows a further embodiment of the present invention to display unit with two front of a display 16 disposed LC elements 17, 18. The angle range under which the display is visible can be further restricted with a second LC element. The display 16 can be, for example, so-called electroluminescence displays or field emission displays. The two LC elements 17 , 18 have a common polarization filter 19 and, on their sides facing away from one another, each have a further polarization filter 20 , 21 . The beam path of light through the two LC elements 17 , 18 corresponds to the propagation of light shown in FIG. 2. On the display 16 abgewand th side of the LC elements 17, 18 is a prism sheet 22 is disposed for imaging the light emitted by the display 16 light. However, the prismatic film could also be arranged between the display and an associated light box (see FIG. 1), thereby avoiding a possible impairment of the display quality of the display. By using two LC elements 17 , 18 and the prism foil 22 , a small, directed angular range in which the passenger 3 shown in FIG. 1 is located can be limited almost as desired.

Claims (15)

1. For mounting in a motor vehicle display unit with a display, an image on the display either in a small, directed angular range or in a large angular range is visible, characterized in that the display ( 6 , 16 ) is an LC element ( 7 , 17 , 18 ), which is translucent in a first switching position in the large angular range and opaque in a second switching position outside the small angular range. 2. Display unit according to claim 1, characterized in that several re LC elements ( 17 , 18 ) are sandwiched one above the other. 3. Display unit according to claim 1 or 2, characterized in that the LC element ( 7 ) is arranged behind the transilluminated display ( 6 ). 4. Display unit according to at least one of the preceding claims, characterized in that the LC element ( 7 ) on a for illuminating the display ( 6 ) provided light box ( 5 ) is arranged. 5. Display unit according to at least one of the preceding claims, characterized in that the display ( 6 ) has a dark tinted surface. 6. Display unit according to at least one of the preceding claims, characterized in that the LC element ( 17 , 18 ) is arranged in front of the display ( 16 ). 7. Display unit according to at least one of the preceding claims, characterized in that a control voltage of the LC element ( 7 , 17 , 18 ) can be regulated as a function of the temperature. 8. Display unit according to at least one of the preceding claims, characterized in that a photosensor ( 14 ) is arranged in front of the LC element ( 7 ) in the small, directed angular range. 9. Display unit according to at least one of the preceding claims, characterized in that a second photo sensor ( 15 ) is arranged outside the small, directed angular range. 10. Display unit according to at least one of the preceding claims, characterized in that the photo sensors ( 14 , 15 ) each have a slit or tubular, on the LC element ( 7 ) directed aperture ( 12 , 13 ). 11. Display unit according to at least one of the preceding claims, characterized in that the photo sensors ( 14 , 15 ) are pivotable bar. 12. Display unit according to at least one of the preceding claims, characterized by an optical element (prism sheet 22 ) for imaging the light from the LC element ( 17 , 18 ). 13. Display unit according to claim 12, characterized in that the optical element is a Fresnel lens or prism sheet ( 22 ). 14. Display unit according to claim 12 or 13, characterized in that the optical element (prism sheet 22 ) is made of a thin-walled plastic. 15. Display unit according to at least one of the preceding claims, characterized in that the LC element ( 7 , 17 , 18 ) has a plurality of independently controllable areas.