LIGHTING DEVICE FOR A MOTOR VEHICLE HEADLAMP

专利摘要:
Lighting device (1) comprising: - a first light source arrangement (2) - a light shaping device (3) arranged after the first light source arrangement (2), - a first reflector (4, 4 ') having a first focal point (f1) and a second reflector ( 5, 5 ') with a second focal point (f2), - an additional second light source arrangement (6), which is arranged outside on the second reflector (5, 5'), wherein the second reflector (5, 5 ') for this purpose a recess is provided, and - in the outlet opening of the second reflector (5, 5 ') positioned cover plate (8), wherein the light emitted from the first light source assembly (2) via the light shaping device (3) on the first reflector (4, 4' ), wherein the first reflector (4, 4 ') deflects the light rays onto the second reflector (5, 5'), and the light rays reflected by the second reflector (5, 5 ') in a desired exit direction through the closing disc e (8) are ejected in the form of a defined light distribution, wherein the second light source arrangement (6) ejects an additional light output in the desired outlet direction.
公开号:AT519119A4
申请号:T51057/2016
申请日:2016-11-22
公开日:2018-04-15
发明作者:Zorn Jürgen
申请人:Zkw Group Gmbh；
IPC主号:

专利说明:

Summary
Lighting device (1) comprising:
- a first light source arrangement (2)
a light shaping device (3) arranged after the first light source arrangement (2),
a first reflector (4, 4 ') with a first focus (f1) and a second reflector (5, 5') with a second focus (f2),
- an additional second light source arrangement (6), which is arranged outside on the second reflector (5, 5 '), a recess being provided for this purpose on the second reflector (5, 5'), and
an end plate (8) positioned in the outlet opening of the second reflector (5, 5 '), the light emitted by the first light source arrangement (2) being directed via the light shaping device (3) onto the first reflector (4, 4'), wherein the first reflector (4, 4 ') deflects the light rays onto the second reflector (5, 5'), and the light rays reflected by the second reflector (5, 5 ') in a desired exit direction through the lens (8) in shape a defined light distribution are ejected, the second light source arrangement (6) emitting an additional light emission in the desired exit direction.
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P15215
Lighting device of a motor vehicle headlight
The invention relates to a lighting device of a motor vehicle headlight.
Numerous arrangements and configurations of reflective and / or refractive elements and a light source for implementing a defined light distribution are already known from the prior art.
Among other things, DE 10 2005 054 660 A1 shows a device in which the utilization factor of a light beam from a light-emitting element can be improved and controlled, for which purpose a special form of a reflection surface of a primary reflector is provided in a configuration in which a vehicle lighting device comprises a primary and a secondary reflector.
Furthermore, the patent US 7,207,705 B2 discloses a vehicle headlight with a first and second reflector, and an additional third reflector, which is arranged below a light source in order to achieve a defined light distribution and to improve the utilization factor of a light beam from a light-emitting element.
In general, however, there is a desire for more functionalities in order to design a defined or adaptable light distribution in front of a vehicle.
It is therefore an object of the present invention to provide a lighting device with a variable design option for the overlay areas within a legally compliant light distribution.
This object is achieved with a lighting device mentioned at the outset in that, according to the invention, the lighting device comprises:
a first light source arrangement comprising at least one laser device and at least one luminous area having a light conversion element,
a light shaping device arranged after the first light source arrangement, / 24
P15215
a first reflector with a first focal point and a second reflector with a second focal point, the two reflectors forming an optical system,
- An additional second light source arrangement, which is arranged outside of the second reflector with respect to the reflecting surface of the second reflector, a recess being provided on the second reflector for this purpose, so that the light emitted by the second light source arrangement essentially in the same direction as that light rays reflected by the second reflector are ejected, and
- An end plate positioned in the outlet opening of the second reflector for using a common projection of the first and second light source arrangement, the light emitted by the first light source arrangement being directed via the light shaping device onto the first reflector opposite the first light source arrangement in the radiation direction, the first reflector Beams of light in the first focal point are deflected onto the second reflector, which is designed and arranged in relation to the first reflector such that the first focal point of the first reflector essentially coincides with the second focal point of the second reflector, and the light beams reflected by the second reflector into one Desired exit direction, preferably the direction of travel, are ejected through the lens in the form of a defined light distribution, the second light source arrangement providing an additional light output with one of the the first light source arrangement different emission characteristics through the recess in the second reflector and the lens in the desired exit direction.
