Lighting unit for a headlight

专利摘要:
The invention relates to a lighting unit (1) for a headlight, in particular a motor vehicle headlight, comprising a plurality of light sources (2), a Lichtfüh tion unit (3) having a plurality of light guides (30) and a downstream projection lens (4), each light guide (30) each have a light outcoupling surface (30 a) has, and wherein each light source (2) coupling light exactly in an associated light guide (30), and wherein adjacent light guides (30) by partition walls (31, 32) vonein other are separated. According to the invention it is provided that between the Lichtführungsein unit (3) and the projection lens (4) at least one aperture element (5) is arranged, wel ches aperture element (5) from each other by aperture opening partitions (51, 52) separate aperture openings (50), wherein the diaphragm element (5) is arranged such that in each case an aperture (50) of a light outcoupling surface (30a) is connected upstream, and wherein the apertures (50) in shape and size substantially corresponding to their respective associated Lichtauskoppelflächen (30a), and wherein at the at least one part of the diaphragm opening partition walls (51, 52) facing away from the Lichtfüh tion unit (3) surfaces (5a) of the at least one diaphragm element (5) has a smaller wall thickness (b) than the respective diaphragm opening partitions (51, 52 ) associated partition walls (31, 32) of the light guide unit (3).
公开号:AT513738A1
申请号:T50608/2012
申请日:2012-12-20
公开日:2014-07-15
发明作者:Josef Ing Gürtl；Josef Plank
申请人:Zizala Lichtsysteme Gmbh；
IPC主号:

专利说明:

