COMPACT LIGHTING AND / OR SIGNALING DEVICE FOR VEHICLE

专利摘要:
The invention relates to a lighting and / or signaling device (5) for vehicles, comprising two light guides (8, 9) flat and parallel to each other, the light guides are positioned on each side of a plate of light. support (7) so that each light guide has an entrance area of the light vis-à-vis one or more light sources (14, 15, 17) present on the plate. An opaque shield (24) is interposed between the light guides (8, 9) to prevent the passage of light between the two guides.
公开号:FR3042751A1
申请号:FR1560175
申请日:2015-10-23
公开日:2017-04-28
发明作者:Alain Buisson；Sean Patterson；Aurelie Sornin
申请人:Automotive Lighting Rear Lamps France SAS；
IPC主号:

专利说明:

[01] The present invention relates to the technical field of lighting and / or signaling devices for vehicles. In particular, the invention relates to a lighting and / or signaling device comprising at least two light guides. The invention also relates to a vehicle light comprising such a lighting and / or signaling device.
[02] It is known from the state of the art the use of light guides, illuminated by light-emitting diodes (LEDs), whose light rays are routed to the exit of the device via flat guides .
[03] To perform certain lighting and / or signaling functions, it may be advantageous to emit light rays in a linear or curved light strip of small thickness, typically of the order of a few millimeters. This type of lighting and / or signaling device allows a greater number of alternatives in the design of headlight or fire for a vehicle. For example, the light guides can be arranged differently in the same reversing light, so as to ensure an aesthetic function and thus customize the fire depending on the vehicle. In other words, the light guides can provide the conventional functions of the reversing lights, while allowing to fulfill a visual signature function.
[04] However, a lighting and / or signaling device comprising several light strips must have a certain thickness in order to be able to interpose the light sources and their support between the guides. In addition, the light guides must be spaced a sufficient distance apart to prevent the light from propagating from one light guide to another, which may result in a change in the intensity and / or colorimetry of the light. light propagating in an adjacent guide. Indeed, if this minimum distance is not respected, the lights emitted simultaneously in adjacent guides, may no longer correspond to the lighting standards in force in the automotive sector for example.
[05] A lighting and / or signaling device comprising at least two light guides must therefore have a minimum thickness, in order to ensure its proper operation. Of course, this constraint limits the possibilities of use and / or arrangement of the light guides in a restricted volume, such as a car fire.
[06] In addition, another disadvantage associated with this type of device is the presence of light sources between the guides. Indeed, the light emitted by the light sources can propagate between the two guides, to the outside of the device, and thus form a luminous halo at the ends of the light guides.
[07] The present application therefore aims to propose a solution to the various technical problems mentioned above. In particular, an object of the invention is to propose a lighting and / or signaling device comprising at least two light guides, each guide diffusing a light in the form of a brighter strip of light, while optimizing the thickness of the device.
[08] For this, the present application proposes a lighting and / or external signaling device of a vehicle comprising: a support plate having two large opposite parallel faces, each carrying at least one light source; [09] two main light guides each formed by a blade comprising two large faces, medial and lateral, substantially parallel and a distal exit face of the light being located at a distance from the plate, each medial face comprising at least one zone of proximal input of the light located in relation to a light source of the plate and remote from the output face.
[10] The invention is characterized in that each main guide comprises, in relation to the proximal entry zone, at least one return face of the light towards the exit face, each return face being in part at least inclined relative to the corresponding medial face, and in that it comprises at least one opaque intermediate screen which is interposed between the two main guides and which extends parallel to the medial faces facing the latter between the plate and a zone located towards the exit faces so as to prevent the passage of light between the main guides.
[11] In order to facilitate the reading of this description, the term "guide" will be considered hereafter synonymous with the terms "light guide". The term "proximal entry zone" of the light, an area located on a medial side of a light guide, parallel or substantially parallel to the support plate, of which at least a portion of its surface is illuminated by a light source present on the plate. The light emitted by the light source thus enters the guide by a proximal input zone. According to the present description, the terms "proximal" and "distal" are relative to the positions of the light sources on the support plate. The term "return face" designates a face of the guide vis-à-vis its proximal entry zone and at least partially reflecting light from a light source on the plate. The return face is oriented so as to direct the light to an exit face of the guide. The term "exit face" refers to a face of the guide through which light comes out. The exit face defines an outline of the guide located at a distal portion. The terms "medial" and lateral "respectively denote a large face of a main guide nearest or furthest from the support plate.
