LIGHT MODULE IN TRANSPARENT MATERIAL WITH TWO FACES OF REFLECTION

专利摘要:
The invention relates to a light module (2), in particular for a motor vehicle, comprising a body (4) made of translucent or transparent material with an input face (6) of light rays produced by one or more light sources, a first reflection face (8) with a cutting edge (14) of the rays coming from the input face (6), a second reflection face (10), towards the exit face, rays coming from the first face reflection (8), and an output face (10) of the light rays in an output beam along an optical axis of the module. The invention also relates to a projector comprising at least one such light module.
公开号:FR3039883A1
申请号:FR1557584
申请日:2015-08-06
公开日:2017-02-10
发明作者:Yves Gromfeld
申请人:Valeo Vision SA；
IPC主号:

专利说明:

The invention relates to the field of lighting, including lighting for a motor vehicle. The invention also relates to a lighting projector comprising such a module.
The published patent document FR 3 010 772 A1 discloses a lighting module with a body of transparent material comprising an input face of the light produced by one or more light sources, a reflection face with a cutting edge and a exit face of the rays. The input face comprises a cavity formed at one end of the module, in the transparent material, and delimited by a circular surface forming a diopter capable of deflecting the incoming rays to the outer and peripheral surface of the body. The rays are then reflected on the outer surface, by applying the principle of total reflection, to converge towards the cutoff edge. The exit face is generally convex and is at the opposite end of the module. The reflection face is formed by a notch formed in a lateral portion of the transparent material, between the input and output faces. The edge in the hollow of the notch forms the rim cut edge and the face of the notch located on the side of the input face forms a reflection face by virtue of the principle of total reflection. This reflection face is commonly called "folding" in that it "folds" part of the beams down the beam. The rays coming from the input face propagate in the transparent material essentially along the longitudinal and optical axis of the module. The majority of the rays pass at the cutoff edge without reflection and exit through the exit face. A portion of the rays meets the reflection or folding face disposed before the cutting edge, to undergo a reflection to an upper portion of the transparent body. These rays then meet the exit face with a large angle of incidence. They undergo significant refraction and are directed towards a lower portion of the light beam. This is how the edge of the folder makes it possible to cut the light beam horizontally. This module is interesting in that it achieves with a very small number of elements a high-performance light beam. However, it has the disadvantage that it requires a certain space along the optical axis. The transparent body extends in effect along its longitudinal axis substantially along the optical axis of the module. Moreover, by its shape the exit face can not serve as a style face, that is to say directly visible from outside the lighting device comprising the module. It is therefore necessary to provide an additional area of style which also increases the size. The invention aims to overcome at least one problem of the state of the art, in this case of the state of the art mentioned above. More specifically, the invention aims to provide a compact light module, in particular along its optical axis. The subject of the invention is a light module, in particular for a motor vehicle, comprising a body made of translucent or transparent material with: an input face of light rays produced by one or more light sources; a first reflection face with a rim cutting edge from the input face; an output face of the light rays in an output beam along an optical axis of the module; remarkable in that it further comprises a second reflection face, to the exit face, rays from the first reflection face.
According to an advantageous embodiment of the invention, the first reflection face forms a diopter capable of reflecting, by the principle of total reflection, a portion of the rays coming from the input face.
According to an advantageous embodiment of the invention, the first reflection face forms an angle between 5 ° and 40 ° with the mean direction of the light beams propagating from the input face to said reflection face.
According to an advantageous embodiment of the invention, the first reflection face comprises two adjacent portions forming an edge directed towards the second reflection face and / or the exit face, said portions forming, transversely to said edge, a convex profile.
According to an advantageous embodiment of the invention, the cutoff edge is formed by the intersection of the first reflection face with an intermediate face located between the first reflection face and the second reflection face, said first reflection face and said reflection face. intermediate face forming a concave profile.
According to an advantageous embodiment of the invention, the intermediate face comprises two adjacent portions forming an edge directed towards the second reflection face, said portions forming, transversely to said edge, a convex profile.
According to an advantageous embodiment of the invention, the second reflection face extends between the intermediate face and the exit face.
According to an advantageous embodiment of the invention, the second reflection face is generally curved and convex.
According to an advantageous embodiment of the invention, the second reflection face forms a diopter capable of reflecting, by the principle of total reflection, the rays coming from the first reflection face.
According to an advantageous embodiment of the invention, the body comprises a first portion extending from the entry face to the second reflection face in a main direction forming an angle of between 60 ° and 120 ° with the axis. optical.
According to an advantageous embodiment of the invention, the module comprises a second portion extending from the second reflection face to the exit face, along the optical axis.
