Light guide element for a laser vehicle headlight and vehicle headlights

专利摘要:
The invention relates to a light guide element (1) for a laser vehicle headlamp (2), wherein the laser vehicle headlamp (2) comprises at least one laser light source (3) and at least one light element (3) which can be irradiated by the laser light source (3) and which can be excited to emit visible light ( 4) and the light-guiding element (1) can be arranged essentially between the laser light source (3) and the luminous element (4), wherein the light-guiding element (1) has a light entry surface (5) and a light exit surface (6), wherein the inlet cross-sectional area of the light entry surface (5) is larger than the exit cross-sectional area of the light exit surface (6) and that light irradiated by the light entry surface (5) can be bundled in the direction of the light exit surface (6) via the inner surface (7) connecting the light entry surface (5) and the light exit surface (6) wherein the light exit surface (6) is at least partially opaque to light Covering element (15) is covered. The invention also relates to a vehicle headlamp (2) with at least one such light-guiding element (1).
公开号:AT512589A1
申请号:T50074/2012
申请日:2012-03-12
公开日:2013-09-15
发明作者:Friedrich Bauer；Andreas Moser；Johann Altmann；Erich Kaufmann
申请人:Zizala Lichtsysteme Gmbh；
IPC主号:

专利说明:

P12418
Light guide element for a laser vehicle headlight
The invention relates to a light-guiding element for a laser vehicle headlamp, wherein the laser vehicle headlamp comprises at least one laser light source and at least one illuminable by the laser light source and thus excitable to the emission of visible light luminous element and the light guide is substantially arranged between the laser light source and the luminous element. The invention further relates to a vehicle headlamp with at least one laser light source and at least one, can be irradiated by the laser light source and thus excitable to the emission of visible light element.
Various types of vehicle headlights are known in the prior art, with headlamps with discharge lamps and halogen light sources being used in recent years predominantly. For energy saving reasons and to further reduce the space requirement of vehicle headlamps, the use of laser light sources such as semiconductor lasers is increasingly being tested, since they are advantageous in this regard. In order to make the laser light usable for a vehicle headlight, a light source, a so-called phosphor converter (eg a phosphorus compound, a YAG crystal with cerium doping, etc.), is irradiated with a laser light source, thereby radiating visible light is stimulated. The phosphor converter thus converts laser light into light of other wavelengths
In this case, free-jet concepts are frequently used, in which the laser light source is arranged at a distance from the luminous element and the laser light covers the free path of movement of the luminous element. In such a case, it is necessary that the laser light impinges exactly on the luminous element - on the one hand, in order to exploit the radiated power as well as possible, on the other hand for safety reasons. The laser light sources used emit powers of currently up to 3 W and more, in the case of a malfunction (for example, if the light element is not optimally hit) may result from high-intensity eye-damaging laser light radiation to injuries, but in any case to endanger other road users. -2- P12418
It is therefore an object of the invention to provide a solution for laser vehicle headlights which overcomes the above-mentioned problems of the prior art
This object is achieved with a light guide according to the invention in that the light guide element has a light entrance surface and a light exit surface, wherein the inlet cross-sectional area of the light entrance surface is greater than the exit cross-sectional area of the light exit surface and that radiated through the light entrance surface light over the inner surface connecting the light entrance surface and the light exit surface is bundled in the direction of the light exit surface.
The invention allows the compensation of positioning errors of the light emitting element with respect to the laser light source and ensures even with slight deviations that the irradiated laser light hits the light element and is not distracted uncontrolled or possibly endanger other road users. The in the assembled state of the laser light source facing the light entry surface is larger than the light exit surface and thus collects the incoming radiation, which are directed by the reflective inner surface to the light emitting element.
Thanks to the solution according to the invention, both the high demands on the mounting of the luminous element relative to the laser light source can be reduced and thereby fulfilled, as well as the dimensional stability of the parts used in a laser vehicle headlamp during use (eg vibration load, resonance, strength, thermal expansion, ...) be ensured.
The inner surface here designates the interior (or the one oriented in the direction of the light-guiding element interior) of the lateral surface between the light entry surface and the light exit surface. By way of example, the Lichtleitelenient has a substantially circular cross section, the light entrance surface thus has a larger diameter than the light exit surface. The light-guiding element preferably consists of a transparent material such as glass or plastic - the light-guiding element is embodied, for example, in one piece as a volumetric body, that is to say it consists of a material throughout. The reflective inner surface results in particular due to the total reflection at the interface Lichtieitelement environment. -3- P12418
