WO2018114558A1 - System, method, computer program product, and computer-readable medium for a light-shaping process for an exterior vehicle lighting fixture - Google Patents

Abstract

The invention relates to, inter alia, a system having a device for a light-shaping process (2) for an exterior vehicle lighting fixture and having a controller for electrically actuating the device (2). The device (2) comprises a plurality of segments (4.1, 6.1, 8.1; 4.1, 6.1) which can be actuated individually by means of the controller. The aim of the invention is to allow a complex light-shaping process and simultaneously reduce the mechanical and electrical complexity of the light-shaping process for an exterior vehicle lighting fixture. This is achieved in that the device (2) is designed as at least one LCD module (2; 2a, 2b) and has first segments (4.1) with a respective first emission angle and at least one second segment (6.1) with a respective second emission angle. In an operating state of one of the first segments (4.1), light can be emitted from the first segment (4.1) at the first emission angle, and in an operating state of the at least one second segment (6.1), light can be emitted from the second segment (6.1) at the second emission angle, which differs from the first emission angle.

Description

 A system, method, computer program product and computer-readable medium for light-shaping a vehicle exterior light

description

The present invention relates to a system according to the preamble of claim 1, comprising a device for light shaping for a vehicle exterior light and a control for electrical control of the device, a method for light shaping for a vehicle exterior light according to the preamble of claim 7, a computer program product for execution of the method according to the preamble of claim 9 and a computer-readable medium according to the preamble of claim 10.

Such systems, methods, computer program products, and computer readable media are already known in the art in numerous implementations.

Thus, DE 20 2010 006 097 U1 discloses a light module for a motor vehicle headlight with a plurality of separately controllable light-emitting diodes for generating a marker light in order to additionally illuminate a spatially limited object detected in front of the motor vehicle, for example by means of a camera. For this purpose, it is provided in the known technical solution that the illuminated marking area on an arranged at a distance in front of the headlight screen in the horizontal and vertical direction has an extension of only a few angular degrees. For this purpose, each one or more of the LEDs cover a horizontal angle range of about 1 ° and a vertical angle range of about 4 °.

This is where the present invention begins. It is an object of the present invention to enable complex light shaping while reducing the mechanical and electrical complexity of light shaping for a vehicle exterior light.

This object is achieved by a system having the features of claim 1, a method having the features of claim 7, a computer program having the features of claim 9 and a computer program product having the features of claim 10. The subclaims relate to advantageous developments of the invention.

A significant advantage of the teaching according to the invention lies, in particular, in the fact that light shaping that can be adapted to the complexity of the diverse traffic situations is made possible, while simultaneously reducing the complexity of the means required for this purpose. This simplifies the light shaping and leads to a considerable cost reduction. In addition, the invention allows a flexible application of the producible light shaping and thus opens up a wide range of applications in a wide variety of traffic situations. LCD modules enable sharp contours with high resolution and simple system structure, for example in the form of a projection module.

In principle, the majority of the segments of the light-shaping device can be freely selected according to type, structure, material, dimensioning and arrangement within wide suitable limits. An advantageous development of the system according to the invention provides, however, that the first segments are structurally grouped in a first region of the device for light shaping and a plurality of second segments in a second region of the device for light shaping. This further reduces the mechanical and electrical complexity of the light-shaping device. In addition, this is a prefabrication of the device for light shaping and thus a reference of individual units of the device allows suppliers.

An advantageous development of the aforementioned embodiment provides that the first region and the second region are arranged directly adjacent to one another are. In this way, a particularly compact construction of the device for light shaping and thus of the system according to the invention is achieved.

A particularly advantageous development of the system according to the invention provides that the first segments each have a horizontal and / or vertical beam angle of less than or equal to 0.1 ° and / or the at least one second segment each have a horizontal and / or vertical beam angle of greater or equal to 0.2 °. This makes it possible to realize by the first segments very complex light shaping, such as on the road projected light projections of detailed warnings and information to the driver of the vehicle or the like. On the other hand, the design effort and thus the manufacturing costs of the system by the coarse resolution of the at least one second segment, so its unevenly larger angle of radiation, further reduced. For example, such a coarse resolution is sufficient if the at least one second segment only serves to generate a low beam and / or high beam.

