奥地利专利AT518083A4 Headlamp for vehicles with at least one laser light module

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专利摘要:
A headlamp (1) for vehicles with at least one laser light module (3l, 3m, 3r), which has a laser light source (11) and one of these in the beam path downstream phosphor element (13) and an attachment optics (16), wherein the at least one Laser light module (3l, 3m, 3r) in a housing (2) of the headlamp (1) is arranged, which has a projection optics (4) for projecting in the focal plane of the projection optics (4) of the at least one laser light module (3l, 3 m, 3 r) has light distribution generated in the roadway space and in which at least one attachment optics (16) at least one deflecting prism (20; 22, 23) is integrated, which extends in the region of the laser radiation (15; 15) extending in the region of the defective or missing phosphor element (13) -1, 15-2), and which deflects this laser radiation (15, 15-1, 15-2) occurring in the event of a fault and keeps it away from the projection optics (4) and thus from the roadway space.
公开号:AT518083A4
申请号:T51094/2015
申请日:2015-12-22
公开日:2017-07-15
发明作者:Danner Markus；Riesenhuber Michael；Reisinger Bettina；Mayer Peter
申请人:Zkw Group Gmbh；
IPC主号:

专利说明:

Headlamp for vehicles with at least one laser light module
The invention relates to a headlight for vehicles with at least one laser light module, which has a laser light source and one of these in the beam path downstream phosphorus element and an attachment optics.
In such headlamps, e.g. blue light of a laser beam on a light conversion medium, here called "phosphor element", converted by fluorescence into essentially "white" light. The light conversion agent usually has the form of a platelet, it being possible to work according to the reflected light or the transmitted light principle. In the first case (incident light), the converted light is radiated on the same side as the laser beam is incident, in the second case of more interest here (transmitted light), the converted light is radiated on the side opposite to the side irradiated by the laser. In both cases, the light used can also be made from a mixture of e.g. blue laser light with the converted light to obtain as "white" as possible light.
Document DE 20 2015 001682 U1 discloses a lighting device for motor vehicles of this kind, in which on different sides of a light conversion element, i. a phosphor element, not shown, infrared signal transmitter or signal receiver are provided, wherein the corresponding measuring radiation detected in case of damage of the phosphor element and the laser diode can be switched off.
It is an object of the invention to provide a headlight in which measures are taken in a malfunction in the sense of a partial or complete damage of the phosphor element with little effort to prevent or minimize the danger emanating from the laser radiation endangerment.
This object is achieved with a headlamp of the type mentioned, in which, according to the invention, the at least one laser light module is arranged in a housing of the headlamp, which has projection optics for projecting the light distribution generated in the focal plane of the projection optics of the at least one laser light module Has roadway space and in the at least one intent optics at least one Umlenkprisma is integrated, which lies in the range of defective or missing phosphor element laser radiation, and which deflects these laser radiation occurs in case of failure and keeps away from the projection optics and thus from the roadway space.
In this way, the safety of the headlamp can be effectively ensured in the event of damage to the phosphor element with modest effort.
In an advantageous embodiment of the invention, it is provided that the optical axis of the optical attachment deviates from the direction of the laser beam generated, and in the case of defective or missing phosphor element, the laser radiation is split into two sub-beams, each sub-beam is associated with a deflection prism. As a result, the desired safety is ensured even when consciously accepted occurrence of two interfering laser beams.
If the light entry surface of the deflection prism is adapted to the cross section of the laser beam occurring in the event of a fault, the fact is taken into account that the laser beam generally has not circular cross section.
In order to avoid an unnecessarily large formation of a deflection prism, it is advantageous if the at least one deflection prism is aligned with respect to a laser beam occurring in the event of a fault so that its deflection is parallel to the shorter axis of the beam cross section.
It is further recommended if a photodetector is arranged in the housing of the headlight in the impact area of the at least one laser beam deflected in the event of a fault, which is connected to a detection device which is set up to emit a warning signal in the event of a fault and / or to switch off the at least one laser light source ,
On the other hand, it may expediently be provided that a radiation-absorbing means is provided in the housing of the headlight in the area of impact of the at least one laser beam deflected in the event of a fault.
In an embodiment which is expedient with regard to the light output and light distribution, at least two laser light modules are provided, wherein the position of the optical axis of the optical attachment is different with respect to the direction of the laser beam generated in the light modules.
Likewise, in the sense of optimal light distribution can be advantageously provided that at least two laser light modules are provided, the laser light source generate a laser beam with elliptical beam cross-section, the axial position of the elliptical
Beam cross section is different with respect to the main optical axis of the headlamp in the light modules.