The legally compliant light distribution is composed of a central area, which is essentially formed by the first light source arrangement, and an edge area, which is essentially formed by the second light source arrangement. The arrangement or the variable connection of the second light source arrangement allows the edge region of the legally compliant light distribution to be designed.
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P15215
The advantage of using a laser device or laser light source is the accompanying high luminance in order to produce a spot with high illuminance, an additional light source which can be switched on as required for the generated light distribution providing a desired high luminous flux.
Advantageously, the at least one second light source arrangement is arranged in a region of the second reflector in which essentially no light from the first light source arrangement is directed by the first reflector in order to use the unused reflection surface or light emission surface for possible light functions, with an almost constant size of the Contraption.
The selected position for the second light source arrangement described above ensures that the emitted light of the second light source arrangement is ejected through the cover plate without a deflection or reflection process on the first or second reflector.
It can be provided that the second light source arrangement comprises at least one light source.
Furthermore, it is favorable if the at least one light source of the second light source arrangement is designed as an LED light source.
Such LED light sources, which comprise one or more light-emitting diodes (LEDs), are increasingly being used in modern vehicle headlights and ensure high luminous flux gains with a low increase in illuminance. Standard LEDs and high-current LEDs can be used here.
It is advantageous if the first reflector is designed as a hyperbolic reflector with a first focal point and a first virtual focal point.
It is advantageously provided that the light shaping device is designed such that the light of the first light source arrangement is concentrated as light rays on the first virtual focal point of the first reflector.
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P15215
In one embodiment it is provided that the first reflector is designed as a parabolic reflector with a first focal point.
It is advantageous if the light shaping device is designed as a collimator, the collimator throwing the light beams of the first light source arrangement onto the first reflector as parallel light beams.
In a further embodiment, the second reflector is designed as a parabolic reflector with a second focal point.
Furthermore, it can be provided that the second reflector is designed as a hyperbolic reflector with a second focal point and a second virtual focal point, the second virtual focal point not having to lie on a common axis with all other focal points present in each case, or in other words, not all existing ones Focal points lie on a common axis.
It is advantageous if the at least one light source of the second light source arrangement is arranged in the second virtual focal point of the second reflector.
It can be provided that the second light source arrangement comprises a TIR optical body.
It is expedient if the cover plate is flat or flat.
It can also be advantageous if the first reflector is designed as a totally reflecting surface of a TIR optic.
The second reflector is advantageously designed as a totally reflecting surface of a TIR optics.
Furthermore, it is expedient if a radiation diaphragm is provided between the first reflector and the second reflector for the implementation or optimization of a light / dark line.
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P15215
A practical development of the invention provides that the first reflector has active and / or passive safety systems, for example with regard to laser radiation.
In an expedient embodiment, it can be provided that the optical system formed from the first and second reflector is formed in one piece.
It can further be provided that the optical system formed from the first and second reflector, the TIR optical body of the second light source arrangement and the light shaping device are formed in one piece.
Advantageously, the cover plate has one or more optical areas which are designed as light-shaping projection optics in order to align incident light beams horizontally and / or vertically in parallel.
It is, of course, clear that not all incident light beams are aligned in parallel on one of these optical areas, but rather those that essentially fall on the respective optical area from the focal point.