P12885
LIGHT UNIT FOR A HEADLIGHT
The invention relates to a lighting unit for a headlight, in particular a motor vehicle headlight, comprising a plurality of light sources, a light guide unit with a plurality of light guides and a downstream projection lens, each light guide each having a light output surface, and wherein each light source exactly into a light guide associated therewith coupled, and wherein adjacent light guides are separated by partitions.
Furthermore, the invention relates to a vehicle headlight for a motor vehicle with at least one such lighting unit.
With such a lighting unit, it is possible to have a lighting function, such as a light source. to build a low beam distribution or a high beam distribution of a plurality of partial light distributions. These partial light distributions can be individually controlled by individual control of the light sources, so that, for example, parts of the light distribution can be selectively hidden or dimmed or only certain parts of the light distribution can be operated or dimmed. This makes it possible to control the light distribution as a function of the driving situation almost arbitrarily.
Functions which can be realized with this technique are e.g. Partial distance light, in which the glare reduction of the oncoming traffic segments in the light image of the high beam distribution are switched, shifting the light center in the low beam (see cornering light), reduction of the apron light distribution for the purpose of glare-free oncoming traffic on wet roads (bad weather light), etc.
The individual light segments in the light distribution are generated by means of light guides, which are joined together to form a light guide unit, and through which light guides emitted by the artificial light sources are focused in the emission direction. The light guides have a relatively small cross-section and therefore emit the light of the individual light sources each associated with very concentrated in the emission direction. In the AT 510 437 A4 a light module 2/21 -2- PI2885 is disclosed in this context, which has a light guide in the form of a light guide, there referred to as a light tunnel, and a plurality of light sources.
The concentrated radiation of the light guides is desirable to meet, for example, legal requirements regarding the light-dark line of the dipped beam of a motor vehicle headlight. In addition, sharply delimited light segments generated by the light guides have the advantage that exactly limited areas can be hidden in a light image.
Inevitably, to be able to generate separate light segments, the light guides are separated from each other. Usually, a light guide unit, which has a number of light guides, in one piece (or in two parts, one in the light exit direction front and one rear part - this is for the present invention, however, incidentally), and the individual light guides are from each other separated, specifically by walls or dividers, which extend in the light exit direction into the region of the light outcoupling surfaces of the individual light guides. Typically, the light guide units are made of metal or plastic, in a two-part construction as briefly mentioned above, the two parts can also be made of different materials.
At the "one-piece " Producing the light guide unit with the light guides formed in it, however, has the disadvantage that the wall thickness of the (separation) walls or (separating) webs between adjacent light guides in the light output areas of the light guides has a certain value, the production technology not or only can be undershot with great manufacturing effort. However, an excessive wall thickness of the partitions between the light guides leads to the formation of stripes, in particular vertical and / or horizontal stripes, in the photograph.
It is an object of the invention to provide a lighting unit for headlights, in which in a simple and cost-effective manner, the adverse effects described above can be prevented or greatly reduced.
The object is achieved with a lighting unit mentioned above in that according to the invention between the light guide unit and the projection lens at least one 3/21 -3- PI2885
Aperture element is arranged, which aperture element from each other by aperture opening partitions has separate apertures, wherein the aperture element is arranged such that in each case an aperture of a Lichtauskoppelfläche is connected upstream, and wherein the apertures correspond in shape and size substantially to their respective associated Lichtauskoppelflächen, and wherein on the surfaces of the at least one diaphragm element facing away from the light guide unit, at least part of the diaphragm opening partition walls has a smaller wall thickness than the partition wall of the at least one light guide unit assigned to the respective diaphragm opening partition wall.
In terms of manufacturing technology, an aperture element with aperture openings which correspond to the light outcoupling surfaces of the light guides in the light guide unit can be made much simpler with a wall thickness of the aperture partitions that is (significantly) less than the thickness of the partitions of the light guides in the area of their light outcoupling surfaces, so that by interposing such a diaphragm element between light guide unit and projection lens in a simple manner, the distance between the individual light segments generated by the individual light guides in the light image can be significantly reduced or completely eliminated. In this way, stripes in the photograph can be reduced or completely eliminated.
In certain circumstances, it may be advantageous to provide multiple aperture elements. As a rule, however, it is advantageous for production, assembly and storage reasons if exactly one diaphragm element is provided which has a number of diaphragm openings corresponding to the number of light output surfaces.
In a specific embodiment, it is provided that the light guides are arranged in at least two rows arranged one above the other, wherein preferably the light guides are arranged in exactly three rows arranged one above the other.