[12] Advantageously, by interposing the opaque interposer between the light guides, the light propagating in a guide can not pass into an adjacent guide. Thus, a device of smaller thickness can be obtained by superimposing the light guides closer, without risk of diffusion of light from one guide to another. For example, the medial faces of the main guides are separated by a distance less than or equal to three times the thickness of one of the main guides. In another example, the medial faces of the main guides are separated by a distance of greater than or equal to 3 mm, preferably greater than 4 mm and, more preferably, between 6 mm and 10 mm.
[13] According to another embodiment, the lateral faces of the two main guides are separated by a distance less than or equal to 3 times the thickness of the thicker of the main guides. For example, each main guide has a thickness measured between its medial face and its lateral face, between 4 mm and 10 mm and preferably between 4 mm and 8 mm.
[14] According to a feature of the invention, the two main light guides are parallel to each other, in order to optimize the thickness of the device.
[15] The plate can then be parallel to the main light guides or on the contrary be inclined with respect to them. Thus, according to a preferred embodiment, the plate, located between the two main guides, is inclined with respect to a large face of one or more light guides, so as to allow a liquid present on its surface to flow out. This inclination of the plate avoids the accumulation of condensation water on its surface, especially when the guides are arranged horizontally on a vehicle equipped with the device according to the invention. By way of example, the plate may be inclined, with respect to a large face of a light guide, by an angle of between 0 ° and 10 °, or between 0 ° and 5 °, so as to make flowing the liquid towards an exit face of a main guide. The angle of inclination is preferably of the order of 5 ° in order to allow the evacuation of liquid, while optimizing the total thickness of the device.
[16] According to one characteristic of the invention, the opaque intermediate screen is partly located between a large face of the plate and a medial face of a main guide and comprises at least one light passage window opposite each corresponding light source. In other words, the intermediate screen is partly arranged between the support plate and a light guide, so as to cover at least a proximal portion of the support plate. Thus, the opaque spacer screen may include a window for multiple light sources or a window for each light source. In this case, the opaque insert screen also ensures that each light source only illuminates a dedicated return face. The intensity as well as the colorimetry of the light propagating in the guide are thus better controlled.
[17] According to a feature of the device, the latter comprises an opaque transverse screen which extends between the medial faces of the main guides, being in contact therewith so as to mask the light sources when the device is seen from the side exit faces of the main guides. In other words, the opaque transverse screen also prevents the light present between the guides from being visible at their exit face. Thus, the opaque transverse screen prevents the light sources from forming a luminous halo at the outlet faces of the guides.
[18] Preferably and according to an alternative, the transverse screen is an integral part of the intermediate screen. In other words, the intermediate screen and the opaque screen form a single continuous screen extending along the guides.
[19] In order to ensure the mechanical strength of the device, the opaque transverse screen may be sufficiently rigid to serve as a spacer between the light guides. Alternatively, the opaque transverse screen may be substituted by the appendix of a light guide, whose surface has been treated so as to be opaque to the light emitted by the light sources.
[20] According to a preferred embodiment, each main guide comprises an exit face protruding from the support plate, so as to form a cavity in which the light sources are present. The cavity may be delimited by the opaque transverse screen which is remote from the plate, so that the cavity is of sufficiently large volume to allow the dissipation of a portion of the heat produced by the light sources.
[21] According to an alternative embodiment, the cavity defined by the opaque transverse screen and the main guides may be closed on its other sides by one or more hydrophobic membranes, so as to prevent the presence of water due to a phenomenon of condensation on the support plate.
[22] According to an exemplary embodiment, the transverse screen is located at a distance from the nearest light source, greater than or equal to twice the distance between the medial faces of the main guides. By way of example, the shortest distance between a light source and the opaque transverse screen may be between 10 mm and 80 mm, preferably greater than 50 mm. In a preferred and nonlimiting manner, this distance will be greater as the distance between the main guides is small.
[23] According to an alternative embodiment, the main guides have different lengths, measured between the return faces and the corresponding outlet face, one of the main guides being longer than the other. By way of example, each main guide has a length, measured between the return face (s) and the exit face, greater than 30 mm and preferably between 30 mm and 100 mm.
[24] According to another embodiment, the intermediate screen and / or the transverse screen comprises a support extension of a screen at least translucent located in front of the exit face of one of the main guides. In other words, the distal portion of the opaque screen can be used as a support or attachment surface for a translucent, transparent and / or diffusing screen, positioned in front of a light guide. By the term "diffusing screen" is meant a light diffracting surface so as to reduce its glare. For example, such a screen may comprise a frosted surface. The diffusing screen can be formed from PMMA or materials with similar optical properties. It should be noted that the main light guides can be formed from the same materials.