In an expedient embodiment, the cover lens is made up entirely of one or more optical areas and can be formed in one piece with the optical system.
It can be provided that such a lighting device can be used to generate the “high beam” light function, the lighting device in this “high beam” light function generating a light distribution which, when the lighting device is installed in a vehicle, a legal one in front of the vehicle High beam distribution according to requirements.
In an advantageous variant, such a lighting device can be used to generate the “low beam” light function, the lighting device in this “low beam” light function generating a light distribution which, when the lighting device is installed in a vehicle, corresponds to the legal requirements in front of the vehicle Low beam distribution generated.
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P15215
It can also be provided that such a lighting device can be used to generate the “fog light” light function, the lighting device in this light function “fog light producing a light distribution which, when the lighting device is installed in a vehicle, in front of the vehicle meets the legal requirements Fog light distribution generated.
Furthermore, it can be favorable if such a lighting device can be used to generate the “daytime running light” light function, the lighting device for this “daytime running light” light function producing a light distribution which, when the lighting device is installed in a vehicle, meets the legal requirements in front of the vehicle appropriate daytime running light distribution generated.
The invention is explained in more detail below with reference to drawings. In this shows
1 is a cross-sectional view of an exemplary embodiment;
2 is a cross-sectional view of another example of the invention;
3 is a cross-sectional view of another exemplary embodiment;
4 is a cross-sectional view of another possible example,
5 is a side view of another exemplary embodiment, and
FIG. 6 shows a cross section through the exemplary embodiment from FIG. 5 with a radiation diaphragm.
1 shows an embodiment of the lighting device 1 according to the invention with a first light source arrangement 2, which is equipped with a laser device 2a and a light conversion element 2b.
Since laser devices generally emit coherent, monochromatic light or light in a narrow wavelength range, but in the case of a motor vehicle headlight white mixed light is generally preferred or prescribed by law for the emitted light, so-called / 24 are in the direction of radiation of the laser device 2a
P15215
Light conversion elements 2b for converting essentially monochromatic light into white or polychromatic light are arranged, whereby “white light” is understood to mean light of such a spectral composition that causes the color impression “white” in humans. This light conversion element 2b is designed, for example, in the form of one or more photoluminescence converters or photoluminescence elements, with incident laser beams from the laser device 2a striking the light conversion element 2b, which as a rule has photoluminescent dye, and excite this photoluminescent dye for photoluminescence, thereby emitting light in a laser device emitting the light different wavelengths or wavelength ranges. The light output of the light conversion element 2b essentially has characteristics of a Lambertian radiator.
In the case of light conversion elements 2b, a distinction is made between reflective and transmissive conversion elements.
The terms “reflective and” transmissive refer to the blue portion of the converted white light. In the case of a transmissive structure, the main direction of propagation of the blue light component after passing through the converter volume or conversion element is essentially the same direction as the direction of propagation of the output laser beam. In the case of a reflective structure, the laser beam is reflected or deflected at an interface attributable to the conversion element, so that the blue light component has a different direction of propagation than the laser beam, which is usually designed as a blue laser beam.
The invention is suitable in principle for both transmissive and reflective conversion elements, a transmissive light conversion element 2b being shown in the exemplary figures.
In the direction of radiation of the first light source arrangement 2, a light shaping device 3 is arranged after the first light source arrangement 2 in order to concentrate the emitted light of the light conversion element onto a virtual focal point f3 of the first reflector 4, 4 'opposite the first light source arrangement 2, which is shown in FIG 1 is designed as a hyperbolic reflector 4 or as a totally reflecting surface of a TIR optics, an advantage of a / 24
