Luminous signalling device with LCD

Abstract

A luminous signalling module for a motor vehicle, including a liquid-crystal display with a back face and a front face; a backlighting panel placed facing the back face of the liquid-crystal display, configured to backlight the liquid-crystal display with a view to forming, by transmission through the display, a luminous image; and a depolarizing optical device, for example a diffuser, facing the front face of the liquid-crystal display, configured to cancel out a linear polarization of the luminous image generated by the liquid-crystal display.

Claims

1. Luminous signalling module for a motor vehicle, comprising: a liquid-crystal display with a back face and a front face; a backlighting panel placed facing the back face of the liquid-crystal display, configured to backlight the liquid-crystal display with a view to forming, by transmission through said display, a luminous image; characterized in that the module furthermore comprises: a depolarizing optical device facing the front face of the liquid-crystal display, configured to cancel out a linear polarization of the luminous image generated by the liquid-crystal display.

2. Luminous signalling module according to claim 1, wherein the depolarizing optical device is a light diffuser.

3. Luminous signalling module according to claim 2, wherein the light diffuser forms a translucent or transparent screen with an entrance face and an exit face, at least one of said entrance face and exit face having a relief with microstructures.

4. Luminous signalling module according to claim 3, wherein the face of the translucent or transparent screen having a relief with microstructures is the exit face.

5. Luminous signalling module according to claim 2, wherein the light diffuser is of circular type.

6. Luminous signalling module according to claim 5, wherein the light diffuser has a scattering angle larger than or equal to 30.

7. Luminous signalling module according to claim 2, wherein the light diffuser is of elliptical type.

8. Luminous signalling module according to claim 7, wherein the light diffuser has a small scattering angle larger than or equal to 10 and/or a large scattering angle larger than or equal to 60.

9. Luminous signalling module according to claim 2, wherein the light diffuser comprises a translucent or transparent film adhesively bonded to the front face of the liquid-crystal display or stretched over a frame placed at distance from the front face of the liquid-crystal display.

10. Luminous signalling module according to claim 1, wherein the depolarizing optical device is a quarter-wave delay plate.

11. Luminous device comprising: a casing with an aperture; an outer lens fastened to the casing so as to close the aperture; at least one luminous signalling module; characterized in that the or one of the luminous signalling modules is according to claim 1.

12. Luminous signalling module according to claim 3, wherein the light diffuser is of circular type.

13. Luminous signalling module according to claim 3, wherein the light diffuser is of elliptical type.

14. Luminous signalling module according to claim 3, wherein the light diffuser comprises a translucent or transparent film adhesively bonded to the front face of the liquid-crystal display or stretched over a frame placed at distance from the front face of the liquid-crystal display.

15. Luminous device comprising: a casing with an aperture; an outer lens fastened to the casing so as to close the aperture; at least one luminous signalling module; characterized in that the one of the luminous signalling modules is according to claim 2.

16. Luminous signalling module according to claim 4, wherein the light diffuser is of circular type.

17. Luminous signalling module according to claim 4, wherein the light diffuser is of elliptical type.

18. Luminous signalling module according to claim 4, wherein the light diffuser comprises a translucent or transparent film adhesively bonded to the front face of the liquid-crystal display or stretched over a frame placed at distance from the front face of the liquid-crystal display.

19. Luminous device comprising: a casing with an aperture; an outer lens fastened to the casing so as to close the aperture; at least one luminous signalling module; characterized in that the or one of the luminous signalling modules is according to claim 3.

20. Luminous signalling module according to claim 5, wherein the light diffuser is of elliptical type.

Description

(1) Other features and advantages of the present invention will be better understood from the description and the drawings, in which:

(2) FIG. 1 is an illustration of a rear signalling light of a vehicle able to produce luminous images by means of a liquid-crystal display, comprising a luminous module according to the invention and forming a luminous device according to the invention;

(3) FIG. 2 is a cross-sectional schematic view of the luminous device of FIG. 1.

(4) FIG. 1 illustrates a vehicle 2 equipped with two rear lights 4 each comprising a signalling module according to the invention. The rear lights 4 are configured to form, on their exterior surface 6, luminous images forming pictograms 8. These pictograms may in particular indicate to people located behind the vehicle 2 certain items of information such as the presence of a danger or even the fact that a pedestrian is in the process of crossing the road in front of the vehicle in question. It will be understood that the pictograms may take other forms than those illustrated and provide information on situations other than those illustrated.

(5) FIG. 2 is a schematic horizontal cross-sectional view of the left rear light of FIG. 1, it being understood that the right rear light is generally symmetric to the left rear light.