[25] According to a feature of the invention, the support plate has a distal portion extending beyond the proximal ends of the main light guides. In other words, the support plate extends beyond the main guides opposite their exit face. Thus, a portion of the support plate may protrude from the sandwich formed by the light guides, to allow some of the heat produced by the light sources to dissipate outside the cavity, by thermal conduction in the platinum of support. In order to promote this phenomenon of heat dissipation, the distal portion of the support plate may be in contact with a heat exchanger.
[26] According to another embodiment, at least one of the large faces of the plate carries two distinct light sources located one behind the other with respect to the exit face of the corresponding main guide. This configuration advantageously makes it possible to reduce the spacing between the light sources providing the same function, which makes it possible to obtain a more homogeneous illumination at the exit face illuminated by said light sources.
[27] According to one variant, the support plate comprises at least two distinct light sources, illuminating the output face of a main light guide with two different colors. The support plate may also include one or more light sources, illuminating the exit face of the other light guide with a different color. In other words, the device comprises light sources emitting at least two different colors, preferably three. Each color can be associated with information on the movement of the device. These colors may, for example, correspond to the colors white, amber and red, in accordance with the color standards in force in the automotive sector to indicate respectively the recoil (reversing light function), the change of direction (function of the change of direction indicator), the position (lantern function) and / or braking (stop light function) of a vehicle illuminated by a device according to the invention. It should be noted that the red color can indicate both the position (lantern function) and the braking or stop (stop light function) of the vehicle which is equipped with the device according to the invention. For this, the same light source of red color can emit light at two different light intensities, at a first intensity to signal the positioning (Lantern function) and a second intensity stronger to signal braking (stop light function).
[28] Of course, a light source can emit a different color as a visual signature of the device. The term "light" in the present application refers to at least a portion of the visible human light spectrum. By the terms "opaque screen" is meant a screen opaque to light. A screen may for example be made opaque by covering at least one of its faces with a metallized deposit and / or an ink or an opaque coating.
[29] Of course, each main guide may include several return faces allowing multiple light sources to illuminate the exit face of the guide.
[30] According to a particular embodiment, one of the two light sources located on the same large face of the plate extends parallel to the output face of the corresponding main guide. By way of example, an exit face of a guide can thus be illuminated by a plurality of distinct and aligned light sources, so as to follow the contour formed by the exit face that they illuminate.
[31] Optionally, the two light sources extend parallel over part of their length. Another row of different light sources can also be arranged on the support plate, so as to illuminate the same output face with a different color. A row formed by light sources can be positioned in front of another row, so that the same surface of the exit face is illuminated by two different colors, simultaneously or alternately.
[32] Preferably, each light source is formed by an alignment of at least two light emitting diodes or LEDs. This alignment then preferably extends substantially parallel to the exit face of the corresponding light guide.
[33] According to an alternative embodiment, the light-emitting diodes of a light source are aligned and alternate with the light-emitting diodes of the other light source.
[34] According to one embodiment, the device comprises a light source associated with a main guide and another light source associated with a secondary guide. The secondary guide is arranged to direct the light from the other light source into the main guide, so that its light illuminates the exit face of the main guide. In other words, two distinct light guides can be aligned so that their return faces illuminate the same output face of one of the two guides.
[35] According to another embodiment, a return and / or exit face may comprise a scattering surface diffusing the light. The diffusing surface may comprise at least one of the following diffusion means: rectilinear or curved striations, micro-prisms, Fresnel mirrors, cavities formed in the guide to improve the homogeneous propagation of light, roughness and / or frosted.
[36] According to another embodiment, the return surface or surfaces of each guide has in relation to a light source a convex conformation, viewed from the outside of the guide. By way of example, each convex conformation has substantially the shape of a semi-paraboloid whose concavity is oriented towards the exit face.
[37] According to an alternative embodiment of the invention, the side face of at least one light guide is at least partially covered by an outer screen opaque to the light propagating in the guide. By the term "external screen" is meant a screen vis-à-vis a side face of a guide.
[38] According to another alternative, the support plate can be held between the light guides by means of holding means, positioned at the proximal ends of the guides. Of course, the holding means may make it possible to precisely adjust this distance, which may be less than 30 mm, preferably less than 2 mm.