In a variant of the invention, the acceptance angle of the Lichtieitelements is between 0 ° and 45 ° with respect to the optical axis of the Lichtieitelements. This means that the light-guiding element is set up to reflect or concentrate light which impinges on the light-entry surface at an angle between 0 ° and 45 ° with respect to the optical axis, in the direction of the light-exit surface. Thus, the light-guiding element according to the invention allows high tolerances with regard to the positioning of the laser light source and the luminous element to each other.
The reflective inner surface of the Lichtieitelements is designed essentially as a paraboloid or as a free-form surface. The formation as a paraboloid can in particular also take the form of a paraboloid of revolution. Depending on the exact application, the inner surface is thus shaped with the desired reflection properties.
In particular, when using the light guide in a vehicle headlamp, it is advantageous if no unwanted false light is emitted, which could then distort the photo. For this purpose, the outside of the light guide element in the region between the light entry surface and the light exit surface is expediently provided at least in regions, but in particular completely, with an opaque coating. This can be prevented that light is emitted off the light exit surface of the light guide. The coating can be applied for example by painting or steaming.
In a variant of the invention, at least one receptacle for the luminous element is provided in the region of the light exit surface, wherein the receptacle is designed, in particular, as a blind hole or as a hollow completely surrounded by the luminous element. The light-emitting element could therefore be arranged in the light-emitting element. This has the advantage that only the Lichtieitelement with respect to the laser light source must be accurately mounted during assembly - the optimal position of the light-emitting element is thus ensured at the same time, since the light-emitting element is held in the Lichtieitelement. When performing the recording as a blind hole, the lighting element came to be replaced if necessary, the Lichtieitelement can continue to be used. When executed as a completely surrounded cavity, the lighting element came to be protected from environmental influences. By providing the receptacle, the luminous element is in the assembled state "below". arranged the light exit surface in Lichtieitelement. P12418 -ΑΜΑ the solution according to the invention can also realize various lighting functions. For example, in one variant, the light exit surface is at least partially covered by an opaque limiting element. This opaque limiting element may for example be designed as a coating in the form of painting or vapor deposition, but it may also be a separate component glued or otherwise applied. This limiting element (possibly in conjunction with a free-form reflecting surface - see below) can be used to produce a dipped beam with a sharp light-dark transition.
According to a further variant of the invention, at least one reflector element extending around the light guide element is arranged between the light entry surface and the light exit surface, preferably in the area of the light exit surface, for deflecting the light emitted by the light element in a direction away from the light entry surface. With this reflector element, the light emitted by the luminous element can be used photometrically - e.g. in connection with the above-mentioned limiting element for the realization of a low beam. In principle, such a reflector element is advantageous because, for example, when using the light-guiding element in a vehicle headlight, the light emitted by the light-emitting element can be optimally directed into a main reflector of the vehicle headlight. At the same time an uncontrolled leakage of light from the headlight is prevented, or a better utilization of the light emitted by the light emitting element possible.
The object of the invention is further achieved by an aforementioned vehicle headlamp according to the invention that between the laser light source and the luminous element at least one light guide is arranged as described above is favorably, the laser light source seen in the main emission of the vehicle headlamp in front of the luminous element arranged so that the light of the laser light source is emitted against the main emission of the vehicle headlight. In this variant, in particular the risk of uninvolved road users by the laser beam is prevented when it comes to a malfunction of the headlight - because the laser beam runs counter to the main beam direction, he can not radiate uncontrolled from the headlight. The invention allows the realization of a vehicle headlamp, which can meet the legal requirements such as ECE, SAE, CCC, etc.
As an additional security element, according to a variant of the invention, at least one diaphragm element is provided, with which light reflected from the light entry surface of the light guide element or from the interior of the light guide element in the main emission direction of the vehicle headlamp can be shielded. In a further variant of the invention, the diaphragm element is designed as a connecting piece running between the laser light source and the light-guiding element, which is designed in particular as a tubular or semi-tubular shape.
With the diaphragm element, the radiation can be prevented in particular from laser light in the direction outside of the vehicle headlight. For this purpose, the diaphragm element can be coated, for example, with an anti-reflective or absorbent coating, or it can surround the relevant regions of the light-guiding element.
In the following the invention will be explained in more detail with reference to a non-limiting embodiment, which is illustrated in the drawing. In this shows schematically;
1 shows a cross-sectional view of a first variant of the light-guiding element according to the invention;
