LIGHTING DEVICE FOR MOTOR VEHICLE PROJECTOR

专利摘要:
Lighting device, in particular for a motor vehicle, comprising at least one module having an optical axis O, each module comprising: a light source 8 configured to emit a light beam in a global direction of appearance substantially intersecting with the optical axis O, a light guide guide capable of directing the light beam emitted by said light source 8 substantially parallel to said optical axis O at the output of said guide and able to form a cut in said beam. This device is characterized in that it comprises a single output portion of said light beam whose output surface 3 is continuous in curvature, and which is common to all modules.
公开号:FR3039629A1
申请号:FR1557183
申请日:2015-07-28
公开日:2017-02-03
发明作者:Yves Gromfeld
申请人:Valeo Vision SA；
IPC主号:

专利说明:

Motor vehicle headlight lighting device Field of the invention
The present invention relates to a lighting device.
A preferred application relates to the automotive industry for the production of signaling and / or lighting devices, in particular vehicle headlights.
In the latter area, there are known projectors, among which are traditionally found low beam, or codes, range on the road around 70 meters, which are used mainly at night and whose distribution of the light beam is such that it does not dazzle the driver of a crossover vehicle. Typically, this beam has a cut in the upper part with a horizontal portion, preferably about 0.57 degrees below the horizon, so as not to illuminate the area in which should be the driver of a vehicle coming in the opposite direction .
In this area, there are also high beam, as well as fog lamps, both having a cut-off beam.
State of the art
Lighting devices for such lamps are known, comprising at least one light source and at least one orientation guide of the light rays between the source and an exit face. In particular, the document EP2045515 discloses such a lighting device with a reduced compactness due to the fact that the light source is oriented perpendicular to the optical axis of the device, and that a 90 ° ray return is operated within the guide. The disadvantage with this device lies in the shape of the exit face of the guide, which lacks aesthetics.
Indeed, the exit faces of the lighting devices are visible from the front of a vehicle, through the lens of the optical block. In this case, in the cited document, the exit face is part of a cylindrical-shaped tip when viewed from the outside. In the case of a plurality of guides for a plurality of light sources, several cylindrical-shaped tips are arranged next to each other and offset in depth to be more or less close to the ice.
Now the new trend is to have lighting systems increasingly compact, and whose exit surfaces preferably follow the curved profile of the windows.
The fact of having a plurality of cylindrical outlet faces is relatively unsightly and does not allow to keep the continuity in curvature of the ice located vis-à-vis. The object of the invention is thus to provide a compact lighting system whose output surface is curved, and preferably follows the profile of the ice placed downstream. Summary of the invention
The lighting device for a motor vehicle according to the invention comprises at least one module having an optical axis O, each module comprising: a light source configured to emit a light beam in a global direction of appearance substantially secant to the optical axis O; a light guide guide capable of directing the light beam emitted by said light source substantially parallel to said optical axis O at the output of said guide and able to form a cut in said beam.
The global direction is defined by the average direction of the light beam composed of all the rays emitted by the light source. Advantageously, this overall direction may be substantially perpendicular to the optical axis. In a variant, the overall direction may make an angle with the optical axis O of between 15 ° and 75 °, in particular between 40 ° and 50 °, or even substantially equal to 45 °.
The lighting device is characterized principally in that it comprises a single output portion of said light beam whose output surface is continuous in curvature, and which is common to all the modules.
In this case, the exit surface is smooth.
The lighting device according to the invention thus creates one or more beams projected to infinity, with a cutoff profile, while having a single curved and aesthetic output surface, visible through the lens of a projector. This device therefore has the advantage of implementing a single output surface intended to be used with one or more light sources to perform specific lighting functions, or even signaling. Indeed, it can produce a great variability of light beams depending on the number and location of the associated light sources, to meet different needs and requirements in terms of lighting.
In addition, this device has a compact geometry since the rays undergo a 90 ° return within the guide, which allows the source to project rays for example perpendicular to the optical axis and to have a proximal positioning of the exit surface, with respect to a conventional device where the source projects rays in a direction parallel to the optical axis and to a distal positioning of the exit surface. The device of the invention therefore has the advantage of being compact.
The guide has an important role, since it carries out this reference to 90 °. The guide comprises three diopters, namely: an input face associated with the light source; an output face coincides with the common output surface of the lighting device; a return face for reflecting said light rays from the input face to the output face.
The return to 90 ° is therefore achieved by the return face of the guide.
The term "input face associated with the light source" is understood to mean that the source can be directly applied against or in the immediate vicinity of the input face. However, this expression also includes configurations where the source is not in direct contact with the input face, in particular the configuration where it is intended to interpose at least one optical component of the collector, collimator or single conductor type. light between the source and the wafer, for example to improve / increase the amount of light penetrating into the guide by the entrance face by further limiting the light leakage, and / or to reserve the possibility of deporting the source .