According to an advantageous embodiment of the invention, the input face comprises one or more collimators capable of deflecting the light rays of one or more light sources, respectively, so as to form one or more beams of rays directed towards the second face. of reflection and passing in front of the cutoff edge.
According to an advantageous embodiment of the invention, the collimator, or each of the collimators, is formed by a protuberance of the body with a circular outer surface preferably of elliptical profile, said protuberance comprising a cavity adapted to receive the corresponding light source.
According to an advantageous embodiment of the invention, the input face comprises one or more collimators capable of deflecting the light rays of one or more light sources, respectively, towards a convergence point or segment located on the cutting edge.
According to an advantageous embodiment of the invention, the collimator or each of the collimators is formed by a protuberance of the body, having a circular outer surface of elliptical profile and a cavity adapted to receive the corresponding light source.
According to an advantageous embodiment of the invention, the collimators are at least three in number and form, on the input face, at least one row extending perpendicularly to the optical axis.
According to an advantageous embodiment of the invention, the module comprises the light sources, said sources being of the semiconductor light source type, for example of the electroluminescence diode type, arranged on a common board.
According to an advantageous embodiment of the invention, the output beam is a beam of illumination with horizontal or vertical cutoff. The invention also relates to a lighting projector for a motor vehicle comprising a housing and at least one light module, remarkable in that the light module is in accordance with the invention.
According to an advantageous embodiment of the invention, the projector comprises two light modules, arranged side by side and whose output beams are superimposed, one of said modules forming an extended beam cut generally straight and the other forming a narrow beam with horizontal cut with a jump.
According to an advantageous embodiment of the invention, the output face of the light module is a styling surface, that is to say a surface visible from outside the projector.
The measurements of the invention are interesting in that they make it possible to produce a particularly compact light module in the direction of the optical axis, that is to say the longitudinal axis of the vehicle. The use of a dioptric folder, namely that the first reflection face reflects the rays by the total reflection principle, is particularly advantageous in that it makes the module more tolerant to focusing defects. In addition, the use of several collimators on the input face makes it possible to compose the light beam and thus confers great flexibility for the realization of various functions. In addition, the module provides a common output face, which has advantages in terms of aesthetics and accuracy of the total beam resulting from the addition of the beams produced by the different collimators. Other features and advantages of the present invention will be better understood from the description and drawings in which: FIG. 1 is a perspective view of a light module according to the invention; FIG. 2 is a rear perspective view of the module of FIG. 1; - Figure 3 is a sectional view along a median longitudinal plane of the module of Figures 1 and 2; - Figure 4 is a perspective view of detail of the lower portion of the module of Figures 1 to 3; - Figure 5 is a schematic representation of the path of a portion of the spoke module of Figures 1 to 4; FIG. 6 is a schematic representation of the ray path of the module of FIGS. 1 to 4.
In the following description, the relative terms such as "high", "higher", "low", "lower" "," Before "and" rear "are to be understood in relation to the orientation of the module according to the figures, it being understood that the module can in practice take other orientations.
Figures 1 to 4 illustrate a light module according to the invention. The module 2 essentially comprises a body 4 and light sources (not shown).
The body 4 is made mainly, preferably totally, of a transparent or translucent material. This material may be glass or preferably plastic, such as polycarbonate (PC).
The body 4 comprises an input face 6 for the light produced by the light sources. These may be electroluminescence diodes or laser type. The body 4 also comprises a first reflection face 8, intended to reflect only a portion of the rays, a second reflection face 10, intended to reflect almost all the rays, and an exit face.
The input face 6 may comprise collimators 61 and 62. They are more visible in FIG. 4. In this case they can form protuberances projecting from the body and forming an outer surface that can be generally circular. Each of these protuberances comprises a cavity intended to receive one of the light sources. The inner surface of the protuberances defining the cavity forms a first dioptre with the ambient air, causing a refraction of the rays passing therethrough. The outer surface of the protuberances forms a second diopter with the ambient air. Depending on the angle of incidence of the rays that meet it, these can be reflected by the principle of total reflection. Indeed, in geometrical optics, the phenomenon of total reflection occurs when a light ray arrives on the separation surface of two media of different optical indices with an angle of incidence greater than a critical value: then there is more refracted ray transmitted and only a reflected ray remains. This limiting angle of incidence Q is obtained by applying the Snell-Decartes law, namely that Θ = sin-1-, where n2 is the index of refraction of the air and n is the refractive index and the transparent or translucent material forming the protuberance. For a material such as polycarbonate of refractive index of the order 1.591, the refraction limit angle Q is of the order of 39 °. The outer surface of the protuberances forming the second dioptres may have a parabolic or elliptical profile.