Advantageously, it is also provided that the attachment optics of the at least one laser light module is designed as a TIR optic.
Here, a simple and expedient embodiment is characterized in that the at least one deflection prism is formed by a recess on the front of the TIR optics.
It may be advantageous if the TIR optics is formed as a collimating laser radiation occurring in the event of a malfunction and a collimated interference beam is deflected away from the projection optics.
The invention is illustrated below with reference to exemplary embodiments with reference to the drawing, in which show
Fig.l diagrammatic, partially sectioned schematic representation of a headlamp omitting parts not essential to the invention with three laser light modules,
2 is a highly schematic representation of a laser light source used in a laser light module together with a phosphorus element,
3 shows the middle laser light module of Fig. 1 in perspective view,
4 is a section along the plane IV-IV of Fig. 3,
5 is a section along the line V-V of Fig. 3,
6 shows the right-hand laser light module of FIG. 1 in a perspective view,
7 shows a section along the plane VII-VII of FIG. 6 and FIG. 8 shows a section along the line VIII-VIII of FIG. 6.
With reference to Fig. 1, an embodiment of the invention will now be explained in more detail. In particular, the important parts for a headlight according to the invention are shown, it being understood that a motor vehicle headlamp contains many other parts that allow its meaningful use in a motor vehicle, in particular a car or motorcycle.
The illustrated headlight 1 according to the invention can serve in the exemplary embodiment for generating a high beam distribution. The headlight 1 has a headlight housing 2, in the rear region of which three laser light modules 31.3m, 3r described in more detail below are arranged. At its front side, the housing 2 is closed by a projection lens 4. Between the light modules 31, 3m, 3r and the projection optics 4 is in the present embodiment, a diaphragm 5, which generates a bright / dark boundary in operation. In addition, in the rear region of the housing 2, a radiation-absorbing means 6 shaped as a flat sheet metal is arranged. In the drawing, flanges 7 are shown with holes 8, which serve to fasten the headlight 1 to body parts of a vehicle. It should be noted at this point that the "headlight" shown and described here can also serve as a headlight module or as a lighting unit that is seated in a headlight that has a plurality of modules.
Before discussing further features of the headlamp 1 which are significant for the invention, the basic construction of a laser light source with a phosphor element and the problems associated therewith will first be explained with reference to FIG.
In a housing 9, are led out of the electrical connections 10, a laser light source 11 is arranged, which is preferably designed as a laser diode. However, this is not to exclude other types, such as solid-state lasers. The laser light source 11 is followed by an inner focusing optics 12 which focuses the laser beam onto a phosphor element 13 arranged at the front end of the housing. This phosphor element 13 may be formed as a platelet or pill-shaped and serves to convert at least a portion of the laser radiation in light of different wavelength, for example, blue or ultraviolet laser light to convert, for example, white-yellow visible light.
For example, when using "blue" lasers, InGaN-based semiconductor lasers may be used at wavelengths of 405 and 450 nm, in the UV range e.g. 365 to 375 nm. The laser beam strikes the phosphor element 13 and passes through the light conversion material contained in or on it, which is called "phosphor" for short. For example, the phosphor converts blue or UV light into "white" light. In the context of the present invention, it is generally understood to mean a substance or mixture of substances which converts light of one wavelength into light of another wavelength or of a wavelength mixture, in particular "white" light, which is subsumed under the term "wavelength conversion" Luminescence dyes, wherein the output wavelength is generally shorter and thus more energy-rich than the emitted wavelength mixture.The desired white light impression is formed by additive color mixing, where "white light" light of such a spectral composition is understood, which causes the color impression "white" in humans The Beg Of course, the term "light" is not limited to radiation visible to the human eye. Opto-ceramics, for example, are suitable for the light conversion agent, these are transparent ceramics, such as, for example, YAG: Ce (an yttrium-aluminum garnet doped with cerium). Alternatively, semiconductor materials with embedded quantum dots can be used.
After the phosphor element 13, there is generally a mixed light 14 emitted over a large solid angle consisting of converted light and scattered laser radiation. Significant is the fact that in the absence or defective phosphor element 13, a laser beam 15 occurs, which is bundled accordingly strong.
Referring now to FIGS. 3, 4 and 5, the middle laser light module 3m, which contains the above-described laser light source 11 with the phosphor element 13 as well as a front attachment optics 16, which is connected to the housing 9 of FIG Laser light source 11 is firmly connected. In the present embodiment, this attachment optics is a TIR optics, thus an optic with total reflection, consisting for example of a crystal-clear plastic, glass or silicone. Such TIR (Total Internal Reflection) optics are well known and are mostly used to focus the light of high power LEDs. The attachment optics 16 collects the mixed light 14 emanating from the phosphor element (FIG. 2) and radiates it forward in substantially parallel light radiation 17. In Fig. 1 and 3 can be seen on a circumferential flange 18 formed holes 19, which serve for fixing the laser light module 3m in the headlight 1 by bolts or screws, not shown.