Advantageously, the light guide is made of a material capable of allowing the reflection of said light beam on the return face by total internal reflection.
Alternatively, the return face may be coated with a reflective coating.
According to various embodiments of the invention that can be taken together or separately: the input face of the guide is arranged so as to refract the light beam from the light source towards the return face, the face of the light source. The entry may be plane or not, in particular curved, the return face of the guide is arranged to collect the refracted light beam from the input face and to reflect this light beam towards the exit face of the guide. the return face has a focus F and in that the light source is positioned in a vicinity of this focal point F so that the light beam reflected by the return face towards the exit face has a cutoff: where appropriate, the light source is positioned relative to the focus of the return face so that the light beam from the exit face has a flat cut, in particular horizontal or obliquely oblique, the return face has a generally parabolic profile admitting a focus F located in the vicinity of the light source: this deflection face may have a cylindrical shape of a parabolic generator and director directed along a Y axis perpendicular to the optical axis O. the return face is optically linked to the exit face and to the desired distribution of the light rays at the output of the module: if necessary, the return face can be smooth. Alternatively, the return face may be provided with optical patterns such as streaks or may be faceted. the light source has a center of symmetry that is off-center with respect to the focus F of the deflection face with an offset in the direction of the optical axis O. The light source has a transmitting surface of said beam provided with a lateral edge, and in that the light source is arranged so that the focus F of the return face is positioned on this edge. the light source is positioned so that said edge is substantially perpendicular to the optical axis O. the light source is positioned so that the edge makes an angle with the optical axis O substantially equal to 15 °. the outlet face of the guide is arranged to project the light beam reflected by the reference face to infinity: the term "infinite" means a distance much greater than the dimensions of the module, for example 25m. If necessary, the device is devoid of a projection optical system other than the exit face of the module. the outlet face of the guide is arranged so that the rays emerging from the outlet face of the guide are collimated, in particular along the optical axis O of the module. the lighting device comprises a plurality of modules, the guides having side walls to prevent rays from a light source associated with a guide can pass into the adjacent guide: in this case, the light beam emitted by a source light propagates in the guide associated with it by total internal reflection on said side walls, the side walls of the guides may for example be aluminized: in this way, these walls can effectively reflect the light beams to the exit face of the guide. the lighting device comprises at least one module of a device where the edge of the light source is substantially perpendicular to the optical axis, and a module of a device where the edge of the light source is at an angle to the optical axis substantially equal to 15 °. the distance between the light source and the common output surface of the device varies according to the lighting functions of the modules. the common output surface of the lighting device is monobloc. the common exit surface is convex relative to the outside of the lighting device. for each guide, the exit face extends transversely or obliquely with respect to the entry face. the light source may be a single light emitting diode (LED): such a diode provides a good quality of light beam, while remaining a small size. It is therefore perfectly adapted to a module according to the invention, whose dimensions must be limited to be incorporated in a motor vehicle. the light source can be an LED formed by the association of several emitting chips LED aligned type. The invention also relates to a motor vehicle light projector comprising at least one lighting device as described above.
Advantageously, this luminous headlight comprises: a housing intended to be fixed on a vehicle, a closure glass of said housing, said lighting device being housed inside the space delimited by the housing and the closure glass, the lighting device being arranged in such a way that the rays issuing from said common exit surface reach said closing window.
Advantageously, the rays issuing from the common exit surface reach said ice without encountering any obstacle.
Preferably, the rays emitted at the output of the lighting device form a portion or the entirety of a regulatory beam of road lighting type or crossing light type.
Such a projector equips a motor vehicle for the illumination of the road. The invention will be better understood, and other objects, details, features and advantages thereof will become more clearly apparent in the following detailed explanatory description of at least one embodiment of the invention. invention given by way of purely illustrative and non-limiting example, with reference to the accompanying schematic drawings.
In these drawings: - Figures 1 and 2 show in perspective the lighting device of the invention, in one embodiment to a module: - Figure 3 is a side view of the lighting device according to Figures 1 and 2; FIG. 4 is a front view of the lighting device according to FIGS. 1 and 2; - Figure 5 schematically illustrates the path taken by the light rays within the lighting device; - Figure 6 is a side view of the lighting device and partly incorporates the diagram of Figure 5; - Figures 7 and 8 show in perspective the lighting device of the invention, in a four-module embodiment; FIG. 9 is a network of isolux curves obtained with the device of FIGS. 7 and 8; - Figure 10 shows an example of integration of the lighting device according to Figures 7 and 8 in a light projector.
detailed description