FIG. 2 shows a cross-sectional view of a second variant of the light-guiding element according to the invention; FIG.
3 shows a cross-sectional view of a third variant of the light-guiding element according to the invention; and
Fig. 4 is a cross-sectional view of a vehicle headlamp with a light guide according to the invention.
In the following figures, the same elements are provided with the same reference numerals for reasons of clarity.
In Fig. 1, a first variant of the light-guiding element 1 according to the invention is shown. The light-guiding element 1 is used, for example, in a laser vehicle headlight 2 (see FIG. 4), between a laser light source 3 and a light-emitting element 4, which emits light emitted by the laser light source 3 for emission of visible light, in particular white color is stimulated. -6- P12418
The light guide 1 has a light entrance surface 5 and a light exit surface 6. The inlet cross-sectional area of the light entry surface 5 is larger than the exit cross-sectional area of the light exit surface 6 - if, for example, as in the present embodiment, the light guide 1 has a substantially circular cross-section, so the entrance surface radius 50 is greater than the exit surface radius 60th
Irradiated light (for example, from the laser light source 3) is focused on the running between the inlet 5 and the exit surface 6 inner surface 7 to the light exit surface 6 out. This is done predominantly by total reflection at the interface between the light guide 1 and the surrounding medium, which is predominantly ambient air. In the region of the light exit surface 6 is then the luminous element 4 (see FIG. 4), which is excited by the collimated laser light to emit visible, preferably white light.
The incident light does not have to impinge perpendicularly on the light entry surface 5, but can be noticed within an acceptance angle 300. The acceptance angle 300 denotes the angle to the optical axis 100 of the light guide 1. An acceptance angle of 0 ° results when the light exactly parallel to the optical axis 100 (and thus perpendicular to the light entrance surface 5) is incident. The acceptance angle 300 is in the present embodiment between 0 ° and 45 °.
Light incident under this acceptance angle range (that is, between 0 ° and 45 °) is converged toward the light exit surface 6. Light which is incident at an angle greater than the acceptance angle is either reflected directly at the light entry surface 5 or enters the Uchtleitelement 1, but is then there back and forth reflected that it exits again at the light entrance surface 5 and not the light exit surface 6 reached
The light-transmitting element 1 therefore increases the tolerances with which the light from the laser light source 3 (see FIG. 4) radiates onto the light-emitting element 4 (FIG. 4) and thus facilitates the construction of a laser vehicle headlight 2, on the one hand, and also those occurring during operation Shaking less significant.
In order to achieve the bundling effect, the inner surface 7 of the light-guiding element 1 is designed essentially as a paraboloid or as a free-form surface. Furthermore, as shown in FIG. 1, the outside of the luminous element 1 in the area between the light entry surface 5 and the light exit surface 6 can be provided with an opaque and / or reflective coating 8. This coating 8 may cover the specified area in areas or even completely.
As a result, on the one hand, the reflective or bundling effect of the inner surface 7 is amplified, on the other hand, no misdirected laser radiation can emerge from the light guide element, which could lead to injuries in uninvolved road users. The coating 8 is carried out, for example, as a coating or steaming formschliissige sheath.
In principle, the light-guiding element 1 can be hollow in the form of a tube, but it can also be made as a one-piece volumetric body. The material used is various transparent materials such as glass, plastic, etc. in question.
In the area of the light exit surface 6, a receptacle for a luminous element 4 is provided. In the illustrated embodiments, only one receptacle for a luminous element 4 is provided, but it can also be provided receptacles for several lighting element 4, or several lighting elements 4 are spent in a recording. In Figure 1, the receptacle for the light-emitting element 4 is designed as a blind hole 9, the variant in Figure 2 provides a completely surrounded by the light guide 1 cavity 10 before.
The luminous element 4 is struck by the collimated laser light and excited to emit visible light. This visible light then exits the light guide 1 and can be used in lighting technology, for example in a laser vehicle headlamp 2, as shown in Fig. 5 and explained in more detail
In FIG. 2, a variant of the invention can be seen, in which the exit exit surface 6 is at least partially covered by an opaque limiting element 15. In the exemplary embodiment shown, the delimiting element 15 is below a horizontal plane passing through the optical axis 100 (the horizontal plane in FIG Bladebene and therefore filed with the dotted line of the optical axis 100 together) arranged. Of course, other versions are possible depending on the desired light function. -8- P12418
The delimiting element 15 can be of any desired design, for example as an opaque coating or as a separate diaphragm which is adhesively bonded or applied to the light-emitting element 1 in a different manner or held mechanically thereon. The limiting element 15 allows the generation of a light-dark transition, whereby different Uchtfunktionen such as low beam, fog light, etc. can be realized.