P15215 hyperbolic reflector is the possibility of increased beam bundling and reduced installation space. The light reflected by the first reflector 4, 4 'is bundled in a first focal point f1 of the first reflector 4, 4' and deflected onto the second reflector 5, 5 ', which is designed and arranged to the first reflector 4, 4' in such a way that the first focal point f1 of the first reflector 4, 4 'essentially coincides with the second focal point f2 of the second reflector 5, 5', the second reflector 5, 5 'in the embodiment shown in FIG. 1 as a parabolic reflector 5' or is designed as a totally reflecting surface of a TIR optics. The light beams reflected by the first reflector 4, 4 'are emitted by the second reflector 5, 5' as essentially parallel light beams through the cover plate 8, which can be flat or planar in a parabolic design of the second reflector 5 ', and in Ejected in the form of a defined light distribution in a desired exit direction, exemplary beam paths being shown in FIG. 1. Since the invention is not limited to certain types of motor vehicle headlights and can be used, inter alia, on motor vehicle fog lights, motor vehicle direction indicator lamps, daytime running light headlights, signaling devices, motor vehicle rear headlights and / or motor vehicle front headlights for high beam and / or low beam, and on certain light units in the same, the desired exit direction is dependent of the respective area of application of the motor vehicle headlight in which the invention is applied, the list of possible motor vehicle headlights being not exhaustive.
To implement or optimize a light / dark line for a dimmed light distribution, a beam diaphragm 7 is provided between the first and the second reflector 4, 4 ', 5, 5', as shown schematically in FIGS. 1 and 6 and around the focal point positioned.
As a result of the arrangement of the first reflector 4, 4 'and the second reflector 5, 5' relative to one another, in the region near the beam diaphragm 7 or the first and second focal points f1, f2 there is an essentially non-optically used section of the second reflector 5, 5 ', to which no light beams of the first light source arrangement 2 are directed by the first reflector 4, 4'. In this area, the outlet opening of the second light source arrangement 6 is arranged in a recess in the second reflector 5, 5 'provided for this purpose, which as a TIR optic body 6b with at least one LED9 / 24
P15215
Light source 6a is formed, wherein this second light source arrangement 6 ejects an additional light output with a different from the first light source arrangement 2 radiation characteristic in the desired exit direction.
In this case, the light emitted by the second light source arrangement 6 can be ejected without deflections essentially in the same direction as the light beams reflected by the second reflector 5, 5 '.
Apart from LED light sources for the second light source arrangement 6, other light sources can also be used which have a radiation characteristic different from the light source arrangement 2. Classic halogen lamps or HID gas discharge lamps with a downstream beam shaping element (for example in the form of classic free-form reflectors) could be used to generate a supplementary light distribution. However, the use of high-current LED light sources offers the advantage of high luminous flux with a small light exit area.
In the reflection area of the beam at the first reflector 4, 4 ', as can be seen, for example, in FIG. 6, disturbances can be introduced as a passive safety system 9, such as surface structures, steps or a hole which, in the event of a fault, cause laser beams from the laser device to escape Prevent or reduce 2a. The same area can also be used for the placement of an active security system. Since with the first reflector 4, 4 '- above all as a hyperbolic reflector 4 or as a totally reflecting surface of a TIR optic, bundling of the light beams to the first virtual focal point f3 of the first reflector 4 is forced and the reflection area of the light beams at the first reflector 4 is not positioned directly in the light exit area of the overall optical system, the necessary interference structures of the security system 9 can be kept small.
Further possibilities or expansions of the laser safety concept are, for example, so-called “radiation traps, which lie as a laser light-absorbing layer on the reflection surface of the first reflector 4, 4 ′ on the outside and, in the event of a malfunction or damage to the light conversion element 2b, transmit white mixed light and absorb laser light.
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P15215
Another example of a laser safety concept are light sensors arranged in safety-relevant positions, which respectively compare light intensities of the light emitted by the laser device 2a and light intensities of the light emitted by the light conversion element 2b at these positions with stored reference intensities of the respective radiation types measured in error-free operation, whereby if exceeded a previously set, allowed deviation, the laser device 2a are switched off automatically.
In a further exemplary embodiment, as shown in FIG. 2, the first reflector 4, 4 'can be designed as a parabolic reflector 4' or as a totally reflecting surface of a TIRO optic, the second reflector 5, 5 'as a parabolic reflector 5' or is designed as a totally reflecting surface of a TIR optics. The basic arrangement is essentially the same as the example shown in FIG. 1 and described above.