(6) The rear light 4 comprises a casing 10 with an aperture that is closed by an outer lens 12 forming the exit surface 6 of the rear light. The casing 10 in question houses a luminous signalling module made up essentially of a liquid-crystal display 14, a backlighting panel 16 and a depolarizing optical device, here taking the form of a light diffuser 24.

(7) More specifically, the liquid-crystal display 14 comprises a back face 14.1 and a front face 14.2. The backlighting panel 16 is for its part made up essentially of a platen 18 and of light sources 20 placed on a face of the platen placed facing the back face 14.1 of the liquid-crystal display 14. A heat sink 22, possibly taking the form of a radiator with cooling fins, may be placed on the opposite face of the platen 18, with a view to ensuring cooling of the light sources 20. The latter are advantageously light-emitting diodes.

(8) According to a first variant embodiment, the depolarizing optical device according to the invention is a light diffuser 24. It forms a screen made of transparent or translucent material placed facing the front face 14.2 of the liquid-crystal display 14. It comprises an entrance face 24.1 and an exit face 24.2 for the light. One of the faces in question, in the present case the exit face 24.2, has a relief with microstructures 24.3. The latter have been expressly shown enlarged, for the sake of clarity of the description, it being understood that they are in fact substantially smaller, namely of the order of one micron in size. These microstructures may be likened to micro-prisms able to deviate, by refraction and in various directions, the light rays that encounter them. Therefore, light rays exiting from the front face 14.2 of the liquid-crystal display, which are polarized linearly in the polarization direction of the exit polarizing filter of the screen, are then depolarized by way of the light diffuser 24. In this way, an observer wearing polarized glasses, independently of the orientation of the polarization direction, will be able to perceive the luminous image with very little loss of brightness. Specifically, among the various emitted and transmitted light waves, only components perpendicular to the polarization direction of glasses will be blocked by said glasses, while components parallel to the polarization direction will undergo no absorption.

(9) The light diffuser 24 is advantageously a film made of a transparent or translucent plastic, such as polycarbonate (PC) or polyester (PE), forming a substrate on which an epoxy resin is deposited and in which the relief is imprinted. Such films are commercially available, in particular from Luminit. They may have a thickness larger than or equal to 0.1 mm and/or smaller than or equal to 0.3 mm. The film in question may be placed on and adhere directly to the front face 14.2 of the liquid-crystal display 14. Alternatively, it may be stretched over a frame and placed at distance from the front face 14.2 of the liquid-crystal display 14, as illustrated in FIG. 2. The light diffuser 24 may also be a plate made from the same material as the aforementioned film, but more rigid. Similarly to the film stretched over a frame, the plate may be placed at distance from the front face 14.2 of the liquid-crystal display 14, as illustrated in FIG. 2.

(10) The light diffuser 24 may be of circular type, i.e. one that scatters identically in every angular direction with respect to an optical axis of the entering light rays. It may have a circular scattering angle larger than or equal to 30. In the case of an entering light beam that is divergent by an angle , the scattering angle at the exit of the light diffuser 24 may be estimated using the following relationship:
={square root over (.sup.2+.sup.2)}

(11) In this relationship, the scattering angle is the total angle corresponding to the full width at half maximum of the Gaussian distribution of a collimated source after having passed through the diffuser. This angle and the above relationship do not depend on wavelength when the latter is comprised between 360 and 1600 nm.

(12) The light diffuser 24 may be of elliptical type, i.e. it scatters differently in two perpendicular directions. The small scattering angle may be larger than or equal to 10 and/or smaller than or equal to 30. The large scattering angle may be larger than or equal to 30 and/or smaller than or equal to 60. In the case of an entering light beam that is divergent by an angle , the exiting beam then has an elliptical shape with two scattering angles in the two perpendicular directions, one being a minimum angle and the other being a maximum angle. These angles may be estimated with the above relationship.

(13) According to another variant embodiment, the depolarizing optical device may also be a quarter-wave plate or quarter-wave delay plate. A quarter-wave plate, also referred to as a /4 plate, is a parallel faced plate that creates a phase shift of 90, i.e. a delay of one quarter wavelength. Advantageously, the quarter-wave plate is placed so that the angle between the exit polarization of the liquid-crystal display 14 and the axis of the quarter-wave plate is 45.

(14) The quarter-wave plate makes it possible to pass from a linear polarization to an elliptical or even circular polarization. The luminous image thus depolarized will be able to be correctly perceived by an observer wearing polarized glasses because the polarization of such glasses is linear and therefore not liable to absorb a substantial portion of the elliptically or circularly polarized light.