The mentioned HeU-dark transition can be further promoted by the in Fig. 3 represents asked variant of the light guide 1 according to the invention: Therein, the light guide 1 has a running around the Lichüeitelement 1 reflector element 11, which radiated from the light emitting element 4 direction in a deflects away from the light entry surface 5 direction. Thus, the radiated light from all sides of the light-emitting element 4 can be used even better in terms of lighting technology. The reflector element 11 is designed for example as a half-shell (only the upper or lower half is present) or as a full reflector
The reflector element 11 is either designed in one piece with the light guide 1 or designed as a separate component. In the second case, it consists for example of metal, plastic or glass, wherein the light-emitting element 4 facing side reflective, that is designed to be coated accordingly. If the reflector element 11 is embodied in one piece with the light-conducting element 1, it must be ensured that no light can escape in the direction of the surface 5 - the reflective layer is therefore thick enough, or is on the side facing away from the light-emitting element 4 apply opaque layer.
In principle, the reflector element 11 is to be arranged between the light entrance 5 and the light exit surface 6, but is preferably, as in the present embodiment, in the region of the light exit surface 6. In FIG. 5, a vehicle headlight 2 can be seen in a sectional illustration in cross section in which an inventive Lichüeitelement 1 is used. Only the essential features for the understanding of the invention are shown, since those skilled in the other elements of a vehicle headlamp are known. -9- P12418
The vehicle headlight 2 comprises a laser light source 3, which emits, for example, in a wavelength range between 200 nm and 450 nm, that is partially in the non-visible UV range. The radiated power of the laser light source 3 is between 0.5 and 2 W, but may be higher. The laser light source 3 is, for example, a semiconductor laser in the form of a laser diode. It is also possible to provide a plurality of laser light sources 3, for example in the form of laser diode arrays.
The laser light source 3 has to dissipate the heat generated during operation in the illustrated embodiment, a heat sink 12 and a ventilation device 13 - the ventilation device 13 serves here, the cooling body 12 to supply cool air or dissipate heated air. The ventilation device 13 may, for example, comprise a ventilation device. The heat sink 12 may be made of a suitable material and in addition, for example, cooling fins or the like. exhibit.
In addition to the laser light source 3 (shown in Fig. 4 with heat sink 12 and fan 13), a luminous element 4 is provided which is spherical in the present embodiment. The spherical design is only one of several possible configurations, the light-emitting element 4 can also be designed differently. The luminous element 4 is preferably a phosphor converter, which can be excited by the light of the laser light source 3 in a known manner to emit visible light. In principle, all materials which convert monochromatic laser light into light of other wavelengths (preferably white light) can be used as the phosphorus converter. In principle, the phosphorus converter is thus a light converter - the electrons of the converter material are excited by the laser light into higher energy levels and emit light when falling back the wavelength difference corresponding to the level difference.
The luminous element 4 is arranged in a light-guiding element 1 according to the invention, which is positioned in a reflector 16. The reflector 16 deflects the light emitted by the luminous element 4 in the main emission direction 200 of the vehicle headlight 2. The main emission direction 200 in the present example in FIG. 4 runs from left to right. The reflector 16 may be arranged to be pivotable and / or adjustable, which is not shown in the figures for reasons of clarity. Basically, any designs of the reflector 16 are possible, it can free-form variants as well as parabolas, -10- P12418
Hyperbola, ellipses or combinations thereof are used as a reflector surface. The reflector 16 can be seen in Fig. 4 as a cross section and can be designed as a half-shell (only the upper or lower half is available) or as a full reflector, the skilled person a number of variants for the reflector 16 is known.
In the illustrated variant of the invention, the luminous element 4 is arranged on the optical axis 400 of the vehicle headlight 2 in a focal point of the reflector 16. It should be noted that the reflector 16 may also be designed as an open-space reflector with a plurality of different focal points, wherein according to the illustrated embodiment, the luminous element 4 is arranged precisely in one of these focal points. Of course, it is not absolutely necessary that the luminous element 4 is arranged in a focal point - but it must remain stationary to achieve a desired light distribution in the reflector, which should be ensured even with vibrations · The vehicle headlamp 2 is closed by a cover 17. The cover 17 may be configured as desired, but is preferably largely transparent.
The desired light pattern of the vehicle headlight 2 is generated by the light guide element 1, the luminous element 4 arranged therein and the reflector 16. In addition, the light guide 1 according to the invention allows greater tolerances with respect to the relative positioning between the laser light source 3 and light element 4, for example when the light source 3 is replaced due to repair or if the laser light source 3 is no longer in optimal position due to vibrations during operation.
For fixing the light guide 1 in the reflector 16, a support member 18 is provided - the support member 18 is here provided with cooling fins 19, which serve to derive the resulting in the light generation in the light element 4 and the light guide 1 heat. The cooling fins 19 are just one example of heat sinks that can be used here - a number of possibilities are known to those skilled in the art in this regard, so will not be discussed in detail here.