3 shows a further combination of the types of reflectors, the first reflector 4, 4 'being designed as a hyperbolic reflector 4 or as a totally reflecting surface of a TIRO optical system, and the second reflector 5, 5' as a hyperbolic reflector 5 or as a totally reflecting surface Surface of a TIR optics is formed with a second virtual focal point f4. Exemplary beam paths with the aid of the second virtual focal point f4 are also shown in FIG. 3, the basic arrangement being essentially equivalent to the previous examples, and in general not all existing focal points f1, f2, f3, f4 lie on a common axis have to. In the case of a hyperbolic version of the second reflector 5, the cover plate 8 is designed as a lens or projection lens in order to generate a defined light distribution. In this case, the cover plate 8 can have one or more different regions which are designed as projection optics in order to align incident light beams horizontally and / or vertically in parallel.
In general, it can be said that the cover plate 8 has the purpose of shaping the incident light beams or light beam bundles in such a way that parallel light beams or light beam bundles are ejected, in order to thereby produce a light distribution that complies with the law. This can also affect the second light source arrangement 6, since the TIR optical body of the second light source arrangement 6 only aligns the light beams in parallel to a limited extent, with / 24
P15215, the lens 8 in the area where the light rays of the second light source arrangement 6 are incident is also designed to align or shape the light rays in parallel. For this purpose, it is not necessary for the light source 6a of the second light source arrangement 6 to be arranged in the focal point or the focal plane of the cover plate 8 or the respective optical region of the cover plate 8, but essentially the emission surface of the TIR optical body 6b, the focus here or focal plane of the region of the cover plate 8 is meant, in which the light rays of the second light source arrangement 6 essentially fall.
Another possible example is shown in FIG. 4. The first reflector 4, 4 ″ is designed as a parabolic reflector 4 ″ or as a totally reflecting surface of a TIR optics and the second reflector 5, 5 ″ as a hyperbolic reflector 5 ″ or as a totally reflecting surface of a TIR optics. Exemplary beam paths with the aid of the second virtual focal point f4 are also shown in FIG. 4, the basic arrangement being essentially equivalent to the previous examples.
Configurations are also possible in which only one of the two reflectors 4, 4 ″, 5, 5 ″ is designed as a totally reflecting surface and TIR optics and the other is not.
In an exemplary embodiment, the invention can be used to generate the “high beam” light function, with the lighting device 1 generating a light distribution in this “high beam” light function which, when the lighting device 1 is installed in a vehicle, a legal one in front of the vehicle High beam distribution corresponding to requirements is generated, for which purpose the second light source arrangement 6 can function as a switchable high beam.
In a further embodiment, such a lighting device 1 can be used to generate the “low beam” light function, the lighting device in this “low beam” light function generating a light distribution which, when the lighting device 1 is installed in a vehicle, a legal one in front of the vehicle Low beam distribution corresponding to requirements.
/ 24
P15215
In a further example, such a lighting device 1 can be used to generate the “fog light” light function, the lighting device 1 generating a light distribution in this “fog light” light function, which in an installed state of the lighting device 1 in a vehicle, one in front of the vehicle generated fog light distribution or bad weather light distribution according to legal requirements.
In a further embodiment, such a lighting device 1 can be used to generate the “daytime running light” light function, the lighting device 1 generating a light distribution in this “daytime running light” light function which, when the lighting device 1 is installed in a vehicle, one in front of the vehicle daytime running light distribution corresponding to legal requirements.
The above-mentioned, listed light functions or light distributions are not conclusive, the lighting devices also being able to generate combinations of these light functions and / or only producing a partial light distribution, that is to say, for example, only part of a high beam, low beam, fog or daytime running light distribution.
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P15215
LIST OF REFERENCE NUMBERS
...... illumination device
...... first light source arrangement
2a ..... laser device
2b ..... light conversion element
...... light modulator device
...... first reflector (hyperbolic)
4 ’...... first reflector (parabolic)
...... second reflector (hyperbolic)
5 ’...... second reflector (parabolic)
...... second light source arrangement
6a ..... LED light source
6b ..... TIR optic body
...... bulb shield
...... lens
..... security system f1 ..... first focus f2 ..... second focus f3 ..... first virtual focus f4 ..... second virtual focus / 24
P15215