The body 4 of the module 2 comprises an intermediate face 10 between the first reflection face 8 and the second reflection face. As is particularly visible in Figures 2 and 3, the intermediate face 10 and the first reflection face have a concave profile and form at their intersection a cutting edge 14 rays propagating in the body 4. In fact, the major part rays propagate from the input face 6 to the second reflection face 10 past the cut edge, that is to say without undergoing intermediate reflection. Now part of the rays coming from the input face meet the first reflection face 8, more precisely the portion of said face which is adjacent to the rim edge 14. These rays are then reflected, advantageously by the principle of total reflection. (previously described in relation to the protuberances 61 and 62 of the input face 6). In this case, the reflection face 8 does not need to receive a reflective treatment. The reflection of a portion of the rays by the first reflection face has the effect of returning these rays to an upper portion of the second reflection face 10 and / or the exit face 12, with significant angles of incidence having for effect of refracting these rays to a lower portion of the light beam. The first reflection face, in association with the cutting edge, is commonly called "folding", in that it "folds" a portion of the rays to a lower portion of the light beam, thus providing a horizontal beam breaking function .
The first reflection face 8 advantageously forms an angle between 5 ° and 40 ° with the mean direction of the light beams propagating from the input face to said reflection face. In FIG. 2, it can be seen that the first reflection face 8 may comprise two adjacent portions 81 and 82, these two portions forming an edge 83. The same applies to the intermediate face 16 which may also comprise two portions 161 and 162 forming an edge 163. The two edges 83 and 163 are advantageously aligned and adjacent end-to-end. As a result, the cutoff edge 14 in this configuration is not rectilinear but consists of two adjacent end-to-end segments.
The second reflection face 10 may be generally curved, in this case convex from the outside to the body 4. The same goes for the exit face 12. The second reflection face 10 advantageously reflects the rays by the principle total reflection (previously described in relation to the protuberances 61 and 62 of the input face 6). In this case, the reflection face 10 does not need to receive a reflective treatment.
With reference to FIG. 3, the body 4 may comprise a first portion 41 extending generally along a generally transverse longitudinal axis, advantageously perpendicular to the entrance face 6. The angle formed by these two axes is advantageously between 60 ° and 120 °. The spokes thus propagate generally along the longitudinal axis 18, from the input face 6 to the second reflection face 10, passing, for some, by a reflection on the first reflection face 8. The body can also comprise a second portion 42 extending transversely to the first and generally along the optical axis 20. The latter represents the mean direction of the light rays coming out of the exit face 12.
FIGS. 5 and 6 illustrate the principle of propagation of the rays within the body 4 of the module 2 of FIGS. 1 to 4. In FIG. 5, it can be observed that the light rays produced by the collimator 61 converge at a point or a segment This means that the majority, if not the great majority, of the rays coming from the focus collimator 61 in question pass in front of or on the cutting edge 14 without undergoing reflection. These rays then meet the second reflection face 10 to be reflected in the direction of the exit face 12. The curvatures of the second reflection surface 10 and / or the exit surface are calculated to form a light beam according to the optical axis of the module. In this case, the rays coming from the collimator (s) 61 form the portion 22 of the bundle, namely the upper portion with the cutting edge.
FIG. 6 illustrates the path of the light rays produced by the collimator 61, as illustrated in FIG. 5, with, in addition, the light rays produced by the collimator 62. Reference is made to the description of FIG. 5 for the rays. Collimator 61. It can be observed that the rays produced by the collimator 62 are generally parallel to each other and pass mainly in front of the cutting edge 14. As can be seen in FIG. 6, these rays meet the second reflection surface 10 with lower angles of incidence than the rays coming from the other collimator 61. These rays are then reflected in such directions that, after refraction through the exit face 12, they form the lower portion 24 of the beam luminous.
The combination of the two types of collimators 61 and 62 thus makes it possible to form a beam with a controlled cutoff and a homogeneous and powerful lower portion.
As can be seen in FIGS. 1 to 4, the input face 6 may comprise several foci 61 and several collimators 62. These two types of collimators are arranged in rows extending transversely to the optical axis. Each of the collimators of a row thus makes it possible to participate in forming the beam in a lateral direction. The focal point or collimators 61 is / are advantageously arranged behind the other collimators.
In Figures 5 and 6, it can be seen that the cut made appears to be generally rectilinear. But regulation imposes a jump, commonly referred to by the Anglo-Saxon "kink". The jump of the cut can be realized by the module by means of a suitable profile of the cutting edge.
Alternatively, the projection can be provided by another module disposed next to the module of Figures 1 to 6, the beam is added to the beam produced by the main module.
The light sources of the module or modules may be arranged on a common support, such as a PCB with printed circuit.
One or more modules as described above can be integrated into a housing for the purpose of producing a projector.