The laser light source 3 and the luminous element 4 are arranged so that the light of the laser light source 3 is emitted against the main emission direction 200 of the vehicle headlamp 2. Before the laser light source 3 is thus arranged in the main emission direction 200 of the vehicle headlamp 2 in front of the luminous element 4 so that the light of the laser light source 3 is emitted counter to the main emission direction 200 of the vehicle headlamp 2. The beam direction 500 of the laser light source 3 thus runs opposite to the main emission direction 200 of the vehicle headlight 2. This prevents that in the event of damage to the vehicle headlight 2 or a malfunction, the light of the laser light source 3 escape and can endanger other road users.
The beam direction 500 of the laser light source 3 preferably extends at an acute angle to the main emission direction 200 of the vehicle headlight 2. The angle can therefore be between 0 ° and 90 °. An angle of 0 ° thus means that the laser light source 3 is arranged on the optical axis of the vehicle headlight 2 in the main beam direction 200 behind the light-emitting element 4. Accordingly, an angle of 90 ° means that the beam direction 500 of the laser light source 3 is normal to the optical axis of the vehicle headlight 2. Optical axis and main emission 200 of the vehicle headlight 2 are substantially parallel to each other, so depending on the available space for the vehicle headlight 2 or desired field of application so light source 3 and light guide 1 or light element 4 can be arranged to each other.
Between the laser light source 3 and the light guide 1 with the luminous element 4, a number of elements can be arranged. For example, in the embodiment shown in FIG. 4, an optical element in the form of a collecting lens element 20 is arranged immediately after the laser light source 3. This converging lens concentrates the light of the laser light source 3 in the direction of the light-guiding element 1 or the luminous element 4 arranged therein Advantageously, optical elements are used, for example lenses and / or prisms of various types. Conveniently, absorbing elements are arranged around such optical or light-guiding elements 1 in order to prevent any reflections of the incoming laser light in the main emission direction 200 of the vehicle headlight 2 and thus endanger other road users. The diaphragm element 21 in FIG. 4 represents an embodiment of such elements. It prevents emission of reflections from the vehicle headlight 2. In a variant or in addition, the said optics, light-guiding elements 1 and absorbing elements such as the diaphragm element 21 can also be provided with anti-reflective surfaces or designed so that they only reflect or absorb light in the wavelength range of the laser light , however, are translucent for visible light and thus allow a view of the headlight components. In this case, irregularities such as inclusions or microstructures can be provided, which deflect the laser light, make visible from the outside and thus serve as a design element.
By way of example, the diaphragm element 21 in FIG. 4 is arranged above a horizontal plane extending through the optical axis 400 of the vehicle headlight 2 between the light guide element 1 and the cover plate 17. Of course, however, other known to those skilled solutions - the only requirement of such devices is that the light functions of the vehicle headlamp 2 are not adversely affected.
The diaphragm element 21 can also be designed so that it covers the entire! Free-beam region of the laser light envelops, for example in the form of a tube or a tube with a semicircular cross-section ("half pipe"). In a further variant, it may be semi-mirrored and / or illuminated for design reasons with its own light source (e.g., a blue LED). Such variants are not shown in the figures
The invention according to the above embodiments allows the realization of a vehicle headlamp, which can meet the legal requirements such as ECE, SAE, CCC, etc.
In the vehicle headlight 2 according to the variant in FIG. 4, the waste heat generated during operation of the laser light source 3 can also be used. In the exemplary embodiment according to FIG. 4, the laser light source 3 is arranged close to the cover plate 17 below a horizontal plane running through the optical axis 400 of the vehicle headlight 2 in the installed state of the vehicle headlight 2. The horizontal plane in Fig. 4 is normal to the plane of the drawing through the optical axis 400 of the vehicle headlight Z.
The laser light source 3 is arranged so close to the cover plate 17 that the cover plate 17 can be heated by means of the waste heat of the laser light source 3. The waste heat can be used for defrosting and deicing the cover 17. Depending on the used laser light source 3 or depending on the material of the cover plate 17 etc. it has to be decided how to position P12418 near the laser light source 3 to the cover plate 17. The ventilation device 13 of the laser light source 3 can be used here by supporting the waste heat flow supportive. According to the variant in FIG. 4, the laser light source 3 is positioned below a design aperture element 22 which has corresponding design aperture openings 23 for the passage of the waste heat. According to a variant, these design aperture openings 23 can have a nozzle-like shape, so that the airflow 24 caused by the waste heat of the laser light source 3 can be directed in a targeted manner. By nozzle-like shape is here to be understood a shape that allows the steering of the air passing through the design aperture openings 23 air flow to meet the above object. Thus, the defrosting and deicing, or more generally the benefits of the waste heat of the laser light source 3 can be done even more efficient.
Vienna, March 12, 2012