With such a light guide unit, light segments can also be hidden in the vertical direction (vertically with respect to a measuring wall arranged at a certain distance, for example of 10 or 25 meters). 4/21 -4- PI2885
In a variant of the invention, it is provided that at least one separate diaphragm element is provided for each row of light guides or at least for one of the rows.
Typically, all the light outcoupling surfaces lie in a common, possibly curved plane. In this case, it is advantageous if only exactly one diaphragm element is provided which corresponds to the "light exit surface". the light guide unit is formed. This panel element then extends over all rows, for example over all three rows of light guides.
However, it can also be provided that e.g. one of the rows or a plurality of rows are offset from each other in the light exit direction. Using such a light guide unit, a " level " Aperture element abut only on the front row of light guides, while the other rows a distance caused by the repositioning of these rows. If a distance produces photometrically negative effects on the light image, in order to minimize or completely eliminate the distance diaphragm element light guides, it may be provided that the diaphragm element is correspondingly shaped at suitable locations, e.g. is bent over, and thus follows the shape of the light exit surface of the light guide unit.
Under certain circumstances, however, it can be simple in terms of production technology, in each case for those rows which are at the same "height". be provided to provide a separate panel element, so that although several items are necessary, but a reshaping of an aperture element is not necessary.
In order to obtain an optimal, in particular sharp, imaging of the light segments with the individual light guides, it is provided that the at least one diaphragm element lies substantially in a focal plane of the projection lens.
Typically, the surface of the light guide unit formed by the light outcoupling surfaces of the light guides is not flat but according to the profile of the focal plane of the projection lens, i. is formed horizontally and preferably also curved in the direction of the lens towards curved. 5/21 -5- PI2885
Corresponding cci, i. Following the shape of this surface of the light guide unit, the diaphragm element is correspondingly curved and formed congruent to this surface. Usually, the light outcoupling surfaces lie in the focal plane of the projection lens. In this case, it is important to ensure that the diaphragm element is formed as thin as possible in the light exit direction, so that the lens facing surface of the diaphragm element, which now yes defines the actual light output surface, as close to the focal plane of the projection lens.
However, it can also be provided that the light outcoupling surfaces are offset at least by the thickness of the diaphragm element in the light exit direction to the rear, so that the lens-side surface of the diaphragm element can then be arranged exactly in the focal plane of the projection lens.
In particular, it is advantageous from the optical point of view if the at least one diaphragm element is arranged to contact the light guide unit directly, preferably the light guide unit in the area of its surface formed by the light output surfaces.
Concretely, this means that the diaphragm-opening partitions contact the partitions between the light guides; In this way, the passage of light from a light guide is reliably prevented in an unassigned or an adjacent light guide associated aperture.
In addition, in this way the lens-side surface of the diaphragm element can be arranged as exactly as possible in the focal plane of the projection lens.
In a first embodiment of the invention, it is provided that the wall thickness of the diaphragm opening partitions is constant over the entire thickness of the at least one diaphragm element. In this case, it must be strived to manufacture the aperture opening partitions in their respective entirety with the smallest possible wall thickness.
In another embodiment of the invention, it is provided that the wall thickness of the diaphragm-opening partitions over the thickness of the at least one diaphragm element in 6/21 PI2885
Reduced light exit direction, wherein preferably the width of the diaphragm opening partitions on the surface facing the light guide unit in each case corresponds to the wall thickness of the associated partitions between the light guides, in particular in the region of the light outcoupling surfaces of the light guides.
In this variant, close the diaphragm opening partitions immediately and without step to the partitions between the light guides and taper to Lichtauskop- pelfläche the apertures towards the necessary degree.
Typically, the light guides are each bounded by two substantially vertical walls and two substantially horizontal walls, and preferably the light output surfaces of the light guides defined by the walls form a rectangle or a square. Usually rectangular or optionally rectangular light segments are desired in the light image, depending on the vertical position of these light segments in the vertical direction may have different heights, while in the horizontal direction usually all the light segments are the same width.
A light guide is therefore usually limited in each case by four walls, with adjacent light guides or superimposed light guides, the common walls are referred to as partitions or represent such. Those walls, which are located as partitions between superposed light guides, usually run horizontally (terms such as horizontal and vertical always refer to the light unit in installation position), while the upper and lower walls of the top / bottom row of light guides opposite Directed light emission direction can also be formed slightly curved downwards / upwards, which is why the term "essentially". has been used.
It can be provided according to the invention that at least the vertical and / or horizontal partitions between the light guides associated aperture opening partitions on the surface remote from the light guide unit have a smaller wall thickness than the associated partitions of the light guide unit, preferably all the partitions between the Light guides assigned to the diaphragm opening walls on the surfaces facing away from the light guide unit have a smaller wall thickness than the associated partitions of the light guide unit 7/21 -7- PI2885.