The first segments preferably each have a horizontal and / or vertical emission angle of less than or equal to 0.05 ° and / or the at least one second segment each have a horizontal and / or vertical emission angle of greater than or equal to 0.3 °.

Particularly preferably, the first segments each have a horizontal and / or vertical beam angle of less than or equal to 0.015 ° and / or the at least one second segment each have a horizontal and / or vertical beam angle of greater than or equal to 0.4 °.

A particularly advantageous embodiment of the technical realization of a system according to the invention provides that the device for light shaping has at least a first LCD module and a second LCD module, wherein the plurality of first segments each having the first emission angle structurally in the first LCD module are integrated and a plurality of second segments, each with the second beam angle are structurally integrated in the second LCD module. In this way, the system according to the invention can be realized in a structurally particularly simple manner.

An advantageous development of the aforementioned embodiment of the system provides that the first LCD module are integrated in a first light path and the second LCD module in a second light path, wherein the first light path and the second light path are partially united. This makes it possible that, for example, a single light source for both light paths and thus for both LCD modules can be used. The term "light source" is to be interpreted very broadly, for example, including an LED matrix or the like, Splitting the light emitted by the light source is then possible in a manner known to those skilled in the art.

The light formed by the device for light shaping can be produced in a variety of ways known to the person skilled in the art and suitable for the respective individual case, and can be conducted to the device for shaping the light. For example, the light source, that is to say the at least one light-generating element, can have at least one light-directing element, wherein the at least one light-directing element is assigned to the at least one light-generating element and directs the light emitted by the light-generating element in a predetermined direction. The light source may have one or more LEDs as a light-generating element / light-generating elements with at least one upstream optical system as a light-directing element, for example an auxiliary lens or a micromirror arrangement. The upstream optics can be assigned to one LED or several LEDs of the light module. Other suitable and known light-generating elements and light-directing elements are conceivable; For example, designed as a laser light-generating elements and cooperating light-directing elements.

An advantageous development of the method according to the invention provides that by means of the first segments a first light function and by means of the at least one second segment of a second light function of the vehicle exterior light is generated. In this way, the resolution required in each case for the first segments and the at least one second segment and thus their emission angle is even better and thus more efficiently adaptable to the respective light function. For example, it would be conceivable that with the first segments on the road projected light projections for warning and information of the driver of the vehicle and the at least one second segment, a low beam and / or high beam can be generated. Accordingly, the resolution of the first segments could be adapted specifically to the first light function, for example the light projection of warnings and information on the roadway, and the resolution of the at least one second segment specifically to the second light function, for example the generation of a low beam and / or high beam ,

Reference to the accompanying, rough schematic drawing, the invention will be explained in more detail below. It shows the

Fig. 1 shows a first embodiment of a layout for one as a single

 LCD module formed light-shaping device of the invention,

2 shows a second embodiment of the system according to the invention with a device for light shaping, which has two LCD modules,

 3a shows a first exemplary embodiment of a layout for a first LCD module of the light shaping device according to FIG. 2, FIG.

 3b shows a first embodiment of a layout for a second LCD module of the device for light shaping according to FIG. 2, FIG.

 4a shows a second embodiment of a layout for a first LCD module of the device for light shaping of FIG. 2 and

 4b shows a second exemplary embodiment of a layout for a second LCD module of the light shaping device according to FIG. 2.

The system according to the invention, the method according to the invention, the computer program product according to the invention and the method according to the invention are described below. Computer-readable medium with reference to the Fig. Explained. The same or equivalent components are provided with the same reference numerals.

Fig. 1 shows an embodiment of a layout for a device formed as a single LCD module for light shaping 2, abbreviated means 2, for a vehicle exterior light, not shown. The vehicle exterior light is designed here as a headlight, namely as a main headlight. The device 2, not shown, is integrated into the headlight of a motor vehicle and comprises a plurality of segments, which are electrically individually controlled by means of a control, not shown. Depending on the activation of the respective segment, the controlled segment for light of at least one light source, not shown, of the main headlight is permeable, partially permeable or impermeable.

The LCD module 2 is backlit in a manner known to those skilled in the art, for example from a light source designed as an LED matrix. By means of the control, the LCD module 2 can be controlled such that at least one predetermined and stored in the control light function, such as a marker light, a light projection for warning or information of the driver of the motor vehicle or another road user or a low beam and / or or high beam, realize.