权利要求:
Claims (12)
[1]
1. Light guide element (1) for a laser vehicle headlamp (2), wherein the laser vehicle headlamp (2) at least one laser light source (3) and at least one by the laser light source (3) irradiated and thus to the emission of visible Comprises light-stimulable luminous element (4) and the light-guiding element (1) can be arranged substantially between the laser light source (3) and the luminous element (4), characterized in that the light-guiding element (1) has a light inlet surface (5) and a light outlet surface (6) wherein the inlet cross-sectional area of the light entry surface (5) is greater than the exit cross-sectional area of the light exit surface (6) and light irradiated through the light entry surface (5) via the inner surface (7) connecting the light entry surface (5) and the light exit surface (6) in the direction the light exit surface (6) is bundled
[2]
2. Light guide element (1) according to claim 1, characterized in that the acceptance angle (300) of the light-guiding element (1) is between 0 ° and 45 ° with respect to the optical axis (100) of the light-guiding element (1).
[3]
3. light guide element (1) according to claim 1 or 2, characterized in that the inner surface (7) of the light-guiding element (1) is designed substantially as a paraboloid or as a free-form surface.
[4]
4. Light guide element (1) according to one of the preceding claims, characterized in that the outside of the light guide element (1) in the region between the light entry surface (5) and the light exit surface (6) at least partially, but especially completely with an opaque and / or or reflective coating (8) is provided
[5]
5. Light guide element (1) according to one of the preceding claims, characterized in that in the region of the light exit surface (6) at least one receptacle for the luminous element (4) is provided wherein the receptacle in particular as a blind hole (9) or as completely by the light guide ( 1) surrounded cavity (10) is executed. -15- P12418
[6]
6. light guide element (1) according to one of the preceding claims, characterized in that the light exit surface (6) is at least partially covered by an opaque limiting element (15).
[7]
7. light guide element (1) according to any one of the preceding claims, characterized in that between the light entrance surface (5) and the light exit surface (6), preferably in the region of the light exit surface (6), at least one around the Lichtleitele-element (1) extending Reflector element (11) for deflecting the light emitted by the light-emitting element (4) is arranged in a direction away from the light entry surface (5).
[8]
8. A vehicle headlamp (2) with at least one laser light source (3) and at least one, by the laser light source (3) can be irradiated and thus stimulated to emit visible light luminous element (4), characterized in that between the laser light source (3) and the luminous element (4) at least one light-guiding element (1) according to one of claims 1 to 7 is arranged.
[9]
9. Vehicle headlight (2) according to claim 8, characterized in that the laser light source (3) in the main emission direction (200) of the vehicle headlamp (2) seen in front of the luminous element (4) is arranged so that the light of the laser light source (3) opposite Main emission direction (200) of the vehicle headlamp (2) is emitted.
[10]
10. A vehicle headlamp (2) according to claim 8 or 9, characterized in that at least one aperture element (13) is provided, with the tread of the Lichtein (5) of the light guide (1) or from the interior of the light guide (1) in Hauptabstrahlrichtung (200) of the vehicle headlamp (2) reflected light is shielded
[11]
11. A vehicle headlamp (2) according to claim 10, characterized in that the diaphragm element (13) is designed as between the laser light source (3) and the light guide (1) extending connecting piece, which is in particular designed tubular or halbrohrför-mig Vienna, the
[12]
March 12, 2012