Depending on which stripes in the photograph are perceived as being pleasing or are not permitted by law, it may be provided that only the vertical or only the horizontal stripes in the photograph are reduced or eliminated in their appearance. Usually, however, it is provided that all stripes, that is to say in particular all vertical and horizontal stripes in the photograph, are reduced in their manifestation or completely eliminated.
It is preferably provided that the at least one diaphragm element is made of a metal, e.g. a sheet or a metal foil or a plastic, preferably a temperature-resistant plastic is formed.
The use of metal, in particular the use of a metal foil has the advantage that it is thin, heat-resistant and resistant.
The use of plastic has the advantage that it can be shaped more easily than metal. However, plastic still has to be coated with a reflective or (highly) lustrous layer, for example, with aluminum.
The panel element is typically attached directly to the light guide unit, such as riveted, welded, glued, screwed or clamped.
Furthermore, it is advantageous if the aperture opening partitions are reflective, in particular highly reflective, of light.
With this embodiment, it is to be avoided that light losses occur as a result of light absorption at the diaphragm-opening partitions.
Metal, e.g. a metal foil or a sheet metal element is usually matt on one side and glossy on the other. If you use shiny metal on both sides, formed in a stamping process, with which the apertures are punched into the metal, continuously with reflective partitions limited apertures. 8/21 -8- PI2885
In particular, it is advantageous if the metal is highly reflective, that is, has a reflectance greater than or equal to 95%.
In the case of an aperture element made of plastic, on the other hand, it is obvious that the aperture openings are coated, for example coated, on their inner surfaces, for example with a reflective layer.
Furthermore, it can be provided that the apertures are made in the aperture element material by means of punching, in particular by means of fine blanking or by means of laser cutting.
Laser cut is particularly suitable to produce aperture opening partitions with a constant wall thickness, while in a stamping process, the partitions can be generated with a tapered as described above the thickness of the diaphragm element wall thickness of the diaphragm opening partitions.
It is preferably provided that the light sources are LED light sources, wherein each LED light source comprises at least one light emitting diode.
Furthermore, it is still advantageous if each LED light source separately controllable and on or. can be switched off and / or dimmable, wherein preferably each LED of an LED light source can be controlled separately and switched on or off and / or dimmable.
Typically, it is also provided that the at least one diaphragm element is designed as a flat component, that is to say has a significantly smaller thickness than width and height. Typical values for the width of a panel are about 70mm, the height of the panel is about 20mm and the thickness is on the order of 2mm. These values are purely exemplary and are merely illustrative of the dimensions.
In the following the invention with reference to the drawing of an exemplary embodiment of the invention is discussed in more detail. In this shows
Fig. 1 is an exploded perspective view of a lighting unit according to the invention, Fig. 2 is a view of the front of the light guide unit shown in Figure 1, 9/21 -9- PI2885
3 shows a section through the light guide unit and the associated diaphragm element along the plane A-A of Figure 1 and Figure 2,
FIG. 4 shows the situation from FIG. 3 with the panel element in the state fastened to the light guide unit, FIG.
5 is a detail view of the light guide unit in the region of the light output surfaces, in a partially sectioned illustration,
Fig. 6 shows the light image of a lighting unit as shown in Figure 1, but without intermediate diaphragm element, and
Fig. 7 shows the light image of a lighting unit as shown in Figure 1, with interposed aperture element.
1 shows a lighting unit 1 according to the invention for a motor vehicle headlight, comprising a plurality of light sources 2, a light guide unit 3 with a plurality of light guides 30 and a downstream projection lens 4. Each light guide 30 has a light outcoupling surface 30a, and one - in the figures unrecognizable light input surface - couples each light source 2 light exactly in its associated light guide 30 a.
The light sources 2 are LED light sources, each LED light source 2 comprising at least one or exactly one light-emitting diode. Preferably, each LED light source 2 is separately controlled and switched on and off and / or dimmable, preferably with two or more light emitting diodes per LED light source each LED of a LED light source separately controlled and on or off and / or dimmable is.
In the illustration shown, the light guide unit 3 has a two-part construction of two components 3a, 3b, which in the assembled state of the lighting unit 1 directly abut each other and are connected to each other. But the light guide unit 3 can just as well be formed from only one component, this is for the invention 10/21 -10- PI2885 of minor importance, which is why not further discussed here on this issue.
The light guides 30 are arranged in the light guide unit 3 next to one another and in the example shown in three superimposed rows. The light guides 30 are aligned substantially in the direction of an optical axis x associated with the projection lens.
In the embodiment shown, the light guides 30 are designed as reflectors, thus forming a quasi hollow tube, and have light outcoupling surfaces 30a, which are adapted to emit the light in the direction of the downstream projection lens 4. The light outcoupling surfaces 30a as well as the unrecognizable light coupling surfaces are thus limited openings in the light guide unit 3.