The terms "vertical" and "horizontal" are used in the present description to designate directions, including beam-cutting directions, in an orientation perpendicular to the horizon plane for the term "vertical", and in a parallel orientation. in terms of the horizon for the term "horizontal". They are to be considered in the operating conditions of the device in a vehicle. The use of these words does not mean that slight variations around the vertical and horizontal directions are excluded from the invention. For example, an inclination relative to these directions of the order of + or - 10 ° is here considered as a minor variation around the two preferred directions.
Likewise, throughout the present text, the terms "front" and "rear" are to be understood by considering the direction of propagation of the light coming out of the lighting device towards the front.
The term "parallel" or the concept of axes includes here in particular with manufacturing or mounting tolerances, substantially parallel directions or substantially coinciding axes within this framework.
The cut-off profile preferably refers to the formation of an output beam that is not uniformly distributed around the optical axis due to the presence of a zone of least light exposure, this zone being substantially delimited by a cut-off profile. which can be formed by at least two, and in particular three line segments forming an angle between them or having a more complex shape in turns such as oblique cuts.
The case shown in the various figures is particularly suitable for installation in a projector at the front of a motor vehicle.
With reference to FIGS. 1 to 6, the lighting device is represented in a single-module configuration, that is to say having only one light source 8. This module has an optical axis O, which specifies the final orientation of the outgoing radii of the module.
The light source 8 is shown in Figures 5 and 6, and is configured to emit light rays. Here, the light source 8 comprises a light-emitting diode (LED) 8.
The LED 8 is positioned vis-à-vis an entry face 1 of a light guide, so that the light rays emitted enter said guide by this input face 1. The orientation guide is configured to direct the rays toward an exit face 3, orienting them substantially parallel to a horizontal plane.
The guide is in particular represented in FIGS. 1 to 4. It comprises: an input face 1 mentioned above, horizontal, situated in the lower part of the guide, and under which the LED is positioned; a return face 2 positioned vis-à-vis the input face 1 and oriented obliquely; an extension face 6 of the return face 2 coming to join the input face 1 and located at the rear 20 of the module; an exit face 3 previously mentioned, vertical, located at the front 19 of the module; a horizontal upper face 5 forming the junction between the return face 2 and the outlet face 3; an oblique lower face 7 forming the junction between the inlet face 1 and the outlet face 3; two parallel vertical side faces 4 whose contour is delimited by all the other faces of the aforementioned module.
In a particular example, the lighting device to a single module may have the following dimensions: dimension b in the X direction: 60mm dimension c in the Y direction: 40mm dimension a in the direction Z: 31mm.
The exit face 3 extends transversely with respect to the entry face 1.
The input face 1 is flat in the present example, but could be curved in another example, being defined conventionally by a scanning radius and a profile radius.
The exit face 3 is rounded and has a visual aesthetic curve from outside the module. This exit face 3 plays the role of a collimation lens.
The return face 2 has a curved shape associated with the profile of the exit face 3 so that the light rays issuing from the guide have a direction substantially parallel to a horizontal plane. This curved shape corresponds more particularly to a parabolic form.
The focus F of this parabola is located under the entrance face 1. A point of the LED 8 is placed at the focus F of the dish, as illustrated in FIGS. 5 and 6. In the case of FIG. 6, the center C of the LED 8 is located at the focus F of the dish, while in the case of Figure 5, an edge 9 of the LED 8 is located at the focus F of the dish.
The LED 8 emits a light beam towards the input face 1. This beam is vertical, the LED 8 being configured to shoot along the Z axis and in the + Z direction. The rays of this beam are then refracted by the input face 1, and propagate vertically towards the deflection face 2. The latter ensures a total reflection of the incident rays, and redirect them inside the guide, to the exit face 3 in a substantially horizontal direction.
Therefore, the rays incident on the return face 2 are perpendicular to the rays reflected by the deflection face 2. The latter thus makes a reference to 90 ° rays.
The exit face 3 provides a collimation, that is to say a generation of a beam of parallel rays, in the direction of the optical axis O of the module, in the horizontal plane.
FIG. 6 shows the optical principle of the basic concept: all the rays emitted by the LED 8 enter the guide to be guided along a path comprising a right angle, then to be collimated in the direction of the optical axis O.
With this reference at 90 °, the module has the advantage of having a small footprint in its dimension b in the direction X.
It should be noted that the return face 2 is optically linked to the outlet face 3 and to the desired distribution of the output rays. In particular, since the exit face 3 has a function that is more aesthetic than optical, and only serves to collimate the beam, the return face 2 has a large role to play in the optical principle of the module, and must orient properly. the rays within the guide, so as to compensate for the lack of optical influence of the exit face 3 by its curved shape.
The module as described could be flipped horizontally, so that the LED 8 is configured to shoot along the Z axis and in the -Z direction. In this case, the spokes will be oriented towards the bottom of the module, vertically, and no longer towards the top of the module. The operation of the module remains identical, however, with the same optical principle.
The light beams obtained with the lighting device according to the invention comprises a cutoff zone, that is to say a boundary between a light area and a dark area to avoid dazzling drivers or people coming in the opposite direction the vehicle in question. Such a cut is essential in light beams intended to ensure functions such as: dipped beam, fog lights, additional highway fire, additional light bend, etc.