[39] Optionally, at least one large side face of a light guide may be in abutment against a support plate, held in the support plate by the holding means. Preferably, the face of the support plate in contact with the guide is opaque, so that the light propagating in the guide is visible only at its output face.
[40] The support plate may comprise an attachment device for fixing the lighting and / or signaling device described above, in a vehicle light, so that the exit faces are oriented towards the vehicle. outside the fire. The fastening device, like the holding device, may comprise reversible and complementary fastening means, screw type and not screw.
[41] The present application also relates to a headlight or vehicle light comprising a lighting and / or signaling device as described above. It also addresses a vehicle integrating this light and comprising at least one wheel to allow the movement of the vehicle.
[42] Of course, the features, different variants and embodiments of the invention may be associated with each other in various combinations, to the extent that they are not incompatible or exclusive of each other.
[43] The characteristics of the invention mentioned above, as well as others, will appear more clearly on reading the following description of the examples of embodiment below, with reference to the appended drawings in which: FIG. IA is a schematic longitudinal section of a device according to the invention along an axis AA, present in a rear light of a car; - Figure IB is a schematic longitudinal section of a device according to the invention along an axis B-B, present in a rear light of a car; - Figure 2 is a schematic top view of a support plate belonging to the device shown in Figures IA and IB; FIG. 3A is a diagrammatic and partial longitudinal section of the device illustrated in FIG. 1A along a first axis A-A; - Figure 3B is a schematic and partial longitudinal section of the device shown in Figure IB, along a second axis B-B; FIG. 3C is an alternative embodiment of that illustrated in FIG. 3B; - Figure 3D is an alternative embodiment of that shown in Figure 3C; - Figure 4 is a schematic top view of a light guide covering the support plate shown in Figure 2; FIGS. 5A and 5B are alternative embodiments of a support plate represented in FIG. 2; FIGS. 6A and 6B are front and partial views of a device comprising a support plate represented respectively in FIGS. 5A and 5B; FIG. 7 illustrates a variant of the embodiment of the device illustrated in FIG. 1;
It should be noted that in these figures the structural and / or functional elements common to the different variants may have the same references.
[44] The present application relates to a lighting and / or signaling device comprising at least two preferably flat light guides, each guide diffusing a light in the form of a bright strip of sharpness, optimizing the thickness of the device.
[45] Figures 1 to 4 illustrate a non-limiting embodiment of the invention. According to this example, the invention is used as a lighting and signaling device in a car reversing light.
[46] More specifically, a cross section of a car rear light 1 is shown in Figures 1A and 1B. The reference 2 designates a housing present in the vehicle and intended to accommodate the rear light 3. The lamp is composed of a chamber 4 in which there is present a lighting and signaling device 5 according to the invention. The front face of the fire is closed by a protective screen 6, through which the device 5 is visible.
[47] The device 5 comprises a support plate 7 held between two main light guides 8 and 9 of flat shape, by means of holding means 10 and 11 (see Figure IB). The support plate is held in a vice between the light guides by means of the holding means, located respectively at the proximal ends 12 and 13 of the main light guides 8 and 9. According to the present description, the terms "proximal And "distal" are relative to the positions of the light sources on the support plate described below.
[48] The support plate 7 is made from a printed circuit board support or PCB (acronym for the English expression "Printed Circuit Board"), whose thickness is of the order of a few millimeters . The support plate includes electrical tracks (not shown) for connecting the light sources to a power supply device (not shown). The light sources are composed of light-emitting diodes or LEDs, emitting a white, red or amber light, in accordance with the automotive color standards, to indicate respectively the recoil, the position and the change of direction of the vehicle.
[49] Figures 1B and 2 show an arrangement of white and amber colored LEDs 15 on an upper face 16 of the support plate. The LEDs of the same color are aligned on the plate so as to follow the contour of the distal end of the guide they illuminate (see Figure 4). LEDs of red color 17 are arranged on a lower face 18 of the plate, visible in FIG IA. According to the present example, the LEDs have characteristics well known to those skilled in the art.
[50] The main light guides thus form a cavity 19 in which is present a proximal portion of the support plate 7. As its name suggests, the support plate serves as a support for several light sources present on two of its opposing faces 16 and 18. Advantageously, the support plate has a distal portion 20 protruding from the cavity 19 so as to allow dissipation of the heat produced by the light sources through the support plate 7 (see FIG. IB). According to an alternative embodiment not shown, a heat exchanger with fins may be attached to the distal portion of the support plate to amplify this heat dissipation phenomenon.
[51] The light sources are arranged to illuminate at least a portion of a proximal face of a main guide, more specifically, a proximal entry zone through which light, emitted by the light sources, enters the main guide. The main light guides 8 and 9 respectively have a proximal input zone parallel or substantially parallel to the support plate 7.