The LCD module 2 of the present embodiment has for this purpose three areas, each having a plurality of segments. In the image plane of the Fig., Bottom right, a first region 4 is shown with a plurality of first segments 4.1, to which a second region 6 is disposed immediately adjacent to a plurality of second segments 6.1. In addition, the present LCD module 2 has a further region 8 with a plurality of further segments 8.1, which is arranged directly adjacent to the second region 6. As can be clearly seen from FIG. 1, the first segments 4.1 of the first region 4 each have a surface which corresponds to only one quarter of the surface of each of the segments 6.1 of the second region 6. The same applies to the comparison between the surfaces of the second segments 6.1 of the second region 6 with the surfaces of the further segments 8.1 of the further region 8.

The area of each one of the second segments 6.1 is approximately one quarter of the area of each of the further segments 8.1 of the wider area 8. Accordingly, the resolution of the device for light shaping 2, namely the LCD module 2, in the first area 4 by four times greater than the resolution in the second area 6 and 16 times larger than the resolution in the wider area 8. The resolution in the second area 6 corresponds in turn to four times the resolution in the wider area 8 compared to the wider area 8 For example, the resolution in the first area 4 could have a horizontal and vertical beam angle of about 0.1 ° per first segment 4.1, the resolution in the second area 6 a horizontal and vertical beam angle of about 0.2 ° per second segment 6.1 and the Resolution in the wider area 8 correspond to a horizontal and vertical beam angle of about 0.4 ° per further segment 8.1.

Thus, for the individual areas 4, 6 and 8 of the LCD module 2 qualitatively different lighting functions can be realized. For example, it would be possible due to the very fine resolution and thus the very small radiation angle of 0.1 ° to realize very fine structures of projected on the roadway light projection for warning or information of the driver of the vehicle or other road users by the first area. This is illustrated in FIG. 1 by a lane 10 indicated in the layout of the LCD module 2. The first area 4 covers the roadway 10 lying in front of the motor vehicle and thus in front of the main headlights of the motor vehicle essentially over the entire area, so that light projections configured in many ways and very complex light projections projected onto the roadway 10 are designed by appropriate control of the first segments 4.1 to warn or inform the driver and / or other road users are possible.

The second region 6 with its average resolution would be suitable for, for example, adjacent to the roadway 10 as relevant recognized objects such as animals or the like Illuminate by a marker light, so as to alert the driver to a possible danger situation. For this light function is not as high resolution as for the aforementioned complex light projections required, since it is only about an improved illumination and thus a better visibility of objects located in the edge region of the roadway 10. Instead of improved illumination, it would also be conceivable to intentionally de-glare such objects, ie to cut them out of the light distribution.

The further area 8 with the resolution, which is already quite rough at least in comparison to the first and the second area 4, 6, can serve, for example, for illuminating the vehicle surroundings further away from the roadway 10. This light function requires the lowest resolution compared to the first two light functions. Accordingly, a relatively large radiation angle per further segment 8.1 is sufficient.

Due to the adaptation of the respective resolution and thus of the respective emission angle for the light emitted by the LCD module 2 to the respective light function, the optical and electrical efficiency of the LCD module 2 is increased. The resolution is therefore functionally optimized. In areas of the light-shaping device 2 for lighting functions which require a high resolution, this is provided. In areas for lighting functions that can be realized with a lower resolution, this is correspondingly reduced.

The number of electrical lines for driving the individual segments 4.1, 6.1, 8.1 of the LCD module 2 is significantly reduced. This also applies to the inevitable shadow cast, which is caused by the electrical lines and would have to be compensated for example by a coupling-out. At the same time, the complexity of driving the light-shaping device for the main headlight and thus the computing time and the required RAM and ROM capacity in the controller is reduced. The system according to the invention according to the present embodiment can thus be used with the same functionality. less expensive and more efficient. Furthermore, the transmission of the LCD module 2 according to the invention is increased compared to the prior art.