权利要求:
Claims (26)
[1]
claims
1. Lighting device (1) of a motor vehicle headlight, which lighting device (1) comprises:
a first light source arrangement (2) comprising at least one laser device (2a) and at least one luminous surface (2b) having a light conversion element,
a light shaping device (3) arranged after the first light source arrangement (2),
- a first reflector (4, 4 ') with a first focal point (f1) and a second reflector (5, 5') with a second focal point (f2), the two reflectors (4, 4 ', 5, 5') form an optical system,
- An additional second light source arrangement (6), which is arranged outside of the second reflector (5, 5 ') with respect to the reflecting surface of the second reflector (5, 5'), the second reflector (5, 5 ') for this purpose a recess is provided so that the light emitted by the second light source arrangement (6) is ejected essentially in the same direction as the light beams reflected by the second reflector (5, 5 '), and
- an end plate (8) positioned in the outlet opening of the second reflector (5, 5 ') for using a common projection of the first and second light source arrangement (2, 6), the light emitted by the first light source arrangement (2) via the light shaping device ( 3) is directed onto the first reflector (4, 4 ') opposite the first light source arrangement (2) in the radiation direction, the first reflector (4, 4') bundling the light beams in the first focal point (f1) onto the second reflector (5 , 5 '), which is designed and arranged in relation to the first reflector (4, 4') such that the first focal point (f1) of the first reflector (4, 4 ') coincides with the second focal point (f2) of the second reflector (5 , 5 ') essentially coincides, and the light beams reflected by the second reflector (5, 5') in a desired exit direction, preferably the direction of travel, through the cover lens (8) in the form of a defined one
15/24
P15215
Light distribution are ejected, the second light source arrangement (6) ejecting additional light with a radiation characteristic different from the first light source arrangement (2) through the cutout in the second reflector (5, 5 ') and the cover lens (8) in the desired exit direction.
[2]
2. Lighting device (1) according to claim 1, characterized in that the at least one second light source arrangement (6) is arranged in a region of the second reflector (5, 5 ') in which essentially no light from the first light source arrangement (2) is directed towards the first reflector (4, 4 ').
[3]
3. Lighting device (1) according to one of claims 1 or 2, characterized in that the second light source arrangement (6) comprises at least one light source (6a).
[4]
4. Lighting device (1) according to claim 3, characterized in that the at least one light source (6a) of the second light source arrangement (6) is designed as an LED light source.
[5]
5. Lighting device (1) according to one of claims 1 to 4, characterized in that the first reflector (4, 4 ') is designed as a hyperbolic reflector (4) with a first focal point (f1) and a first virtual focal point (f3) ,
[6]
6. Lighting device (1) according to claim 5, characterized in that the light shaping device (3) is designed such that the light of the first light source arrangement (2) is concentrated as light rays on the first virtual focal point (f3) of the first reflector (4) ,
[7]
7. Lighting device (1) according to one of claims 1 to 4, characterized in that the first reflector (4, 4 ') is designed as a parabolic reflector (4' ') with a first focal point (f1).
[8]
8. Lighting device (1) according to claim 7, characterized in that the light shaping device (3) is designed as a collimator (3), the collimator (3) being the
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P15215
Throws light rays of the first light source arrangement (2) onto the first reflector (4 ') as parallel light rays.