[52] In order to allow the optical coupling of the light in the guides 8 and 9, each guide has a deflection face 21 positioned vis-à-vis one or more light sources. The return faces are inclined relative to the proximal face of the light guide, according to a value between 30 ° and 60 °, preferably of the order of 45 °.
[53] As illustrated in FIGS. 3A to 3D showing partial longitudinal sections of the device 5, the return faces are oriented so as to reflect the light passing through the proximal entry zone of a guide, in the direction of a outlet face 22 delimiting a distal end of the guide. FIG. 3B represents another longitudinal section of the device 5, on which is visible, at an upper face 16 of the support plate, a white light source 14 and an amber-colored light source 15. colorimetry of these light sources is in line with current standards in the automotive sector. The guide 8 has a return face 21 positioned above each light source. In order to optimize the light scattering of different colors, the guide 8 comprises one or more recesses 23 on its surface which are configured to improve the homogeneous propagation of light in the guide. FIG. 4 shows a view from above of the light guide 8, comprising a plurality of deflection faces 21 and recesses 23, arranged so as to be opposite the light sources shown in FIG. are preferably of concave shape to orient the light more precisely towards the exit face 22.
[54] According to an alternative illustrated in FIG. 3C, the light guide 8 can be discontinuous between the two light sources 14 and 15. In other words, a passage 24 can be arranged in the guide 8 between these light sources and be defined by an optically aligned exit surface 22B and return surface 21A, so that the light emitted by the light source 15 can propagate in a secondary guide 8B and then in a main guide 8A to its exit face 22A .
[55] According to a variant of the previous embodiment, illustrated in FIG. 3D, the faces 22A and 22B may be parallel to one another so as to promote a better propagation of the light from the light guide 8B to the light guide 8A.
[56] Figure 2 is a perspective view of the support plate 7 shown in Figures IA and IB, comprising on one of its faces several separate sources of light. More specifically, it comprises white light sources 14 and amber-colored light sources 15. The colorimetry of these light sources is in accordance with the standards in force in the automobile sector. The light sources of the same color are aligned on the plate so as to follow the contour of the outlet face 22 of the guide 8 they illuminate. The light sources of white and amber color are partially parallel to each other, so as to illuminate with two different colors the same output face of the guide 8, as described above and illustrated in Figure 3C.
[57] In other words, the deflection faces 21 allow some of the light emitted by the light sources on the support plate to propagate through a guide to its exit face, through which light comes out of the guide and is visible in the form of a light strip. Depending on the desired visual signature, the contour, the inclination and / or the shape of the exit face can be modified according to the desired aesthetics. According to the present example, the outlet faces 22 of the guides 8 and 9 are normal to their proximal face and delimit at their distal end a contour of curved shape (see FIGS. 1 and 4). Of course, other embodiments are possible, in which the exit faces are inclined, concave or convex and delimit outlines of guides of different shapes.
[58] In order to amplify the phenomenon of light scattering, a return face 21 and / or an exit face 22 comprise a diffusing surface for diffusing the light. More precisely, the diffusing surface comprises at least one of the following diffusion means: rectilinear or curved streaks, micro-prisms, Fresnel mirrors, roughnesses and / or depolis.
[59] The thickness of the light guides is preferably as small as possible in order to reduce the thickness of the device 5. By the term "thickness" is meant a dimension of an object along an axis normal to a lateral face proximal to a light guide. The thickness of the guides described here is between 4 mm and 10 mm, it is preferably between 4 mm and 8 mm. The length of the light guides is greater than 30 mm, preferably between 30 mm and 100 mm. The term "length" means a dimension of an object along an axis parallel to a proximal face of a guide and passing through its return faces and exit. Of course, these values are adaptable depending on the space available in the fire and the desired aesthetics. According to the present example, the light guides 8 and 9 are of different lengths so that each guide forms a visible light strip at a different depth in the rear light 4, thus creating a "3-dimensional" effect. In this case, the light guides are made from polymethyl methacrylate or PMMA. This embodiment is not limiting in that it is easy to substitute this material with another having similar optical properties.
[60] Advantageously, the lighting and signaling device presented here comprises an opaque intermediate screen 24 interposed between the light guides 8 and 9. Like the light guides, the opaque intermediate screen is kept close to the support plate 7 by the holding means 10 and 11. More specifically, a proximal end of the opaque intermediate screen is retained by the holding means between the support plate and the light guide 9. As a result, as shown in FIG. 1B, a proximal portion 25 of the opaque intermediate shield 24 is in contact with the medial face of the guide 9 and opposite the support plate 7. In order to allowing the light sources present on the support plate to illuminate one or more deflection faces 21 of the guide 9, the opaque intermediate screen comprises one or more passages 26 provided for this purpose (see Figure IA). The proximal portion of the opaque intermediate screen thus allows channeling the light of each light source to limit as much as possible the light leaks. The light intensity at the exit face is thus better controlled.