2, a second embodiment of a system according to the invention is shown greatly simplified. In contrast to the first embodiment, the device for light shaping 2, abbreviated means 2, instead of a single LCD module, two LCD modules, namely a first LCD module 2a and a second LCD module 2b, wherein the plurality of first segments 4.1 are each structurally integrated with the first emission angle in the first LCD module 2a and the plurality of second segments 6.1, each having the second emission angle, are structurally integrated in the second LCD module 2b. See FIGS. 3a and 3b and 4a and 4b, which are explained in more detail below. Each of the two LCD modules 2a and 2b thus has only segments 4.1 or 6.1, each with a uniform beam angle. In principle, however, it is also conceivable that both LCD modules each have mutually different segments with mutually different radiation angles, as is the case in the first embodiment of FIG. 1. However, it is not absolutely necessary that both LCD modules must be identically constructed. Thus, the two LCD modules could also have groups of segments different in number and beam angle, which differ from the groups of segments of the other LCD module in number and beam angle.

The light to be formed by the device 2 is generated by means of a LED array 12 of a plurality of arranged in rows and columns LED's, wherein the individual LEDs are not shown. The LED matrix 12 is thus the light-generating element and thus the light source of the system according to the second embodiment. The light emitted by the LED matrix 12 is deflected by means of a partially transparent mirror 14 partly in the direction of the second LCD module 2b. The remaining part of the light emitted by the LED matrix 12, which passes through the partially transparent mirror 14 without deflection, strikes a nontransparent mirror 16 which transmits this remaining part of the light emitted by the LED matrix 12 in the direction of the first LCD module 2a deflects. Accordingly, the first LCD Module 2a meeting part of the light emitted from the LED matrix 12 light are emitted in a corresponding to the first segments 4.1, each with the first beam angle resolution of the device 2, while the second LCD module 2b hitting part of the LED of the LED Matrix 12 emitted light are emitted in a to the second segments 6.1, each with the second emission angle corresponding resolution of the device 2. As is clear from FIG. 2, the first LCD module 2a is integrated into a first light path 18 and the second LCD module 2b is integrated into a second light path 20, wherein the first light path 18 and the second light path 20 are partially united. The light emitted by the LED matrix 12 follows light to the partially transparent mirror 14 a uniform light path, in which the first light path 18 and the second light path 20 are combined. Only by the partially transparent mirror 14 is the splitting of the uniform light path into the first light path 18 and the second light path 20 carried out.

The radiation angles and thus the resolution of the first LCD module 2a with the first segments 4.1 can be seen in FIG. 3a, while the radiation angles and thus the resolution of the second LCD module 2b with the second segments 6.1 from FIG. 3b can be seen. For example, analogously to the first exemplary embodiment, the horizontal and vertical emission angles of the first segments 4.1 can each be 0.1 °, while the horizontal and vertical emission angles of the second segments 6.1 are 0.2 ° in each case.

Another embodiment for the second embodiment can be seen, for example, from FIGS. 4a and 4b, according to which the horizontal and vertical radiation angles of the first segments 4.1 are each 0.05 °, while the horizontal and vertical radiation angles of the second segments 6.1 are 0, 2 °.

The invention is not limited to the present embodiments. By way of example, other suitable and suitable lighting functions are also conceivable for the person skilled in the art. The design of the individual areas as well as the individual LCD modules is as diverse as the lighting functions. The number and the Deviate relative position of the individual areas and the individual LCD modules to each other of the embodiments.

In addition, it is not mandatory for the respective area of the second segments of the second area to be an integral multiple of the respective area of the first segments of the first area. The same applies, for example, in the comparison of the further segments of the further region with the first or second segments of the first or second region. Finally, the further area with the further segments with the further segments in relation to the second area with the second segments is to be understood as the second area with the second segments to the first area with the first segments. The respective first and second regions also need not adjoin one another directly, that is to say be arranged directly adjacent to one another. The same applies to the case that a plurality of LCD modules, for example according to the second embodiment, is used. Accordingly, the above statements apply to both a plurality of LCD modules according to the second embodiment, so in LCD modules with mutually different segments, each having a uniform beam angle, as well as for a plurality of LCD modules, each different from each other Have segments with mutually different angles of radiation.

It is also not mandatory that the radiation angles of the segments in the individual regions of the device for light shaping in the horizontal and vertical directions are identical. The horizontal and vertical beam angles of the segments of a range can differ in individual as well as in all ranges, depending on the application. The same applies to embodiments with a plurality of LCD modules.