[9]
9. Lighting device (1) according to one of claims 1 to 8, characterized in that the second reflector (5, 5 ') is designed as a parabolic reflector (5' ') with a second focal point (f2).
[10]
10. Lighting device (1) according to one of claims 1 to 8, characterized in that the second reflector (5, 5 ') is designed as a hyperbolic reflector (5) with a second focal point (f2) and a second virtual focal point (f4) ,
[11]
11. Lighting device (1) according to claim 10, characterized in that the at least one light source (6a) of the second light source arrangement (6) is arranged in the second virtual focal point (f4) of the second reflector (5).
[12]
12. Lighting device (1) according to claim 9, characterized in that the second light source arrangement (6) comprises a TIR optic body (6b).
[13]
13. Lighting device (1) according to one of claims 9 or 11, characterized in that the cover plate (8) is flat or plan.
[14]
14. Lighting device (1) according to any one of claims 1 to 13, characterized in that the first reflector (4, 4 ') is designed as a totally reflecting surface of a TIR optics.
[15]
15. Illumination device (1) according to one of claims 1 to 14, characterized in that the second reflector (5, 5 ') is designed as a totally reflecting surface of a TIRO optics.
[16]
16. Lighting device (1) according to one of claims 1 to 15, characterized in that between the first reflector (4, 4 ') and the second reflector (5, 5') for the implementation or optimization of a light / dark line a radiation diaphragm (7) is provided.
[17]
17/24
P15215
17. Lighting device (1) according to one of claims 1 to 16, characterized in that the first reflector (4, 4 ') has active and / or passive safety systems (9).
[18]
18. Lighting device (1) according to one of claims 1 to 17, characterized in that the optical system formed from the first and second reflector (4, 4 ', 5, 5') is formed in one piece.
[19]
19. Lighting device (1) according to one of claims 12 to 18, characterized in that the optical system formed from the first and second reflector (4, 4 ', 5, 5'), the TIR optical body (6b) of the second light source arrangement ( 6) and the light shaping device (3) are formed in one piece.
[20]
20. Lighting device (1) according to one of claims 1 to 19, characterized in that the cover plate (8) has one or more optical areas which are designed as light-shaping projection optics in order to align incident light beams horizontally and / or vertically in parallel.
[21]
21. Lighting device (1) according to claim 20, characterized in that the cover plate (8) is completely composed of one or more optical areas.
[22]
22. Lighting device (1) according to one of claims 1 to 21, characterized in that such a lighting device (1) can be used to generate the light function "high beam".
[23]
23. Lighting device (1) according to one of claims 1 to 22, characterized in that such a lighting device (1) can be used to generate the light function "low beam".
[24]
24. Lighting device (1) according to one of claims 1 to 23, characterized in that such a lighting device (1) can be used to generate the light function “fog light”.
18/24
P15215
[25]
25. Lighting device (1) according to one of claims 1 to 24, characterized in that such a lighting device (1) can be used to generate the light function “daytime running lights.
[26]
26. Motor vehicle headlight with one or more lighting devices (1) according to one of claims 1 to 25.
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1.5
2.2 ar - 1
20/24
2.5
2,2a
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3.5
2,2a
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4.5
2.2a cTt "
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5.5
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WO2016070968A1|2016-05-12|Headlamp for a motor vehicle