[61] The opaque intermediate screen 24 extends along the guide 9 towards its exit face 21. The opaque intermediate screen joins the other guide 8, to extend along the guide towards its face 21. The opaque intermediate screen is continuous, so that it comprises an opaque transverse screen which closes at least a portion of the cavity 19 in which are present the light sources. Specifically, the opaque transverse screen masks the light sources so that they are not visible from outside the cavity. Thus, during their operation, no light emitted by these sources is visible between the output faces 21. The opaque transverse screen 27 thus prevents the aforementioned light halo phenomenon from occurring. As a result, the only visible light from outside the device 5 is the light emitted by the light guides in the form of a light band. This has the advantageous effect of obtaining a greater luminous sharpness at the exit faces of the light guides.
[62] Preferably, the opaque transverse screen 27 is positioned sufficiently far from the light sources to form a cavity 19 large enough to dissipate at least a portion of the heat produced by the light sources. According to the present example, this distance is between 30 mm and 50 mm. Of course, this distance depends on the type of light source used, their number and the length of the light guides. This distance can therefore be adapted according to each embodiment.
[63] According to another advantage of the invention, the opaque intermediate screen 24 prevents the light from passing from one light guide to another. Thus, the opaque interposed screen prevents any optical coupling phenomenon between the guides, which makes it possible to overcome a minimal distance requirement between the guides in order to preserve the brightness and the colorimetry of the light propagating in each guide . According to the present example, the distance separating the input zones from the light guides is greater than 3 mm, it is preferably between 4 mm and 16 mm.
[64] Preferably, when the guides are of different lengths, the distal portion of the opaque spacer screen 24 runs along the longer guide, so as to exceed the exit face of the shortest guide. In this way, it also limits the halo effect likely to be created by the scattering light of the longest guide.
[65] According to the present example, the opaque spacer screen 24 is formed from PMMA. It is tinted or covered with a layer so as to be opaque to the light emitted by the light sources present on the support plate 7.
[66] In order to support a portion of the weight of the device 5, a portion of the light guide 9 rests against a support plate 28 (see Figure IB). The support plate is secured to the holding means 11. The support plate is formed from the same materials as the light guides.
[67] For the same purpose, the opaque transverse screen 27 is chosen so as to be sufficiently rigid to serve as a spacer between the light guides, and to postpone a portion of the weight of the guide 8 on the support plate 28. rigidity of the opaque transverse screen also ensures that the input faces of the guides are parallel to each other. Alternatively, one of the guides may include an appendix playing the role of the opaque transverse screen.
[68] The reference 29 in FIGS. 1A and 1B is a diffusing screen placed in front of the exit face 21 of the guide 9. Advantageously, the distal portion of the opaque intermediate shield 24 serves as a mounting support for suspending the diffusion screen 29 in front of the guide 9. It is then not necessary to use other means to position the diffusing screen. The size of the device is thus reduced. The diffusing screen is formed from the same materials as the light guides and has a diffusing surface as described above.
[69] Advantageously, the device 5 comprises a fastening device 30 for fixing the device in the light 4 (see Figure IB). The fastening device is integral with the support plate 28 and the holding means 11. The fastening device makes it possible to orient the exit faces 22 towards the outside of the fire. Preferably, the device 5 is placed closer to an edge of the fire, so that said edge serves as an opaque screen along the guide 8.
[70] According to an alternative embodiment of the device 5 described above, the light sources can be arranged differently on the same face of the support plate 7. According to the present example illustrated in Figure 5A, the light sources of white color 14 and amber 15 are aligned on the upper face 16 of the plate 7, a first portion of the alignment being composed only of white light sources 14, a second part of the alignment being composed only of light sources of amber color 15, so as to obtain at the outlet face 22 of the guide 8 they illuminate the pattern shown in Figure 6A.
[71] According to another variant embodiment of the device 5 illustrated in FIG. 5B, the white 14 and amber 15 light sources alternate over part of their alignment, so as to be able to obtain at the level of the output 22 of the guide 8 they illuminate the light pattern shown in Figure 6B.
[72] According to the exemplary embodiments described with reference to FIGS. 1A and 1B in particular, the plate 20 is parallel to the light guides 8 and 9. However, such a configuration is not strictly necessary for producing a device according to the invention, thus Figure 7 illustrates an alternative embodiment of the device according to which the light guides 8 and 9 are parallel to each other while the support plate 20 is inclined towards the lower light guide 9 so as to allow in case condensation forming on the plate 20 a spontaneous flow of water in the chamber 19 so as to avoid disorders that may be caused by the presence of water on the plate. In the case of this example, the plate 20 is inclined at an angle α of the order of 5 ° relative to the large medial side of a light guide, the upper guide 8 in this case.
[73] Of course, various other modifications to the device according to the invention may be envisaged within the scope of the appended claims.