A break can be achieved by arranging the light source 8 so that the focus F of the dish constituting the return face 2 is located on the rear edge 9 of the source 8 instead of being located in the center C of this source 8. The LED 8 is therefore concretely offset by a distance d equal to half of its width in the direction X.
With such an arrangement, as illustrated in FIG. 5, a light ray 11 coming from the rear edge 9 of the light source 8 and therefore from the focal point F, is simply refracted by the input face 1, then reflected perpendicularly along a radius r1 in direction of the exit face 3. In the example considered, the radius r1 is substantially horizontal. It will remain in a horizontal plane at the exit of the device.
All the other light rays emitted by the source 8 will come from points situated in front of the rear edge 9 of the source 8, like the radius i2. This radius i2 is refracted and then reflected along a descending radius r2.
Another radius i3 from the rear edge 9 will be reflected along a horizontal radius r3 while another radius i4 from a point at the leading edge 10 will be reflected at a downwardly directed radius r4.
The resulting beam will therefore have a horizontal cutoff line with a lighted area below this cutoff line and a darkened area above it.
In the case where the module is flipped horizontally with an LED drawing radii in the Z- direction, the horizontal cut can be achieved by logically disposing the LED in such a way that the focus of the parabola constituting the return face is located on the front edge of the source instead of being on the back edge.
In order to obtain certain lighting effects, the LED 8 can be rotatable around the Y axis at an angle of between +/- 45 ° and / or around the Z axis with an angle between +/- -15 °. These freedom of movement of the LED 8 allow in particular to generate a light beam with a cut partly oblique to the left or to the right, so as to illuminate the traffic signs and the sidewalks or aisles on the left side of the road (traffic on the left) or on the right side of the road (traffic on the right).
Figures 7 and 8 show an embodiment where the lighting device according to the invention is composed of four modules 11,12,13,14.
These four modules 11,12,13,14 are aligned next to each other, and have a single continuous output surface 3, and therefore common to the modules 11,12,13,14. This common output surface 3 thus integrates the four output faces 3 of the four modules 11, 12, 13, 14.
This outlet surface 3 has a curved shape, aesthetic. It will be visible from the outside through a mirror 15 of a projector. Preferably, this exit surface 3 follows the curvature of the lens 15 of the projector.
Each of the modules 11, 12, 13, 14 fulfills a very precise lighting function. Thus, the modules 11, 12, 13, 14 are not identical to each other. They have variations in the shapes of the faces, as well as in the dimensions, especially in the X direction.
In this case, the end modules 11, 14 have a dimension in the X direction much greater than that of the central modules 12,13. Therefore, the position of the light sources 8 will also be different depending on the modules 11,12,13,14 with which they are associated. In other words, the distance between the light source 8 and the common output surface 3 of the device varies according to the lighting functions of the modules 11, 12, 13, 14.
This type of four-module lighting device 11, 12, 13, 14 makes it possible, for example, to generate an oblique cut-off light towards the right, as illustrated by the network of isolux curves in FIG. 9. The isolux curves are obtained on a screen placed 25 meters from the lighting device, perpendicular to the general optical axis of the device whose intersection with the screen corresponds to 0 ° graduation along the abscissa axis. The vertical axis passing through 0 ° corresponds to the intersection of the screen and the vertical plane passing through the general optical axis.
These curves make it possible to illustrate the distribution of the illumination. Note that the beam is below the horizontal, and that it includes an oblique cut to the right by an angle of 15 ° relative to the horizontal.
In a particular example, the four-module lighting device 11, 12, 13, 14 may have the following dimensions: dimension b 'in the direction X: 80mm dimension c' in the direction Y: 160mm dimension a 'depending on the direction Z: 31mm.
The dimension e 'of the common exit surface 3 in the Z direction is of the order of 20 mm.
The vertical parallel side faces 4 of the modules 11, 12, 13, 14 constitute intermediate walls between the modules 11, 12, 13, 14. Two adjacent modules may have, at their surface in common, two side walls 4 contiguous each corresponding to a module, or a single side wall 4 common to both modules. These side walls 4 may be aluminized, since they are intended to prevent the beams produced by a light source 8 placed at a guide of a module, to pass through the guide of the adjacent module.
Another example of nesting four modules 11,12,13,14 forming a lighting device is shown in Figure 10, including a representation of the side walls 4. The latter have sometimes complex shapes, with recesses, of to fit into each other.
This lighting device is integrated in a projector comprising: a housing 18 intended to be fixed on a vehicle, a closing window 15 of said housing, positioned in front of the common exit surface 3 of the lighting device.
The lighting device being housed inside the space delimited by the housing 18 and the closing window 15, the lighting device being arranged in such a way that the rays issuing from the said common exit surface 3 reach said closure glass.
The LEDs 8 of the lighting device are positioned on a substrate 17 which includes precise locations for this purpose. A heat sink 16 is conventionally connected to this substrate 17.
Although the light device according to the invention has been described in the context of an oblique cut beam, this device can also be adapted to other types of cut-off beams, requiring the same optics and different positions of light sources. to generate respective light beams compatible with different types of regulations. On the other hand, the light device according to the invention may be a lighting and / or signaling device.
The configurations shown in the figures cited are only possible examples, in no way limiting, of the invention which, on the contrary, encompasses variants of shapes and designs within the reach of those skilled in the art.