In principle, it is also conceivable that these light guide units are used as e.g. are formed separate light guide body.
As can be seen in particular in FIGS. 1, 2 and 5, the light guides 30 each are bounded by two substantially vertical walls and two substantially horizontal walls, the light guides 30 of the upper and lower rows are rectangular in the example shown, while the light guides the middle row are square.
The vertical walls 31 each delimit and separate laterally juxtaposed light guides 30, and in addition, the light guides 30 of the middle row are separated from the upper and lower ones by the horizontal partitions 32, respectively.
These dividing walls 31, 32 now have a certain wall thickness a in the region of the light outcoupling surfaces 30a (see, for example, FIG. 3, FIG. 5), so that vertical and horizontal stripes form in the light image between the activated light segments, as shown schematically in FIG is. 11/21 -11- PI2885
To make these stripes, i. to reduce their expression or width or to eliminate them completely, it is provided that, as shown in Figure 1 in an exploded view between the light guide unit 3 and the projection lens 4, a diaphragm element 5 is arranged.
This diaphragm element 5 has aperture openings 50 separated from one another by diaphragm-partitions 51, 52, as can be clearly seen in particular in FIGS. 3-5.
In this case, the diaphragm element 5 is arranged in relation to the light guide unit 3 such that in each case an aperture 50 of the diaphragm element 5 is connected upstream of a light coupling-out surface 30a of the light guide unit 3, in particular in such a way that the light coupling surfaces 30a are completely free, i. not covered by material of the diaphragm element.
Accordingly, the apertures 50 are formed such that they correspond in shape and size substantially to their respective associated light outcoupling surfaces 30a. Furthermore, it is provided according to the invention that on the light guide unit 3 facing away surfaces 5a of the diaphragm element 5, the diaphragm opening partitions 51, 52 which limit the apertures 50 and adjacent apertures 50 separate from each other, have a smaller wall thickness b than that of the respective aperture opening Partition wall 51, 52 associated partition wall 31, 32 of the respective light guide 30 in the region of their light output surface 30a. This situation can be clearly seen in FIGS. 3 and 4, as well as in FIG. 5.
Figure 3 shows the situation for clarity in an exploded view, Figure 4 and 5 show the actual situation in which the diaphragm element 5 is as close as possible to the light guide unit or this preferably contacted.
Thus, not the light outcoupling surfaces 30a but the apertures 50, de facto the apertures 50 in the area of the lens-side surface 5a of the diaphragm element 5 are shown in the photograph, where the partitions 51, 52 between the apertures 50 are only very narrow and correspondingly the unwanted grid in the The light image between the individual light segments is correspondingly weak or no longer visible, as shown schematically in FIG. 7.
As already mentioned, contrary to the illustration from FIGS. 1 and 3, which show the aperture element 5 at a (large) distance from the light guide unit 3 for better visibility of the technical features, it is provided that the aperture element 5 adjoins the light guide unit 3 directly, preferably the light guide unit 3 Light guide unit 3 is arranged to be contacting in the region of their surface formed by the light output surfaces 30a.
In concrete terms, this means that the diaphragm-opening partitions 51, 52 (on the side 5b of the diaphragm element 5 facing the light-guiding unit 3) contact the partitions 31, 32 between the light guides 30, as can be clearly seen in particular in FIGS. 4 and 5. In this way, reliably the passage of light from a light guide 30 into an unassigned or an adjacent light guide 30 associated aperture 50 is prevented. In addition, in this way the lens-side surface 5a of the diaphragm element 5 can be arranged as exactly as possible in the focal plane of the projection lens 4.
Namely, in order to obtain an optimal, in particular sharp image of the light segments with the individual light guides 30, it is advantageous if the aperture element 5 lies substantially in the focal plane of the projection lens 4.
Typically, the surface of the light guide unit 3 formed by the light outcoupling surfaces 30a of the light guides 30 is not flat but, as shown in Figure 1 and Figures 3 and 4, well visible according to the focal plane of the projection lens, i. formed both horizontally and preferably also curved vertically in the direction of the lens.
Accordingly, i. Following the shape of this surface of the light guide unit 3, the diaphragm element 5 is correspondingly curved and formed congruent to this surface. In this case, care must be taken to ensure that the diaphragm element 5 is designed to be as thin as possible in the light exit direction 13/21 -13- PI2885, so that the surface 4 a of the diaphragm element 5 facing the lens 4 is made as thin as possible , which now defines the actual light output surface, as close as possible to the focal plane of the projection lens 4.
However, it can also be provided that the light outcoupling surfaces 30a are offset at least by the thickness d of the diaphragm element 5 in the light exit direction to the rear, so that the lens-side surface 5a of the diaphragm element 5 can be arranged exactly in the focal plane of the projection lens 4.
The wall thickness b_ of the diaphragm opening partition walls 51, 52 may be constant over the entire thickness d of the diaphragm element 5, or, as shown in FIGS. 3 to 5, the wall thickness b of the diaphragm opening partition walls 51, 52 may be greater than the thickness d of the diaphragm element 5 in the direction of light exit.
Advantageously, it is then also provided in this case that the wall thickness of the diaphragm opening partition walls 51, 52 on the surface 5b facing the light guide unit 3 corresponds in each case to the wall thickness a of the associated partition walls 31, 32 between the light guides 30 in the region of the light output surfaces 30a. 14/21

