FR3031794A1 - LIGHT GUIDE COMPRISING SECONDARY LIGHT GUIDING PART INTENDED TO FIX THIS GUIDE - Google Patents

Abstract

The present invention relates to a light guide 201 of a motor vehicle light device, comprising: a main light guiding portion 210 comprising an input diopter 212 intended to receive light rays from a light source and a light source main output diopter 218, the main guide portion being arranged such that a first portion of the light rays Ri passing through the input diopter is guided to the main output diopter, a guide secondary portion 220 of light having a fixing portion for fixing the light guide in a housing of the light device (260) of a motor vehicle, the main guiding part and the secondary guiding part being arranged in such a way that a second part of the spokes light (R2; R3) passing through the input diopter is guided inside the secondary part.

Description

The present invention relates to the field of light guides, in particular of a motor vehicle light device. In particular, the present invention relates to a light guide having a main portion and a secondary portion adapted to fix the light guide in the housing of the motor vehicle light device. The invention also relates to a vehicle light device comprising such a guide. JP2012190761 discloses a vehicle light device in which an intermediate guide transmits a light flux along its length. This intermediate guide carries terminal guides and also includes prisms for redirecting certain rays of this flow within these terminal guides. The design of this intermediate guide is therefore very important because it is he who ensures the distribution of light in these terminal guides. The presence of fixations on this guide is more likely to generate parasitic lights. The technical problem that the invention aims to solve is therefore to improve the fixing on the light-carrying guide to other guides connected to it, in particular to reduce parasitic rays. For this purpose, a first object of the invention is a motor vehicle light guide light guide, comprising: a main light guiding portion comprising an input diopter for receiving light rays of a light source and a main output diopter particularly in front of the input diopter, the main guide portion being arranged so that light passing through the diopter of a first portion of the input diopter is guided main exit and pass through it, - a light-guiding sub-portion having to fix the guide of a fixing portion for light in a housing of the motor vehicle light device, the main guiding part and the guiding secondary part being arranged of in such a way that a second part of the light rays passing through the input diopter is guided inside the secondary part. Thus, a portion of the attachment stresses are carried by the light guiding abutment. The main part is therefore less prone to emit uncontrolled parasitic rays. According to one aspect of the invention, the guiding secondary portion comprises decoupling means distributed along a decoupling portion of the guiding secondary portion so that rays escape along it. According to an advantageous arrangement of the invention, the light guide secondary portion is integral with the main light guiding portion. According to one embodiment of the invention, said guide secondary portion is a bracket for fixing said light guide. Usually, the brackets are not used to guide the light and diffuse it. In the state of the art, many solutions are often cited to hide these tabs, to prevent rays from entering or obscuring the rays that may escape. The solution according to the invention therefore takes the opposite of the prior art by promoting instead the passage and emission of rays arriving on these fastening tabs. It should be noted that the invention also makes it possible to extend the surface from which the light rays emerge, thus making it possible to enlarge the illuminating surface and / or to generate a luminous halo in the luminous device. This is even more advantageous and surprising in the context of a bracket. In this case, the invention may optionally have one or more of the following characteristics: the fixing portion is integral with the decoupling portion, said fixing portion comprising a fixing means intended to be fastened directly or indirectly to the housing; the light device; the invention is particularly advantageous in this case because one can mold the guide in one piece; moreover, the entrance of the rays is all the more efficacious in this secondary part; it is also for this reason a realization even less obvious to the skilled person, who sought until now to avoid sending rays in a fixing portion, especially in the case of a bracket; the fixing means is: an ear or a barrel, in particular adapted to receive a fixing rod, in particular a tenon, a screw or a rivet, or a post or a barrel adapted to nest in a complementary form; it is simple means to achieve by molding; the guiding secondary part forms at least one recess between said decoupling portion and the fixing means; this recess allows a controlled leakage of the rays at the level of this recess, and to choose where the rays will be able to go away; the main guide portion comprises a reflection portion adapted to reflect said second portion of the light rays 5 to and within said guide secondary portion; it is an embodiment for deflecting a portion of the light rays in the guide secondary portion; this reflection portion forms a narrowing of the main guide portion so that it intercepts a portion of the light rays from the input diopter; this mode makes it possible to simply carry out the reflection portion; the main guiding part comprises: an upstream portion extending from the input diopter to said reflection portion, a downstream portion extending from said reflection portion to the main output diopter, the downstream portion presenting a thickness less than that of the upstream portion; this makes it easier to achieve shrinkage; the rear of the guide secondary portion joins said upstream portion at an acute angle from the outside of the guide, and the front of the guide abutment joins said upstream portion forming a curve whose rope forms an obtuse angle with said downstream portion, seen from outside the guide; the reflection portion is formed by an inclined pan; the reflection portion is opposite said junction zone; the guiding abutment is curved and is, seen from the outside of the guide, concave at the front and convex at the rear; the downstream and upstream portions of the main guiding part and / or the guiding secondary part are in the form of plates, in particular flat or curved; the downstream and upstream portions of the main guide part and / or the guide secondary part are in the form of rods, in particular rectilinear or curved rods. The invention also relates to a vehicle light device comprising a light guide according to the invention. This light device may for example be a road lighting device, including a projector, or a signaling device, including a rear light. The vehicle light device according to the invention may optionally have one or more of the following characteristics: it comprises a casing formed by a casing and a casing closing window, comprising a support fixed on the one hand to the casing and to the casing; on the other hand, to the attachment portion of said light guide; The fixing portion comprises a fastening means, the support and the fixing means of said light guide being nested one inside the other; this attachment is simple to perform, in particular it facilitates the molding of the fasteners; a screw passes through the nested portion of said support and said attachment means; this makes it possible to secure the fixation; an occluder is positioned in front of the fixing means of said light guide so as to conceal this fixing means for an observer outside said luminous device; The recess and said concealer are arranged in such a way that the rays issuing at the recess and between the recess and the fixing means are obscured by said concealer; this is particularly advantageous in the context of the invention, since the attachment is offset by a diffusing secondary portion and the remaining rays reaching its end will be absorbed by this occulter; it comprises said light source, in particular a light-emitting diode, arranged to emit light rays through said input diopter; the first portion of light rays form, when leaving the main exit diopter, part or all of a signaling and / or lighting function of the road, in particular a stop light, a direction indicator and / or a reversing light; it comprises a casing formed by a casing and a casing closing window, said guiding secondary part comprising decoupling means distributed along this decoupling secondary part so that rays escape along the same. these rays forming an illumination halo of the interior of said envelope; this makes it possible to confer a night signature enabling the optical components and the mask (s) of the night light device to be seen; this is particularly advantageous in embodiments according to which the vehicle light device is a signaling device, such as a rear light, or a road lighting device, such as a searchlight; the vehicle light device comprises a mask covering a portion of the main guide portion and wherein said reflection portion is arranged such that its outer surface forms a stop on which said mask is positioned; the number of particular portions to be molded is thus minimized, which makes it possible to simplify the molding of the parts, in particular of the lightguide according to the invention, but also the number of positions to be made during the assembly of the vehicle light device; the mask is a sleeve in which the main guide portion is fitted; the guide thus serves also precise positioning to the mask; according to an exemplary embodiment, the mask comprises a complementary shape in contact with the outer surface of the reflection portion; it is thus simply the positioning of the mask when it is fitted; - The vehicle light device is a traffic light, including a vehicle rear light, a road lighting device, including a projector, or a lighting device of the interior of the passenger compartment of a vehicle. vehicle, including a ceiling lamp or wall lamp. Another object of the invention is a vehicle comprising a light guide and / or a light device according to the invention. The terms "upstream" and "downstream" in the present application refer to the direction of travel, along a light-guiding portion, of rays from the light source. The terms "forward" and "backward" refer to the direction of light emission from the input diopter of the main guide portion to its main output diopter. Other features and advantages of the invention will appear on reading the detailed description of the following nonlimiting examples, for the understanding of which reference will be made to the appended drawings, among which: FIG. 1 represents a detail of the Figure 2 and also a light guide according to the invention attached to a support. FIG. 2 shows a vehicle light device according to the invention with a light guide according to the present invention. - Figure 3 shows a detail of the light guide according to one embodiment of the invention, including the junction between the main guide portion and the secondary guide portion, seen in perspective. FIG. 4 shows a light guide according to an alternative embodiment of the junction between the main guide portion and the secondary guide portion illustrated in FIG. 3, viewed in perspective. FIG. 5 shows a longitudinal section of the light guides of FIG. 4 or 5. FIGS. 1 and 2 illustrate an implementation of a first light guide 201 according to the invention, in a vehicle light device 260 according to FIG. the invention. This light device 260 comprises a housing 262 and a closing window 264, which closes a front opening of the housing 262. The housing 262 and the closing window 264 20 thus delimit an envelope 261 of the light device 260. This closing window 264 is in transparent material and can be in polymer or glass. The first light guide 201 according to the invention is placed inside this envelope 261. It is supported in this housing 262 by a support. This support can be of different natures. In the illustrated example, this support is a second light guide 201 '. In particular but without limitation, this second light guide 201 'is also a light guide according to the present invention, that is to say integrating all or part of the listed characteristics in relation to the first light guide 201 As illustrated in FIG. 1, according to an exemplary embodiment of the invention, the first light guide 201 comprises a main guide portion 210 fixed by means of a fixing portion formed by a light guide secondary portion 220, this fixing part forming a fixing lug. In other words, the first light guide 201 has a fixing lug inside which are propagated light rays R2 and R3, and is therefore also a light guiding part. The first light guide 201 is arranged to allow the propagation of light in this main portion 210, for example by internal reflection, from an input diopter 212 to a main output diopter 218. The light guide according to the invention, and in particular the first light guide 201, is intended to receive light rays R1, R2, R3 from a light source 251. These rays R1, R2 first pass through the input diopter 212 , of the main guide portion 210, and then propagate inside a first portion, said upstream portion 214, of the main guide portion 210. This upstream portion 214 extends from the input diopter 212 , up to a reflection portion 216, and up to a junction zone 222 of the main guide portion 210 and the attachment portion 220. In alignment with this upstream portion 214, the main guide portion 210 extends downstream of the portion of refle xion 216 by a downstream portion 217. The latter ends with the main exit diopter 218. This reflection portion 216 makes it possible to intercept a second portion of radii R2, R3, the first portion of radii R1, being that which is not intercepted. Thus, the first portion of the rays R1 will pass through the main guide portion 210, next to this reflection portion 216, and propagate in the downstream portion 217, to the main output dioptre 218.

