DE10353760B4 - display device - Google Patents

Abstract

Display device (1)
With at least one display area (7) which is at least partially transmissive,
wherein the display area (7) has an observer-side viewing side (7b) and a rear side (7a) facing away from the observer,
With light sources (5) which are arranged laterally of the display area (7),
wherein the light (9) emitted by the light sources (5) at least partially transilluminates the display area (7),
- wherein at least some of the light sources (5) are arranged along a longitudinal axis (20),
- Wherein these light sources (5) is associated with a common elongated lens (6),
- Wherein the lens (6) is arranged downstream of the light sources (5) in the beam path of the emitted light (9), and
- The lens (6) is arranged such that it bundles the emitted light (9) of each individual light source (5) transversely to the longitudinal axis (20) of the lens (6),
characterized,
- That the beam path of the lens (6) arranged downstream of a translucent disc (12) such ...

Description

The The invention relates to a display device with at least one Display area, which is at least partially transmissive is, which display area is a viewer-side viewing side and a facing away from the viewer back, with light sources that are substantially to the side of the display area are arranged, wherein the light emitted from the light sources at least partially illuminated the display area.

such Display devices are particularly flatter on screens Construction realized. The illuminated display area is hereby regularly Matrix-controlled TFT display. Erfindungsgegenständlich are also display devices with other backlit display areas, For example, liquid crystal displays in general or classic display devices for the motor vehicle with different backlit display elements.

In order to the light from the side of the display area arranged light source The display area is backlit as needed, is regularly on the back of the display area, a light guide provided, starting from the side of the arrangement of the light source an increasing Auskoppelcharakteristik for the radiated light towards the display area on the viewer to have. The increasing decoupling characteristic can be achieved with a corresponding roughness of the viewer facing Reach the side of the light guide. The rougher the surface of the Fiber optic is, the more of the inside of the so raute surface the light guide incident light emerges from the light guide towards the display area. The same effect can be by means embedded in the light guide on the Auskoppeloberfläche Microlenses with correspondingly increasing frequency distribution with increasing Distance from the light source. In these arrangements has it proved to be disadvantageous that in the display area regularly a inhomogeneous brightness of the backlighting over the height and mostly over the Width of the display area. The problem is that the light of the laterally irradiating light sources already with relatively little Distance to the entrance side in the light guide to a high Percentage is decoupled towards the display area and only still a small percentage in the areas covered by the light source lie away, in the direction of the display area of the light guide is decoupled. This means, relatively close to the light source occurs in the display area to a very bright backlighting and with increasing distance this becomes darker. By means of a lens was tried that from the light source leaking light to bundle something, so that a larger percentage the light only at a greater distance from the light source out of the light guide toward the display area is decoupled. However, this has the consequence that the light sources at the edge of the display area where they are located, punctual halos generate and in this way the inhomogeneity of the brightness of the backlighting not only from the distance to the light source in the display area depends but also from the specific position of the light source side of the display area.

From the DE 102 42 170 A1 and from the US Pat. No. 6,481,130 B1 is in each case a display device with at least one Anzeigeebe rich, which is at least partially transmissive known. In this case, the display area has a viewer-side viewing side and a rear side facing away from the observer. Light sources are arranged to the side of the display area, wherein the light emitted by the light sources at least partially transilluminates the display area and at least some of the light sources are arranged along a longitudinal axis. These light sources are associated with a common elongated lens, wherein the lens is arranged downstream of the light sources in the beam path of the emitted light and the lens is arranged such that it bundles the emitted light of each individual light source transversely to the longitudinal axis of the lens.

From the DE 198 60 737 A1 a lighting device for a display is known, in which a light source is arranged laterally of a light guide, on the underside of a micro-prism structure is applied and on the upper side of a display is arranged.

The DE 100 26 892 A1 describes a display with a lighting device, wherein a light guide plate is used for the coupling of ambient light to backlight a display.

outgoing it has the problems and disadvantages of the prior art the invention has set itself the task of a display device to create, even with strong ambient light readable is.

According to the invention Task by a display device with the features of the claim 1 solved.

In this way, the regularly very heavy and costly light guide according to the invention can be completely saved, which brings the great advantage of lower weight of the display device, especially when used in a motor vehicle. In addition, the translucent makes Slice backward on the display device incident light for backlighting of the display area available and the display of the display gains in brilliance. By using ambient light (sunlight) you need a lower luminance of the backlighting and has a good readability in all lighting conditions. If necessary, the light source for backlighting of the display area can be completely switched off with sufficient external light input.