权利要求:
Claims (19)
[1]
1. A lamp unit (1) for a headlamp, in particular a motor vehicle headlamp, comprising a plurality of light sources (2), a light guide unit (3) with a plurality of light guides (30) and a downstream projection lens (4), each light guide (30) each having a light outcoupling surface (30a), and wherein each light source (2) precisely couples light into a light guide (30) associated therewith, and adjacent light guides (30) are separated by partitions (31, 32) , characterized in that between the light guide unit (3) and the projection lens (4) at least one aperture element (5) is arranged, which aperture element (5) from each other through aperture opening partitions (51, 52) separate aperture openings (50), wherein the Aperture element (5) is arranged such that in each case an aperture (50) of a light output surface (30a) is connected upstream, and wherein the blend The openings (50) correspond in shape and size essentially to their respective light output surfaces (30a), and at least a part of the shutter opening partitions (51) on the surfaces (5a) of the at least one shutter element (5) facing away from the light guide unit (3) , 52) has a smaller wall thickness (b) than the partitions (31, 32) of the light guide unit (3) assigned to the respective aperture partitions (51, 52).
[2]
2. Light unit according to claim 1, characterized in that exactly one aperture element (5) is provided, which has a number of the light output surfaces (30a) corresponding number of aperture openings (50).
[3]
3. Lighting unit according to claim 1 or 2, characterized in that the light guides (30) are arranged in at least two superimposed rows, wherein preferably the light guides (30) are arranged in exactly three rows arranged one above the other.
[4]
4. Lighting unit according to claim 3, characterized in that for each row of light guides (30) or at least for one of the rows at least one separate panel element is provided. 15/21 -15- PI2885
[5]
5. Lighting unit according to one of claims 1 to 4, characterized in that the at least one diaphragm element (5) is located substantially in a focal plane of the projection lens (4).
[6]
6. Lighting unit according to one of claims 1 to 5, characterized in that the at least one diaphragm element (5) directly to the light guide unit (3) then, preferably the light guide unit (3) in the area of their light output surfaces (30a) formed surface is arranged contacting.
[7]
7. Lighting unit according to one of claims 1 to 6, characterized in that the wall thickness (b) of the diaphragm opening partitions (51, 52) over the entire thickness (d) of the at least one diaphragm element (5) is constant.
[8]
8. Light unit according to one of claims 1 to 6, characterized in that the wall thickness (b) of the aperture opening partitions (51, 52) is reduced over the thickness (d) of the at least one aperture element (5) in the light exit direction.
[9]
9. Light unit according to claim 8, characterized in that the wall thickness of the diaphragm opening partitions on the light guide unit (3) facing surface (5b) respectively the wall thickness (a) of the associated partitions (31, 32) between the light guides (3) ,
[10]
10. Lighting unit according to one of claims 1 to 9, characterized in that the light guides (30) are each bounded by two substantially verhkalen walls (31) and two substantially horizontal walls (32), and preferably those of the walls ( 31, 32) limited light outcoupling surfaces (30a) of the light guides (30) form a rectangle or a square.
[11]
11. Light unit according to claim 10, characterized in that at least the vertical and / or horizontal partitions (31, 32) between the light guides (30) associated aperture opening partitions (51, 52) on the light guide unit (3) facing away from surface ( 5a) have a smaller wall thickness (b) than the associated partitions (31) of the light guide unit (3). 16/21 -16-PI2885
[12]
12. Light unit according to claim 10, characterized in that all the partitions (31, 32) between the light guides (30) associated aperture opening partitions (51, 52) on the light guide unit (3) facing away from surfaces (5a) has a smaller wall thickness ( b) have as the associated partitions (31, 32) of the light guide unit (3).
[13]
13. Lighting unit according to one of claims 1 to 12, characterized in that the at least one aperture element (5) made of a metal, e.g. a sheet or a metal foil or a plastic, preferably a temperature-resistant plastic is formed.
[14]
14. Lighting unit according to one of claims 1 to 13, characterized in that the aperture opening partitions (51, 52) are reflective light, in particular highly reflective.
[15]
15. Lighting unit according to one of claims 1 to 14, characterized in that the apertures (50) are made in the diaphragm element material by means of punching, in particular by means of fine blanking or by means of laser cutting.
[16]
16. Lighting unit according to one of claims 1 to 15, characterized in that the light sources (2) are LED light sources, each LED light source (2) comprises at least one light emitting diode.
[17]
17. Light unit according to claim 16, characterized in that each LED light source (2) can be controlled separately and switched on or off and / or dimmed, preferably each LED of a LED light source can be controlled separately and / or switched off and / or or dimmable.
[18]
18. Lighting unit according to one of claims 1 to 17, characterized in that the at least one diaphragm element (5) is designed as a flat component.
[19]
19. A vehicle headlamp with at least one lighting unit according to one of claims 1 to 18. 17/21