权利要求:
Claims (16)
[1" id="c-fr-0001]
claims
1. Lighting device, in particular for a motor vehicle, comprising at least one module having an optical axis O, each module comprising: a light source 8 configured to emit a light beam in a global direction of substantially secant to the axis optical O, - a light guide guide capable of directing the light beam emitted by said light source 8 substantially parallel to said optical axis O at the output of said guide and able to form a cut in said beam, characterized in that it comprises a single output portion of said light beam whose exit surface 3 is continuous in curvature, and which is common to all the modules.
[2" id="c-fr-0002]
2. Lighting device according to claim 1, characterized in that said guide comprises three diopters, namely: an input face 1 associated with the light source 8; an output face 3 coincides with the common output surface 3 of the lighting device; a return face 2 for reflecting said light rays coming from the input face 1 towards the exit face 3.
[3" id="c-fr-0003]
3. Lighting device according to the preceding claim, characterized in that the input face 1 of the guide is arranged to refract the light beam from the light source 8 towards the return face 2.
[4" id="c-fr-0004]
4. Lighting device according to the preceding claim, characterized in that the return face 2 of the guide is arranged to collect the refracted light beam from the input face 1 and to reflect this light beam to the output face 3 of the guide.
[5" id="c-fr-0005]
5. Lighting device according to the preceding claim, characterized in that the return face 2 has a focus F and in that the light source 8 is positioned in a vicinity of the focus F so that the light beam reflected by the return face 2 to the outlet face 3 has a cut.
[6" id="c-fr-0006]
6. Lighting device according to one of claims 2 to 5, characterized in that the return face 2 has a generally parabolic profile admitting a focus F located in the vicinity of the light source 8.
[7" id="c-fr-0007]
7. Lighting device according to one of claims 5 or 6, characterized in that the light source 8 has a center of symmetry eccentric with respect to the focal point F of the return face 2 with a shift d in the direction of the optical axis O.
[8" id="c-fr-0008]
8. Lighting device according to one of claims 5 to 7, characterized in that the light source 8 has a transmitting surface of said beam provided with a side edge 9,10, and in that the light source 8 is arranged so that the focus F of the return face 2 is positioned on this edge 9,10.
[9" id="c-fr-0009]
9. Lighting device according to the preceding claim, characterized in that the light source 8 is positioned so that said edge 9,10 is substantially perpendicular to the optical axis O.
[10" id="c-fr-0010]
10. Lighting device according to claim 8, characterized in that the light source 8 is positioned so that the edge 9,10 makes an angle with the optical axis O substantially equal to 15 °.
[11" id="c-fr-0011]
11. Lighting device according to one of claims 2 to 10, characterized in that the outlet face 3 of the guide is arranged to project the light beam reflected by the return face 2 to infinity.
[12" id="c-fr-0012]
12. Lighting device according to one of the preceding claims, characterized in that it comprises a plurality of modules 11,12,13,14, the guides having side walls 4 to prevent rays from a source light 8 associated with a guide can pass in the adjacent guide.
[13" id="c-fr-0013]
13. Lighting device according to the preceding claim, characterized in that it comprises at least one module of a device according to claim 9 and a module of a device according to claim 10.
[14" id="c-fr-0014]
14. Motor vehicle light projector comprising at least one lighting device according to any one of the preceding claims.
[15" id="c-fr-0015]
15. Light projector according to the preceding claim, characterized in that the rays emitted at the output of the lighting device form a portion or the entirety of a regulatory beam type street lighting or crossover type lighting.
[16" id="c-fr-0016]
16. Vehicle equipped with at least one light projector as described in claims 14 or 15.