The vehicle exterior light is not limited to headlights, such as headlights. Other headlamps or a vehicle exterior lamp that emits light in a direction other than forward is also possible. LIST OF REFERENCE NUMBERS

2 device for light shaping, designed as at least one LCD module

2a First LCD module of the light-shaping device 2

 2b Second LCD module of the light-shaping device 2

 4 First section of the institution 2

 4.1 first segments of the first area 4; of the first LCD module 2a

6 Second area of the institution 2

 6.1 second segments of the second region 6; of the second LCD module 2b

8 Further area of the device 2

 8.1 Further segments of the further area 8

 10 lane

 12 light source, light-generating element, designed as an LED matrix

14 Semitransparent mirror

 16 Nontransparent mirror

 18 First light path

 20 Second Light Path

Claims

- 1 - System, method, computer program product and computer-readable medium for light shaping for a vehicle exterior lamp claims 1 . System comprising a device for light-shaping (2) for a vehicle exterior light and a control for electrical activation of the device for light-shaping (2), wherein the device for light-shaping (2) comprises a plurality of segments (4.1, 6.1, 8.1; 4.1, 6.1) comprises, which are individually controllable by means of the control and wherein in an operating state of one of the segments (4.1, 6.1, 8.1, 4.1, 6.1) light with a predetermined radiation angle of this segment (4.1, 6.1, 8.1, 4.1, 6.1) is emitted .  characterized,  in that the device for light shaping (2) is designed as at least one LCD module (2; 2a, 2b) and has first segments (4.1) each with a first emission angle and at least one second segment (6.1) each with a second emission angle in an operating state of one of the first segments (4.1) light with the first emission angle of this first segment (4.1) and in an operating state of the at least one second segment (6.1) light with the second, different from the first emission angle radiation angle of this second segment ( 6.1) is emissive. 2. System according to claim 1,  characterized,  in that the first segments (4.1) are structurally grouped in a first region (4) of the light shaping device (2) and a plurality of second segments (6.1) in a second region (6) of the light shaping device (2). 3. System according to claim 2, - 2 - characterized, in that the first region (4) and the second region (6) are arranged directly adjacent to one another. System according to one of claims 1 to 3, characterized, the first segments (4.1) each have a horizontal and / or vertical emission angle of less than or equal to 0.1 ° and / or the at least one second segment (6.1) each have a horizontal and / or vertical emission angle of greater than or equal to 0.2 °. System according to one of claims 1 to 4, characterized, in that the device for light shaping (2) has at least one first LCD module (2a) and a second LCD module (2b), the plurality of first segments (4.1) each having the first emission angle structurally in the first LCD module (FIG. 2a) are integrated and a plurality of second segments (6.1), each with the second radiation angle structurally integrated in the second LCD module (2b). System according to claim 5, characterized, in that the first LCD module (2a) is integrated in a first light path (18) and the second LCD module (2b) is integrated in a second light path (20), wherein the first light path (18) and the second light path (20) are partially are united. Method for light shaping for a vehicle exterior light, wherein a device for light shaping (2) comprises a plurality of individually controllable by a control segments (4.1, 6.1, 8.1, 4.1, 6.1), wherein in an operating state of the segments (4.1, 6.1, 8.1 4.1, 6.1) light is emitted at a predetermined radiation angle from this segment (4.1, 6.1, 8.1, 4.1, 6.1), - 3 - characterized,  in that the device for light shaping (2) is designed as at least one LCD module (2; 2a, 2b) and has first segments (4.1) each with a first emission angle and at least one second segment (6.1) each with a second emission angle in an operating state of one of the first segments (4.1) light with the first emission angle of this first segment (4.1) and in an operating state of the at least one second segment (6.1) light with the second, different from the first emission angle radiation angle of this second segment ( 6.1) is emitted. 8. The method according to claim 7,  characterized,  in that a first light function is generated by means of the first segments (4.1) and a second light function of the vehicle exterior light is generated by means of the at least one second segment (6.1). A computer program product comprising instructions for causing the system of any one of claims 1 to 6 to perform the method steps of the method of any one of claims 7 or 8. 10. A computer readable medium on which the computer program product according to claim 9 is stored.