权利要求:
Claims (20)
[1" id="c-fr-0001]
An exterior lighting and / or signaling device (5) of a vehicle comprising: - a support plate (7) having two large opposite parallel faces, each carrying at least one light source (14, 15, 17 ); two main light guides (8, 9) located on either side of the plate, each main guide being formed by a blade comprising two large, medial and lateral faces, substantially parallel and a distal exit face (22). light being located at a distance from the plate, each medial face comprising at least one proximal input zone of the light located in relation to a light source of the plate and at a distance from the output face; characterized in that each main guide comprises in relation to the proximal entry zone at least one return face (21) of the light towards the exit face (21), each return face (21) being partially at least inclined with respect to the corresponding medial side, and in that it comprises at least one opaque intermediate screen (24) which is interposed between the two main guides (8, 9) and which extends parallel to the medial faces view of the latter between the plate and an area located towards the exit faces so as to prevent the passage of light between the main guides (8, 9).
[2" id="c-fr-0002]
2. Device according to claim 1, characterized in that the medial faces of the main guides (8, 9) are separated by a distance less than or equal to three times the thickness of one of the main guides.
[3" id="c-fr-0003]
3. Device according to claim 1 or 2, characterized in that the lateral faces of the two main guides (8, 9) are separated by a distance less than or equal to 3 times the thickness of the thicker of the main guides.
[4" id="c-fr-0004]
4. Device according to one of claims 1 to 3, characterized in that the plate (20) is inclined relative to a large face of a light guide.
[5" id="c-fr-0005]
5. Device according to claim 4, characterized in that the plate (20) is inclined, with respect to a large face of a light guide, an angle (a) between 0 ° and 10 °, preferably of the order of 5 °, so as to allow a flow of liquid towards an outlet face (22) of a main guide (8, 9).
[6" id="c-fr-0006]
6. Device according to one of claims 1 to 5, characterized in that the intermediate screen (24) is at least partly between a large face of the plate and the medial side of a main guide and comprises at least a passage window (26) of light facing each corresponding light source.
[7" id="c-fr-0007]
7. Device according to one of claims 1 to 6, characterized in that it comprises an opaque transverse screen (27) which extends between the medial faces of the main guides (8, 9) in contact with the latter in order to mask the light sources (14, 15, 17) when the device is seen on the side of the output faces of the main guides.
[8" id="c-fr-0008]
8. Device according to claim 7, characterized in that the transverse screen (27) is located at a distance from the nearest light source, greater than or equal to twice the distance between the medial faces of the main guides.
[9" id="c-fr-0009]
9. Device according to one of claims 1 to 8, characterized in that the main guides have lengths, measured between the return faces and the corresponding outlet face, different, one of the main guides being longer than the 'other.
[10" id="c-fr-0010]
10. Device according to one of claims 7 to 9, characterized in that the intermediate screen (24) and / or the transverse screen (27) comprises a support extension of a screen (29) at least translucent located in front of the exit face (21) of one of the main guides.
[11" id="c-fr-0011]
11. Device according to one of claims 1 to 10, characterized in that the support plate (7) extends beyond the main guides (8, 9) opposite their outlet face (21). .
[12" id="c-fr-0012]
12. Device according to one of claims 1 to 11, characterized in that at least one of the large faces of the plate carries two separate light sources (14,15).
[13" id="c-fr-0013]
13. Device according to claim 12, characterized in that at least one of the two light sources on the same large face of the plate extends parallel to the output face of the corresponding main guide.
[14" id="c-fr-0014]
14. Device according to claim 12, characterized in that the two light sources extend in parallel over at least part of their length.
[15" id="c-fr-0015]
15. Device according to one of claims 1 to 14, characterized in that each light source is formed by an alignment of at least two electroluminescent diodes (14,15).
[16" id="c-fr-0016]
Device according to claim 15, characterized in that the light-emitting diodes (15) of one light source are located behind the light-emitting diodes (14) of the other light source, with respect to the output face (21). ) of the main guide (8) that the light emitting diodes illuminate.
[17" id="c-fr-0017]
Device according to claim 15, characterized in that the light-emitting diodes (15) of a light source are aligned and alternate with the light-emitting diodes (14) of the other light source.
[18" id="c-fr-0018]
18. Device according to one of claims 1 to 17, characterized in that one of the large faces of the plate carries two different light sources (14, 15) and of different colors, so as to indicate a change of direction and the back of the device, and the other of the large faces of the plate carries a light source (17) of different color compared to other light sources (14, 15), so as to signal the slowdown and / or the shutdown of the device.
[19" id="c-fr-0019]
19. Device according to one of claims 1 to 18, characterized in that the side face of at least one main light guide is at least partially covered by an opaque outer screen (4) to the light propagating in the guide.
[20" id="c-fr-0020]
20. Fire (4) for a vehicle comprising a device according to one of claims 1 to 19.