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DE102017102003A1|2018-08-02|Lighting device for a motor vehicle

---

WO2019154587A1|2019-08-15|Lighting device for a motor vehicle

---

DE102014208504A1|2015-11-12|lighting device

---

DE102013204063A1|2014-09-11|Motor vehicle headlamps

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DE102020107926A1|2021-10-07|Microlens projection module with beam end adapted to the divergence of illumination

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DE102016105594B4|2021-01-21|Lighting device for a motor vehicle headlight with a hyperbolic and a parabolic reflector, vehicle headlight with corresponding lighting device and vehicle with corresponding vehicle headlights

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EP3719391A1|2020-10-07|Partial high beam module for a motor vehicle headlight

同族专利:

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公开号 | 公开日

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EP3545229A1|2019-10-02|

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CN108351084B|2020-07-10|

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JP6506885B2|2019-04-24|

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EP3545229B1|2021-07-14|

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CN108351084A|2018-07-31|

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US20190316749A1|2019-10-17|

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WO2018094431A1|2018-05-31|

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AT519119B1|2018-04-15|

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US10451237B1|2019-10-22|

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JP2018538656A|2018-12-27|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

US20090027911A1|2007-07-17|2009-01-29|Toyoda Gosei Co., Ltd.|Vehicular lamp|

---

WO2013131114A1|2012-03-07|2013-09-12|Zizala Lichtsysteme Gmbh|Lighting device for a motor vehicle|

---

JP2015153577A|2014-02-13|2015-08-24|スタンレー電気株式会社|vehicle lamp|

---

JP4335785B2|2004-02-27|2009-09-30|スタンレー電気株式会社|Vehicle lighting|

---

JP2006127856A|2004-10-27|2006-05-18|Koito Mfg Co Ltd|Vehicular lighting lamp|

---

JP4393971B2|2004-11-24|2010-01-06|株式会社小糸製作所|Lighting fixtures for vehicles|

---

JP2006164858A|2004-12-09|2006-06-22|Koito Mfg Co Ltd|Vehicular lighting fixture|

---

FR2899668B1|2006-04-06|2009-11-20|Valeo Vision|LIGHTING MODULE FOR A LIGHT PROJECTOR OF A MOTOR VEHICLE, AND PROJECTOR COMPRISING SUCH A MODULE.|

---

JP4735424B2|2006-06-01|2011-07-27|市光工業株式会社|Vehicle lighting|

---

KR20090046120A|2007-11-05|2009-05-11|현대자동차주식회사|Illumination apparatus using light emitting diodes|

---

DE102011004569A1|2011-02-23|2012-08-23|Automotive Lighting Reutlingen Gmbh|For installation in a motor vehicle provided lighting device|

---

MX341222B|2014-03-24|2016-08-11|Magneti Marelli Spa|Vehicle instrument panel equipped with a led backlighting device for lighting a graphic area.|

---

DE102014225075A1|2014-12-05|2016-06-09|Osram Gmbh|lighting device|

---

DE102014226646A1|2014-12-19|2016-06-23|Osram Gmbh|lighting device|FR3084755B1|2018-08-02|2020-12-18|Valeo Vision|OPTICAL PART INCLUDING A BLOCK WITH A BENDING DIOPTER FOR TWO BEAMS|

---

CN110953551A|2018-09-27|2020-04-03|法雷奥照明湖北技术中心有限公司|Optical element, optical module and vehicle|

---

EP3653926B1|2018-11-19|2022-02-16|ZKW Group GmbH|Lighting device for a motor vehicle headlamp and motor vehicle headlamp|

---

US10753562B1|2019-06-09|2020-08-25|Hossein ALISAFAEE|Lightguide headlamp|

---

DE102019129100A1|2019-10-29|2021-04-29|HELLA GmbH & Co. KGaA|Headlights for vehicles|

法律状态:

优先权:

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申请号 | 申请日 | 专利标题

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ATA51057/2016A|AT519119B1|2016-11-22|2016-11-22|LIGHTING DEVICE FOR A MOTOR VEHICLE HEADLAMP|ATA51057/2016A| AT519119B1|2016-11-22|2016-11-22|LIGHTING DEVICE FOR A MOTOR VEHICLE HEADLAMP|

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JP2018517736A| JP6506885B2|2016-11-22|2017-10-11|Lighting device of light projector for motor vehicle|

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PCT/AT2017/060260| WO2018094431A1|2016-11-22|2017-10-11|Lighting device of a vehicle headlamp|

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CN201780004003.4A| CN108351084B|2016-11-22|2017-10-11|Lighting device for motor vehicle searchlight|

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EP17787308.0A| EP3545229B1|2016-11-22|2017-10-11|Lighting device of a vehicle headlamp|

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US15/771,232| US10451237B1|2016-11-22|2017-10-11|Lighting device of a motor vehicle headlight|