权利要求:
Claims (18)
[1" id="c-fr-0001]
claims
1. Light module (2), especially for a motor vehicle, comprising a body (4) of translucent or transparent material with: - an input face (6) of light rays produced by one or more light sources; - a first reflection face (8) with a cutting edge (14) of rays from the input face (6); an output face (12) of the light rays in an output beam along an optical axis (20) of the module; characterized in that it further comprises: - a second reflection face (10), towards the exit face, rays coming from the first reflection face (8).
[2" id="c-fr-0002]
2. Light module (2) according to claim 1, characterized in that the first reflection face (8) forms a diopter able to reflect, by the principle of total reflection, a portion of the rays coming from the input face ( 6).
[3" id="c-fr-0003]
3. Light module (2) according to one of claims 1 and 2, characterized in that the first reflection face (8) forms an angle between 5 ° and 40 ° with the mean direction of the light beams propagating from the inlet face (6) to said reflection face (8).
[4" id="c-fr-0004]
4. Light module (2) according to one of claims 1 to 3, characterized in that the first reflection face (8) comprises two adjacent portions (81, 82) forming an edge (83) facing the second face of reflection (10) and / or the exit face (12), said portions (81, 82) forming, transversely to said ridge (83), a convex profile.
[5" id="c-fr-0005]
Light module (2) according to one of Claims 1 to 4, characterized in that the cut-off edge (14) is formed by the intersection of the first reflection face (8) with an intermediate face (16). located between the first reflection face (8) and the second reflection face (10), said first reflection face (8) and said intermediate face (16) forming a concave profile.
[6" id="c-fr-0006]
6. Light module (2) according to claim 5, characterized in that the intermediate face (16) comprises two adjacent portions (161, 162) forming an edge (163) directed towards the second reflection face (10), said portions (161, 162) forming, transversely to said edge (163), a convex profile.
[7" id="c-fr-0007]
7. Light module (2) according to one of claims 5 and 6, characterized in that the second reflection face (10) extends between the intermediate face (16) and the outlet face (12).
[8" id="c-fr-0008]
8. Light module (2) according to one of claims 1 to 7, characterized in that the second reflection face (10) is generally curved and convex.
[9" id="c-fr-0009]
9. Light module (2) according to one of claims 1 to 8, characterized in that the second reflection face (10) forms a diopter capable of reflecting, by the principle of total reflection, the rays coming from the first face of reflection (8).
[10" id="c-fr-0010]
10. Light module (2) according to one of claims 1 to 9, characterized in that the body (4) comprises a first portion (41) extending from the inlet face (6) to the second reflection face (10) in a main direction (18) forming an angle between 60 ° and 120 ° with the optical axis (20).
[11" id="c-fr-0011]
11. Light module (2) according to claim 10, characterized in that the body (4) comprises a second portion (42) extending from the second reflection face (10) to the exit face (12). along the optical axis (20).
[12" id="c-fr-0012]
12. Light module (2) according to one of claims 1 to 11, characterized in that the input face (6) comprises one or more collimators (62) capable of deflecting the light rays of one or more light sources. , respectively, so as to form one or more beams of rays directed towards the second reflection face (10) and passing in front of the cutting edge (14).
[13" id="c-fr-0013]
13. Light module (2) according to claim 12, characterized in that the collimator, or each of the collimators (62), is formed by a protuberance of the body with a circular outer surface preferably of elliptical profile, said protuberance comprising a cavity apt to receive the corresponding light source.
[14" id="c-fr-0014]
14. Light module (2) according to one of claims 1 to 13, characterized in that the input face (6) comprises one or more collimators (61) capable of deflecting the light rays of one or more light sources. respectively to a convergence point or segment located on the cutoff edge (14).
[15" id="c-fr-0015]
15. Light module (2) according to claim 14, characterized in that the collimator or each of the collimators (61), is formed by a protuberance of the body, having a circular outer surface of elliptical profile and a cavity adapted to receive the source. corresponding light.
[16" id="c-fr-0016]
16. Light module (2) according to one of claims 1 to 15, characterized in that the output beam is a horizontal or vertical cut beam.
[17" id="c-fr-0017]
Motor vehicle lighting projector comprising a housing and at least one light module, characterized in that the light module (2) is according to one of claims 1 to 16.
[18" id="c-fr-0018]
18. Projector according to the preceding claim, characterized in that the output face (12) of the light module (2) is a styling surface.