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同族专利:

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公开号 | 公开日

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KR20170013845A|2017-02-07|

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US10920947B2|2021-02-16|

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CN106402768B|2021-08-06|

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FR3039629B1|2020-08-14|

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EP3124855A1|2017-02-01|

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EP3124855B1|2018-08-15|

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CN106402768A|2017-02-15|

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US20170030542A1|2017-02-02|

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JP6159631B2|2013-09-26|2017-07-05|株式会社小糸製作所|Vehicle lighting|US10234094B2|2016-09-13|2019-03-19|Valeo North America, Inc.|Lighting device for producing a supplemental beam|

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FR3065088A1|2017-04-11|2018-10-12|Valeo Vision|OPTICAL ASSEMBLY COMPRISING REFLECTORS WITH DISCONTINUITIES|

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FR3068658B1|2017-07-06|2021-04-16|Valeo Vision|MOTOR VEHICLE LIGHTING DEVICE|

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FR3073925B1|2017-11-20|2020-11-13|Valeo Vision|OPTICAL ELEMENT FOR AUTOMOTIVE VEHICLE OPTICAL MODULE|

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US10253940B1|2018-03-14|2019-04-09|T.Y.C. Brother Industrial Co., Ltd.|Vehicle light assembly|

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FR3079598B1|2018-03-30|2021-04-30|Valeo Vision|LIGHTING MODULE WITH MULTISOURCE OPTICAL ELEMENT WITH SMOOTH EXIT FACE|

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EP3857114A1|2018-09-28|2021-08-04|Lumileds Holding B.V.|Multi-focal collimating lens and bi-function headlight assembly|

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CN113686774A|2021-10-26|2021-11-23|三一重型装备有限公司|Corrosion testing device and downhole operation equipment|

法律状态:
2016-07-29| PLFP| Fee payment|Year of fee payment: 2 |

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2017-02-03| PLSC| Publication of the preliminary search report|Effective date: 20170203 |

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2017-07-31| PLFP| Fee payment|Year of fee payment: 3 |

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2018-07-27| PLFP| Fee payment|Year of fee payment: 4 |

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2019-07-31| PLFP| Fee payment|Year of fee payment: 5 |

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2020-07-31| PLFP| Fee payment|Year of fee payment: 6 |

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2021-07-29| PLFP| Fee payment|Year of fee payment: 7 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1557183A|FR3039629B1|2015-07-28|2015-07-28|LIGHTING DEVICE FOR AUTOMOTIVE VEHICLE PROJECTOR|FR1557183A| FR3039629B1|2015-07-28|2015-07-28|LIGHTING DEVICE FOR AUTOMOTIVE VEHICLE PROJECTOR|

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US15/219,660| US10920947B2|2015-07-28|2016-07-26|Lighting device for a motor vehicle headlight|

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EP16181308.4A| EP3124855B1|2015-07-28|2016-07-26|Lighting module for motor vehicle headlight|

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CN201610608033.3A| CN106402768B|2015-07-28|2016-07-28|Lighting device for a motor vehicle headlight|

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KR1020160096276A| KR20170013845A|2015-07-28|2016-07-28|Lighting device for a motor vehicle headlight|