类似技术:

---

公开号 | 公开日 | 专利标题

---

EP2802807B1|2017-10-18|Laser vehicle headlight

---

EP2825818B1|2016-05-04|Light guiding element for a laser vehicle headlight

---

EP2745042B1|2016-02-24|Vehicle headlight with laser light source

---

EP2800677B1|2020-07-01|Standard light source laser diode

---

WO2012119976A1|2012-09-13|Motor vehicle headlamp having a multi-function projection module

---

EP2492580B1|2019-01-16|Lighting device for installation in a motor vehicle

---

EP2795183B1|2017-07-12|Optical element for a laser vehicle headlight

---

DE102007040760A1|2009-03-05|Projection module for vehicle headlight, has secondary optical arrangement, which is formed as one-piece or multi-part complex lens and has multiple lens segments

---

AT512569A1|2013-09-15|Lighting device for a motor vehicle

---

DE102010035767A1|2012-02-23|Projection headlamps with deliberately attenuated light intensity gradients at the cut-off line

---

DE102011003814A1|2012-08-09|Light module of a motor vehicle headlight

---

EP2500630B1|2017-02-01|Transparent lens of a motor vehicle lighting device

---

WO2016096602A1|2016-06-23|Lighting device with a luminescent material

---

DE102013110344A1|2015-03-19|Lighting device for vehicles

---

EP3473918B1|2021-12-01|Lighting device for a motor vehicle headlight

---

DE102017117560A1|2019-02-07|Light module and method for operating the light module

---

DE102013202370A1|2014-08-14|Light module i.e. adaptive front lighting system light module, for headlight of motor car, has primary optics unit arranged to generate narrower light distribution focused to center of broader light distribution

---

DE102018124743A1|2020-04-09|Lighting device for a motor vehicle and motor vehicle with such a lighting device

---

AT517733B1|2017-06-15|Laser unit with aperture for reduction of aberrant light and laser module

---

EP3184883B1|2020-07-01|Light module for a lighting device of a motor vehicle

---

DE102018111040A1|2019-11-14|Light module of a motor vehicle lighting device

---

DE102012014734A1|2014-01-30|Vehicle headlight, particularly motor vehicle headlight, has light source arrangement with laser and headlight lens which has body made from transparent material

同族专利:

---

公开号 | 公开日

---

JP2015513383A|2015-05-11|

---

WO2013134805A1|2013-09-19|

---

IN2014MN01893A|2015-07-10|

---

AT512589B1|2014-06-15|

---

CN104160210A|2014-11-19|

---

CN104160210B|2017-05-03|

---

JP6145898B2|2017-06-14|

---

US20150023037A1|2015-01-22|

---

EP2825818A1|2015-01-21|

---

US9958125B2|2018-05-01|

---

MX2014010937A|2014-11-13|

---

EP2825818B1|2016-05-04|

引用文献:

---

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

US20090052189A1|2007-03-19|2009-02-26|Nec Lighting, Ltd.|Led spotlight|

---

WO2009115976A1|2008-03-20|2009-09-24|Koninklijke Philips Electronics N.V.|Illumination system comprising a luminescent element with a heat sink|

---

US20110194302A1|2010-02-10|2011-08-11|Sharp Kabushiki Kaisha|Light emitting device, illuminating device, and vehicle headlight|

---

JP2527274B2|1990-11-19|1996-08-21|株式会社小糸製作所|Automotive headlamp|

---

JP2002296169A|2001-03-30|2002-10-09|Canon Inc|Proximity field light probe, proximity field light optical microscope having proximity field light probe, proximity field light lithography device and proximity field light storage device|

---

JP4068387B2|2002-04-23|2008-03-26|株式会社小糸製作所|Light source unit|

---

JP4124445B2|2003-02-03|2008-07-23|株式会社小糸製作所|Light source and vehicle headlamp|

---

JP4047186B2|2003-02-10|2008-02-13|株式会社小糸製作所|Vehicle headlamp and optical unit|

---

JP4138586B2|2003-06-13|2008-08-27|スタンレー電気株式会社|LED lamp for light source and vehicle headlamp using the same|

---

JP4140042B2|2003-09-17|2008-08-27|スタンレー電気株式会社|LED light source device using phosphor and vehicle headlamp using LED light source device|

---

JP4339153B2|2004-03-11|2009-10-07|株式会社小糸製作所|Vehicle lamp unit|

---

WO2007069123A2|2005-12-12|2007-06-21|Philips Intellectual Property & Standards Gmbh|Led collimator element for a vehicle headlight with a low-beam function|

---

US7477828B2|2006-01-06|2009-01-13|Lockheed Martin Corporation|Optical waveguide|

---

DE102006029203A1|2006-06-26|2007-12-27|Osram Opto Semiconductors Gmbh|Light-emitting device|