A advantageous development of the invention provides that the light source Having light-emitting diodes. Preferably, the light source comprises only light-emitting diodes in SMD technology. Such components have a particularly good Fitness for the use in motor vehicles, since they have an extremely long life and insensitive to the harsh operating conditions occurring there. Are useful the light-emitting diodes are provided with a reflector which controls the light emission in a spatial Abstrahlwinkel the radiation of ± 40 ° to ± 80 °, preferably ± 60 ° done leaves. Such a radiation characteristic has to avoid punctual atria proven on the display area in the application of the invention. The lens according to the invention let yourself inexpensive if it consists of a transmissive polymer. A convex exit surface the lens ensures the desired bundling of the exiting light and the approach to a parallel beam path after the lens. Einkoppelverluste can be largely, in particular in a spatial Beam angle of ± 60 ° of the radiation of the Avoid light sources, when the lens is a substantially flat entry surface having. Due to the distance of the lens from the light source is the coupling surface transverse to the longitudinal direction to choose a little wider as the decoupling surface from the light source. Advantageously, the cross section of the lens a substantially rectangular shape, wherein a light entrance surface substantially is formed and one of the light entry surface opposite Light-emitting surface convex to the outside domed is. Such a lens mold is also resistant to harsh operating conditions in the motor vehicle the required structural stability and the desired optical properties.

In order to the depth of the display device does not take up too much space, it is useful if the translucent disc is diffusely reflective and the incident of the lens and in the direction of the display area reflected light in a spatial Beam angle of about ± 40 ° to ± 80 ° radiates. In this way it is sufficient to be as parallel as possible Beam path of the light emerging from the lens with a translucent Disc in the direction of the display area to reflect in the Essentially the height of the display area and has a skew that barely more at the depth of the display device as the width of the lens according to the invention. In this way, the display device according to the invention is not only of relatively low Weight but also of advantageously small volume. To the disturbing influence inhomogeneous rearward external light incidence on the translucent disc in the representation of the display area To eliminate, it makes sense when the transmission of the translucent Disc is diffuse. Advantageously, the Anzeigevor direction a protective casing on and the translucent disc is useful here Part of the housing.

Under Abandoning the use of extraneous light can save it Be beneficial, nachge the beam path of the lens instead of the translucent disc to arrange a reflector, which is out of the lens leaked and radiating to the reflector light almost Completely reflected in the direction of the display area, a degree of reflection of at least 80% and formed substantially light-tight is. This arrangement is particularly interesting for the installation situation, which excludes the incidence of extraneous light from the outset as far as possible.

in the Below is the invention with reference to a specific embodiment explained in more detail with reference to drawings. The invention leaves numerous embodiments in addition to the special illustrated too. Show it:

1 FIG. 2: a schematic representation of a cross section through a display device according to the invention, FIG.

2 : A schematic perspective view of a display device according to the invention to illustrate geometric relationships.

1 shows the cross section of a display device according to the invention 1 under the influence of ambient light 2 and viewing a viewer 3 , 2 shows geometric connection of the same display device 1 ,

The illustrated display device 1 consists essentially of a housing 4 , several light sources 5 , a lens according to the invention 6 and a display area 7 , The display area generically generates the actual image and is connected in a manner not shown with a corresponding control. To make an image visible, the display area becomes 7 by means of the light 9 from the light sources 5 from a backside 7a to a visible side 7b rayed. That of the light sources 5 emitted light 9 meets an entrance area 10 the lens 6 and when exiting an exit surface 11 that of the entrance area 10 is opposite, to a nearly parallel beam path in the illustrated cross-sectional plane to the solder of the exit surface 11 broken down. That from the lens 6 leaked light 9 meets one in the housing 4 as a wall integrated translucent pane 12 that the light 9 for the most part in the direction of the display area 7 diffusely reflected.