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同族专利:

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公开号 | 公开日

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FR3042751B1|2018-09-07|

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CN108351085B|2021-01-05|

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WO2017068309A1|2017-04-27|

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EP3365596A1|2018-08-29|

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CN108351085A|2018-07-31|

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EP3365596B1|2019-06-26|

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FR3046579A1|2016-01-11|2017-07-14|Peugeot Citroen Automobiles Sa|OPTICAL BLOCK COMPRISING A SIGNALING LIGHT WITH A FLAT LIGHT GUIDE OF ITS EXTERIOR ICE|DE102017122502A1|2017-09-27|2019-03-28|Automotive Lighting Reutlingen Gmbh|Light guide arrangement of a motor vehicle lamp and motor vehicle lamp with such a light guide assembly|

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法律状态:
2017-02-28| PLFP| Fee payment|Year of fee payment: 2 |

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2017-04-28| PLSC| Publication of the preliminary search report|Effective date: 20170428 |

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2017-10-31| PLFP| Fee payment|Year of fee payment: 3 |

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2018-10-30| PLFP| Fee payment|Year of fee payment: 4 |

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2019-10-31| PLFP| Fee payment|Year of fee payment: 5 |

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2020-10-30| PLFP| Fee payment|Year of fee payment: 6 |

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2020-11-06| CD| Change of name or company name|Owner name: MARELLI AUTOMOTIVE LIGHTING FRANCE, FR Effective date: 20200925 |

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2021-10-29| 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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FR1560175|2015-10-23|

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FR1560175A|FR3042751B1|2015-10-23|2015-10-23|COMPACT LIGHTING AND / OR SIGNALING DEVICE FOR VEHICLE|FR1560175A| FR3042751B1|2015-10-23|2015-10-23|COMPACT LIGHTING AND / OR SIGNALING DEVICE FOR VEHICLE|

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PCT/FR2016/052760| WO2017068309A1|2015-10-23|2016-10-24|Compact lighting and/or signalling device for a vehicle|

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CN201680061927.3A| CN108351085B|2015-10-23|2016-10-24|Compact lighting and/or signaling device for a vehicle|

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EP16806224.8A| EP3365596B1|2015-10-23|2016-10-24|Compact lighting and/or signalling device for a vehicle|