---

JP2008165995A|2006-12-27|2008-07-17|Seiko Epson Corp|Light source device, image display device, monitor device, and lighting device|

---

JP4766698B2|2007-03-29|2011-09-07|株式会社小糸製作所|Vehicle headlamp unit|

---

JP5271590B2|2008-04-22|2013-08-21|株式会社小糸製作所|Vehicle lighting|

---

JP5406566B2|2009-03-11|2014-02-05|スタンレー電気株式会社|Vehicle headlamp|

---

CN102482576B|2009-04-09|2016-03-09|皇家飞利浦电子股份有限公司|For the lamp of laser application|

---

JP2011065979A|2009-08-18|2011-03-31|Sharp Corp|Light source device|

---

JP5280502B2|2009-08-18|2013-09-04|シャープ株式会社|Light source device|

---

JP4991834B2|2009-12-17|2012-08-01|シャープ株式会社|Vehicle headlamp|

---

JP4991001B2|2009-12-28|2012-08-01|シャープ株式会社|Lighting device|

---

GB2477569A|2010-02-09|2011-08-10|Sharp Kk|Lamp having a phosphor.|

---

US8733996B2|2010-05-17|2014-05-27|Sharp Kabushiki Kaisha|Light emitting device, illuminating device, and vehicle headlamp|

---

JP2011243369A|2010-05-17|2011-12-01|Sharp Corp|Light-emitting device, illumination device, and vehicle headlight|

---

JP2011249538A|2010-05-26|2011-12-08|Sharp Corp|Light emitting device and lighting system|

---

JP5781838B2|2010-08-25|2015-09-24|スタンレー電気株式会社|Light source device and lamp for vehicle|

---

JP5369201B2|2011-04-28|2013-12-18|シャープ株式会社|Floodlight unit and floodlight device|

---

JP2013026162A|2011-07-25|2013-02-04|Sharp Corp|Lighting system and headlight for vehicle|

---

GB2497949A|2011-12-22|2013-07-03|Sharp Kk|Headlight system with adaptive beam function|

---

US9592297B2|2012-08-31|2017-03-14|Bayer Healthcare Llc|Antibody and protein formulations|AT513816B1|2012-12-20|2015-11-15|Zizala Lichtsysteme Gmbh|Light guide unit for a lighting unit of a headlamp and lighting unit and headlamp|

---

JP6246577B2|2013-12-05|2017-12-13|スタンレー電気株式会社|Vehicle lighting|

---

DE102014016835A1|2014-11-13|2016-05-19|Audi Ag|Headlight for a motor vehicle|

---

AT517409B1|2015-06-30|2017-06-15|Zkw Group Gmbh|Lighting module for a vehicle headlight and vehicle headlights|

---

EP3473918B1|2017-10-19|2021-12-01|ZKW Group GmbH|Lighting device for a motor vehicle headlight|

---

CN111578227A|2020-05-15|2020-08-25|王丹|Optical unit of automobile rearview mirror lane changing auxiliary system|

---

US11255508B2|2020-06-15|2022-02-22|Grote Industries, Inc.|Deicing system for an automotive lamp|

法律状态:
2016-11-15| HC| Change of the firm name or firm address|Owner name: ZKW GROUP GMBH, AT Effective date: 20161014 |

---

2018-11-15| MM01| Lapse because of not paying annual fees|Effective date: 20180312 |

优先权:

---

申请号 | 申请日 | 专利标题

---

ATA50074/2012A|AT512589B1|2012-03-12|2012-03-12|Light guide element for a laser vehicle headlight and vehicle headlights|ATA50074/2012A| AT512589B1|2012-03-12|2012-03-12|Light guide element for a laser vehicle headlight and vehicle headlights|

---

IN1893MUN2014| IN2014MN01893A|2012-03-12|2013-03-04|

---

US14/384,722| US9958125B2|2012-03-12|2013-03-04|Light guiding element for a laser vehicle headlight|

---

JP2014561227A| JP6145898B2|2012-03-12|2013-03-04|Light guiding element for laser vehicle headlamps|

---

CN201380013886.7A| CN104160210B|2012-03-12|2013-03-04|Light guiding element for a laser vehicle headlight|

---

PCT/AT2013/050054| WO2013134805A1|2012-03-12|2013-03-04|Light guiding element for a laser vehicle headlight|

---

EP13714182.6A| EP2825818B1|2012-03-12|2013-03-04|Light guiding element for a laser vehicle headlight|

---

MX2014010937A| MX2014010937A|2012-03-12|2013-03-04|Light guiding element for a laser vehicle headlight.|