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同族专利:

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公开号 | 公开日

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US20180292668A1|2018-10-11|

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US10139646B2|2018-11-27|

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EP3128226A1|2017-02-08|

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CN106439670B|2020-09-22|

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US20170038023A1|2017-02-09|

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US10345612B2|2019-07-09|

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EP3128226B1|2019-03-06|

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FR3039883B1|2020-10-02|

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CN106439670A|2017-02-22|

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EP3492955A1|2019-06-05|

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法律状态:
2016-08-31| PLFP| Fee payment|Year of fee payment: 2 |

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2017-02-10| PLSC| Search report ready|Effective date: 20170210 |

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2017-08-31| PLFP| Fee payment|Year of fee payment: 3 |

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2018-08-30| PLFP| Fee payment|Year of fee payment: 4 |

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2019-08-30| PLFP| Fee payment|Year of fee payment: 5 |

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2020-08-31| PLFP| Fee payment|Year of fee payment: 6 |

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2021-08-31| 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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FR1557584A|FR3039883B1|2015-08-06|2015-08-06|LUMINOUS MODULE IN TRANSPARENT MATERIAL WITH TWO SIDES OF REFLECTION|FR1557584A| FR3039883B1|2015-08-06|2015-08-06|LUMINOUS MODULE IN TRANSPARENT MATERIAL WITH TWO SIDES OF REFLECTION|

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EP19152472.7A| EP3492955A1|2015-08-06|2016-08-03|Luminous module made of transparent material with two reflecting surfaces|

---

EP16182530.2A| EP3128226B1|2015-08-06|2016-08-03|Luminous module made of transparent material with two reflecting surfaces|

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US15/228,257| US10139646B2|2015-08-06|2016-08-04|Transparent material light-emitting module with two reflection faces|

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CN201610643191.2A| CN106439670B|2015-08-06|2016-08-08|Transparent material light emitting module with two reflecting surfaces|

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US16/005,287| US10345612B2|2015-08-06|2018-06-11|Transparent material light-emitting module with two reflection faces|