The projection optics 4 now serve to project the light distribution generated in the focal plane of the projection optics by the laser light modules 31, 3m, 3r into the carriageway space.
Returning to the laser beam 15 shown in Fig. 2, occurring in the absence or defective phosphor element 13, it is clear that such a relatively high-energy laser beam can pose a potential danger to living beings, especially for the eyesight of humans, since such a laser beam through the Projection optics 4 leave the headlight 1 and cause damage. To avoid this, it is envisaged that in the
Front optics 16 in the present case, a deflecting prism 20 is integrated, which lies in the range of defective or missing phosphor element 13 extending laser beam 15, and which deflects these laser radiation occurring in case of failure and keeps away from the projection optics 4 and thus from the preceding roadway space. It is also possible to form collimating the TIR optics 16 as laser radiation occurring in the event of an incident, so that a collimated interference beam is deflected away from the projection optics 4 and less or hardly uncontrollable diffuse laser radiation occurs.
In the example shown, the deflection prism 20 is formed by a recess on the front side of the TIR projection optics. Likewise, the deflection prism could also be formed on the attachment optics. It is only essential that a transition - here at about 45 ° - is created by the material of the TIR attachment optics 16 to the air, so as to achieve a total reflection. In this case, the light entry surface of the deflecting prism 20 is adapted to the cross section of the laser beam 15 and the deflecting prism 20 is aligned with respect to the incident laser beam 15 in such a case that its deflection is parallel to the shorter axis of the beam cross section. This leads to smaller dimensions of the deflecting prism, which is also clearly evident from FIGS. 4 and 5. In fact, FIG. 4 clearly shows the elliptical cross section of the laser beam 15 which occurs in the event of a fault, for which it should be noted that an elliptical beam cross section is the rule for laser diodes. In the figures, the deflected by deflecting prism laser beam is designated by the reference numeral 21. This laser beam 21 may conveniently be directed to a radiation absorbing means which absorbs and destroys the hazardous laser radiation. Such a radiation-absorbing means 6 is shown in Fig. 1, which will be discussed in more detail below. As an alternative or in addition to the radiation-absorbing means, one or more photosensors, not shown in the drawing, can be provided, which detect at least part of the laser radiation passing in an incident and are connected to a detection device which is set up to emit a warning signal in the event of a malfunction and / or turn off the one laser light source.
Returning to Fig. 1 and with further reference to Figs. 6, 7 and 8 it can be seen that in both the right laser light module 3r and the left laser light module 31, the optical axis of the optical attachment 16 against the optical axis of Laser light source 11 and with respect to the direction of the laser beam generated at an angle of approximately 30 ° is offset. In view of the required attachment, the flange portions with the holes 19 at the two outer, i. left and right laser light modules 31 and 3r formed differently than in the central laser light module 3m, but the front optics 16 of the laser light modules 31, 3r as well as their laser light sources 11 can be formed the same left and right, whereby tooling costs are saved.
Further, comparing FIGS. 4 and 5 with FIGS. 7 and 8, it can be seen that the optical axes of the laser light sources of the central laser light module 3m are rotated by 90 ° with respect to the right laser light module 3r and the left laser light module 31, respectively , In the present case, the central laser light module 3m has a "standing" (elliptical) beam cross section, whereas the two outer laser light modules 31 and 3m provide a "horizontal" (elliptical) beam cross section.
Thanks to the use of three laser light modules, it is understandable to obtain three times the light output - compared to just a single laser light module - and the displacement of the axes described above by one angle - in this case 30 ° - and the rotation of the beam cross sections - here by 90 °. gives a practice adapted high beam distribution. Of course you can on the one hand equip the headlamp according to the invention with one or two or more than three laser light modules or choose different displacement angle and axis rotations.
In Fig. 1 and in Figs. 6 to 8 it can be seen that the attachment optics of the outer laser light modules 31,3r have two deflection prisms 22 and 23, which are also designed differently. This is due to the fact that in this case the optical axes of the laser light sources are offset from the optical axes of the auxiliary optics and, in the event of an error, splitting up of the interfering laser beam into two partial beams 15-1 and 15-2, both of which are rendered harmless . must be detected.
List of Reference Numbers 1 Headlamp 2 Headlamp Housing 31 Laser Light Module, Left 3m Laser Light Module, 3r Middle Laser Light Module, Right 4 Projection Optics 5 Bezel 6 Center, Radiation Absorbent 7 Flanges 8 Holes 9 Housing 10 Terminals 11 Laser Leash 12 Focusing Optics 13 Phosphorus Element 14 Mixed light 15 Laser beam 15-1 Laser beam 15-2 Laser beam 16 Attachment optics 17 Light radiation 18 Flange 19 Bores 20 Deflection prism 21 Laser beam 22 Deflection prism 23 Deflection prism