The light guide 201 is for example arranged so that these light rays R1 are the majority of the rays R1 and R2, R3, received by the input diopter 212, so that the light guide 201 can achieve, alone or in part , a signaling light beam or road lighting. On the other hand, the second portion of radii R2, R3, will meet the reflection portion 16, 116 and be reflected by it. The reflection portion is arranged to return these rays R2, R3 to the junction zone 222 of the two guide portions. They will then enter the attachment portion 220, which also forms the guide secondary portion. This reflection portion 216 and the guiding secondary portion 220 are in particular arranged so that this second portion of radii R2 then propagates along the guide secondary portion 220. The secondary guide portion 220, and therefore the fixing lug of the light guide 201, comprises an attachment portion 229 comprising a fixing means, formed in this example by a first shaft 227 in which a nib 227 'of complementary shape fits. This pin 227 'comes from the support of the light guide 201 in the housing, that is to say the second light guide 201'. The post 227 'is also barrel-shaped and has a central hole aligned with the through hole of the first shaft 227. A screw 234 passes through the first shaft 227 and screws into the post 227'. As a result, the fixing lug / guiding abutment 220, and therefore the first light guide 201, is fixed in the light device 260. In addition, as illustrated, the second light guide 201 ', serves to support the first light guide 201. The guide secondary portion of the first light guide 201 has a decoupling portion.

As illustrated in FIG. 1, the decoupling portion is situated between the fixing portion 229 and the junction zone 222. It comprises, on its rear face, decoupling means, formed in particular by prisms 200. The radii R2, R3 intercepted and reflected by a reflection portion 216, will be deflected to the junction zone 222, cross the latter and enter the secondary guide portion 220, then propagate in this decoupling portion by internal reflection on its walls. However, as and when they progress, some of these rays R3 will encounter decoupling means, in particular faces of the prisms 200, arranged to return them to the front face 223 of the decoupling portion, with an angle such that they out of the fixing portion / guiding secondary portion 220 through this front face 223. These prisms 200 are distributed along or on the extent of the decoupling portion of the fastening portion, or guide secondary portion 220, for example on the extent of the rear face of the decoupling portion of the guiding secondary portion 220, these prisms reflecting in this case the rays to the front face 223. Thus the front face 223 of this decoupling portion will radiate on any its length, or over the entire extent of this front face 223, and thereby generate a luminous halo.

This front face 223 of the decoupling portion is concave from the outside, its concavity being turned towards the closing mirror 264. This will make it possible to generate a luminous halo in the front space 265 of the light device 260, situated between the decoupling portion and the closure glass 264. This will thus create a diffuse illumination of the optical elements and masks 240, 240 ', in front of this decoupling portion. These optical elements and these masks are visible during the day through the closing glass. According to the embodiments including the decoupling portions, as the example shown, they will also be visible at night. Their shapes can therefore also be used for a night signature.

The second light guide 201 'is also a guide according to the invention, it has a main guide portion 210' from which extends a guide secondary portion 220 'forming a fixing portion. These two guide portions join at a junction zone 222 '.