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同族专利:

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公开号 | 公开日

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JP2015510674A|2015-04-09|

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EP2786064A1|2014-10-08|

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CN104105921A|2014-10-15|

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US9157597B2|2015-10-13|

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AT513738B1|2014-07-15|

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US20150085523A1|2015-03-26|

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IN2014MN01559A|2015-05-08|

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JP6061156B2|2017-01-18|

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CN104105921B|2017-04-05|

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WO2014094017A1|2014-06-26|

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法律状态:
2018-08-15| MM01| Lapse because of not paying annual fees|Effective date: 20171220 |

优先权:

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申请号 | 申请日 | 专利标题

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ATA50608/2012A|AT513738B1|2012-12-20|2012-12-20|Lighting unit for a headlight|ATA50608/2012A| AT513738B1|2012-12-20|2012-12-20|Lighting unit for a headlight|

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PCT/AT2013/050205| WO2014094017A1|2012-12-20|2013-10-22|Light‑emitting unit for a projector lamp|

---

EP13795987.0A| EP2786064B1|2012-12-20|2013-10-22|Light emitting unit for a projector lamp|

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MX2014008827A| MX343647B|2012-12-20|2013-10-22|Light emitting unit for a projector lamp.|

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JP2014556881A| JP6061156B2|2012-12-20|2013-10-22|Lamp unit for headlamp|

---

CN201380010174.XA| CN104105921B|2012-12-20|2013-10-22|For the lighting unit of headlight|

---

US14/394,327| US9157597B2|2012-12-20|2013-10-22|Light-emitting unit for a projector lamp|

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IN1559MUN2014| IN2014MN01559A|2012-12-20|2014-08-01|