权利要求:
Claims (11)
[1]
claims
1. Headlight (1) for vehicles with at least one laser light module (31.3m, 3r), which has a laser light source (11) and one of these in the beam path downstream phosphor element (13) and a front optics (16), characterized in that the at least one laser light module (31, 3m, 3r) is arranged in a housing (2) of the headlamp (1), which has projection optics (4) for projecting the light distribution generated in the focal plane of the projection optics of the at least one laser light module has at least one front optics (16) at least one Umlenkprisma (20; 22, 23) is integrated, which in the region of defective or missing phosphor element (13) extending laser radiation (15; 15-1,15-2) is located, and which deflects these laser radiation occurring in the event of a fault and keeps away from the projection optics (4) and thus from the roadway space.
[2]
2. Headlight (1) according to claim 1, characterized in that the optical axis of the attachment optics (16) deviates from the direction of the laser beam generated, and in the case of defective or missing phosphor element (13), the laser radiation in two partial beams (15-1, 15 -2) is split, each sub-beam a deflecting prism (22, 23) is associated.
[3]
3. Headlight (1) according to claim 1 or 2, characterized in that the light entry surface of the deflection prism (20; 22, 23) is adapted to the cross section of the laser beam occurring in the event of a fault (15; 15-1, 15-2).
[4]
4. headlight (1) according to claim 3, characterized in that the at least one deflecting prism (20; 22, 23) with respect to a laser beam occurring in case of failure (15; 15-1,15-2) is aligned so that its deflection parallel takes place to the shorter axis of the beam cross section.
[5]
5. Headlight (1) according to one of claims 1 to 4, characterized in that in the housing (2) of the headlamp (1) in the impact area of the deflected in case of failure at least one laser beam (15; 15-1, 15-2) a Photosensor is arranged, which is connected to a detection device which is adapted to emit a warning signal in case of failure and / or turn off the at least one laser light source (11).
[6]
6. Headlight (1) according to one of claims 1 to 5, characterized in that in the housing (2) of the headlight (1) in the impact area of the deflected in case of failure at least one laser beam (15; 15-1,15-2) a Radiation absorbing means (6) is provided.
[7]
7. Headlight (1) according to one of claims 1 to 6, characterized in that at least two laser light modules (31.3m, 3r) are provided, wherein the position of the optical axis of the attachment optics (16) with respect to the direction of the laser beam generated is different for the light modules.
[8]
8. Headlight (1) according to one of claims 1 to 7, characterized in that at least two laser light modules (31, 3m, 3r) are provided, the laser light sources (11) generate a laser beam with elliptical beam cross-section, wherein the axial position of the elliptical Beam cross section is different with respect to the main optical axis of the headlamp in the laser light modules.
[9]
9. headlight (1) according to one of claims 1 to 8, characterized in that the attachment optics (16) of the at least one laser light module (31, 3m, 3r) is designed as TIR optics.
[10]
10. Headlight (1) according to claim 9, characterized in that the at least one deflecting prism (20; 22, 23) is formed by a recess on the front side of the TIR optics (16).
[11]
11. Headlight (1) according to claim 9 or 10, characterized in that the TIR optics (16) is designed to collimate as occurring in case of failure laser radiation and a collimated beam from the projection optics (4) is deflected away.

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引用文献:

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DE102012211613A1|2012-07-04|2014-01-09|Automotive Lighting Reutlingen Gmbh|light module|

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法律状态:

优先权:

申请号 | 申请日 | 专利标题

ATA51094/2015A|AT518083B1|2015-12-22|2015-12-22|Headlamp for vehicles with at least one laser light module|ATA51094/2015A| AT518083B1|2015-12-22|2015-12-22|Headlamp for vehicles with at least one laser light module|

JP2018533153A| JP6689984B2|2015-12-22|2016-12-16|Floodlight for a vehicle with at least one laser light module|

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EP16820155.6A| EP3394503A1|2015-12-22|2016-12-16|Headlamp for vehicles having at least one laser light module|

US15/780,475| US10480739B2|2015-12-22|2016-12-16|Headlamp for vehicles having at least one laser light module|

CN201680075380.2A| CN108368984B|2015-12-22|2016-12-16|Headlight for a vehicle with at least one laser module|

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