The light sources 5 are as SMD LEDs 15 formed, each LED 15 with a reflector 16 is provided. The light sources 5 have a radiation characteristic with a spatial radiation angle of about ± 60 ° (β). The light sources 5 are along a longitudinal axis 20 arranged substantially equidistant from each other. The distance of the light emitting diode 15 the light source 5 to the center of curvature M is in 2 denoted by d and the lens 6 has a convex exit surface 11 with a constant radius r. The Lens 6 extends as well as the arrangement of the light sources 5 along the longitudinal axis 20 and is of substantially rectangular cross-sectional shape, wherein the exit surface 11 is arched outwards and a tangential surface on the longitudinal edges of the exit surface 11 with the adjacent side surfaces 21 the lens 6 includes an angle γ. The angle γ is smaller than 90 ° and may vary depending on the curvature of the exit surface 11 disappear. The translucent disc 12 forms in extension with a virtual extension of the flat display area 7 the inclusion angle α. The radius of the lens 6 can not be dimensioned smaller than 2 mm in practice. It has to be smaller, the larger the sum of the height H of the display area 7 and the distance A of the display area 7 from the light source 5 is. Typical values for the radius R of the lens 6 are 2 to 6 mm at a distance d of the light source 5 to the center of curvature M of 2 to 4 mm makes sense. The angle α between the translucent disc 12 and the display area 7 essentially determines the uniformity of the illumination. At large angles α, the display area becomes 7 in the upper area slightly brighter and at small angles α the light source illuminates 5 closer range of the display area 7 , At a typical height H of the display area 7 from 40 mm to 100 mm, there is an appropriate distance a between the light source 5 and the display area 7 at about 5 to 15 mm.

1

display device

4

casing

5

light sources

6

lens

7

display area

7a

back

7b

Main page

9

light

10

Light entry surface

11

exit area

12

translucent disc

15

LEDs

16

reflector

20

longitudinal axis

21

side surface

α

included angle

β

solid angle

γ

angle

a

distance the LED to the light source

d

distance of the display area to the light source

H

height

M

Center of curvature

r

radius

Claims (12)

Display device ( 1 ) - with at least one display area ( 7 ), which is at least partially transmissive, wherein the display area ( 7 ) an observer-side viewing side ( 7b ) and a backside facing away from the viewer ( 7a ), - with light sources ( 5 ), which are located to the side of the display area ( 7 ) are arranged, whereby that of the light sources ( 5 ) emitted light ( 9 ) at least partially the display area ( 7 ), wherein at least some of the light sources ( 5 ) along a longitudinal axis ( 20 ), these light sources ( 5 ) a common elongated lens ( 6 ), the lens ( 6 ) the light sources ( 5 ) in the beam path of the emitted light ( 9 ), and - the lens ( 6 ) is arranged so that it the emitted light ( 9 ) each individual light source ( 5 ) transverse to the longitudinal axis ( 20 ) of the lens ( 6 ), characterized in that - the beam path of the lens ( 6 ) a translucent disc ( 12 ) is arranged such that from the lens ( 6 ) leaking light ( 9 ) at least partially in the direction of the display area ( 7 ) is reflected. Display device ( 1 ) according to claim 1, characterized in that the light source ( 5 ) Light emitting diodes ( 15 ) having. Display device ( 1 ) according to at least one of the preceding claims, characterized in that the light-emitting diodes ( 15 ) a reflector ( 16 ) and the light emission of the light-emitting diodes ( 15 ) with the reflector ( 16 ) takes place in a spatial radiation angle (β) of the radiation of ± 40 ° to 80 °. Display device ( 1 ) according to at least one of the preceding claims, characterized in that the lens ( 6 ) consists of a transmissive polymer. Display device ( 1 ) according to at least one of the preceding claims, characterized in that the lens ( 6 ) a convex exit surface ( 11 ) having. Display device ( 1 ) according to at least one of the preceding claims, characterized in that the lens ( 6 ) a flat entrance surface ( 10 ) having. Display device ( 1 ) according to at least claim 5, characterized in that the convex exit surface ( 11 ) has a constant curvature. Display device ( 1 ) according to at least one of the preceding claims, characterized in that the cross section of the lens ( 6 ) has a rectangular shape, a light entry surface ( 10 ) is formed, one of the light entry surface ( 10 ) opposite light exit surface ( 11 ) is curved convexly outward. Display device ( 1 ) according to claim 1, characterized in that the translucent disc ( 12 ) is arranged such that the rear incident ambient light ( 9 ) in the direction of the display area ( 7 ). Display device ( 1 ) according to at least one of the preceding claims, characterized in that the translucent disc ( 12 ) is formed diffusely reflecting and that of the lens ( 6 ) incident light and reflected in the direction of the display area ( 9 ) in a spatial radiation angle (β) of about ± 40 ° -80 °. Display device ( 1 ) according to at least one of the preceding claims, characterized in that the display device ( 7 ) a housing ( 4 ) and the translucent disc ( 12 ) as part of the housing ( 4 ) is trained. Display device ( 1 ) according to claim 1, characterized in that in front of the lens ( 6 ) a reflector ( 16 ) is arranged.