Vis-à-vis the latter is arranged an inclined section 216 ', to return in the guide secondary portion 220' a portion of the set of r'l rays arriving from the input diopter 212 'of the second guide of light 201 '. The pan is inclined in that a non-zero angle shape relative to the extension direction of the main portion of the light guide. This fixing portion or guiding secondary portion 220 'also comprises, on its rear face, decoupling means 200', distributed along a decoupling portion between the post 227 'and the junction zone 222' of the second guide. light 201 '. This decoupling portion of the guide secondary portion 220 'of the second light guide 201' also has a concave shape facing the closing lens 264 and also generates a light halo of the same type as that generated by the first light guide 201 In this embodiment, the first light guide 201 is located below, along a vertical axis, the second light guide 201 '. The fixing portions, or guiding abutments 220 and 220 ', leave from the corresponding junction areas 222, 222' towards the rear, bending upwards, for the first light guide 201, and towards the back, curving downwards, for the second light guide 201 '. This will generate respectively a luminous halo upwards and forwards and a luminous halo downwards and forwards. Overall, the entire space before 265 will be illuminated. It is even possible to place elements, such as masks, or optical elements, in this space before 265 while maintaining a luminous halo diffusing around them. To reinforce this aspect, the decoupling portions of these two light guides 201 and 201 'are arranged so as to form together a single concavity turned towards the closure glass 264. To hide the fixing between the barrel 227 and the pin 227 ', it is possible to place a concealer with an occultation portion 230 in front of this shaft 227 and this pin 227'. According to the exemplary embodiment illustrated, this occluder has a passage 231, such as a through hole or a notch, through which the pin 227 'is connected to the decoupling portion of the secondary guide portion 220' of the second light guide 201 '. Behind this passage, the occluder has an ear 232 whose through hole is traversed by the fixing screw 234, and sandwiched between the shaft 227 of the first light guide and the head of the screw 234. Generally speaking, beyond the illustrated example, the fixing lug of the first light guide, its support and the concealer are fixed in a linear stack, in particular each comprising an orifice, their orifices being traversed by a single fastening means , such as a screw. According to an exemplary embodiment, each guide secondary portion 220, 220 'of these light guides 201, 201' has a branch 226, 226 'between the corresponding decoupling portion and respectively the fixing shaft 227 and the fixing pin 227. The passage of one of these decoupling portions to the corresponding branch 226, 226 'forms a recess 225, 225', otherwise called edge. The spokes R2 guided by the second guide portions 220, 220 'to these recesses 225, 225' or up to these corresponding branches 226, will be likely to exit the light guide 201, 201 '. In the absence of occluder, not only they may exit uncontrolled, but still out the edge, they may create an undesirable light spot. The occultor previously described allows to hide these rays R2. In particular, in the arrangement illustrated in FIGS. 1 and 2, the occulting portion 230 has a vertical face and a horizontal face making it possible to obscure the undesirable rays. In the embodiment illustrated in FIGS. 1 and 2, the majority of the light rays entering the light guides 201 and 201 'exit through their exit dioptres 218 and 218', situated at the end of their downstream portions 217, 217. . In this example, these will allow the generation of a signaling beam, in particular to respect the light intensity distribution, also called photometry, of a signaling beam, in particular a stop light, or still a stop light for the first guide 201 and a reversing light for the second guide 201 '. These output dioptres 218 and 218 'may also include shots to disperse the light rays 25 around a global direction of emission of the beam and thereby expand it. For aesthetic reasons, the downstream portions 217, 217 'of the main guide parts 210, 210' are covered with a mask 240, 240 '. The latter is in the form of a sleeve, fitted on the corresponding downstream portion 227, 227 '. This mask has a recess 242, 242 ', able to abut against the narrowing forming the reflection portion 216, 216'. In this example, the reflection portions 216, 216 'being inclined faces, the recesses of the masks 242, 242', are also inclined faces. This makes it possible to create a limit to the fit of these masks 240, 240 'and to position them. In Figure 2, only the mask 240 'of the second light guide 201' is pushed to the end. The downstream portions 227, 227 'protrude from these sleeves. This is not necessary as their light beams can come out but it is easier to achieve. The sides of these masks 240, 240 ', oriented towards the center of the front space 265, namely in this example, the upper side of the mask 240 of the first light guide 201 and the lower side of the mask 240' of the second light guide 201 ', will be able to be illuminated by the luminous halo. To enhance the diffuse effect of the halo, it is possible to arrange these sides so as to make them reflective, for example by aluminizing them, or to make them diffusing. According to one embodiment, the mask 240 'of the second guide comprises an upper portion in this embodiment which also covers the upstream portion 214' of the main guide portion 210 '. This mask 240 'only covers the upper face of the upstream portion 214' but not the opposite face, here the lower face, of the upstream portion 214 'to allow easy fitting of the mask 240' on the downstream portion of the second guide 201. It is, however, possible to use an additional mask and insert 270 to mask this opposite face. The mask 240 'may include an aperture 244' and the upstream portion 214 'may include decoupling means, such as prisms and / or ridges, opposite this aperture 244'. These decoupling means are arranged to decouple another portion of the light rays guided in the upstream portion 214 'of the main guide portion 210', so that they exit through this opening 244 '. Thus, an additional luminous halo will be created in the envelope 261 of the vehicle light device 260. In the example illustrated in FIG. 2, this additional luminous halo radiates between the second light guide 201 'and the upper wall of the housing. 262. The light sources may be light-emitting diodes 251, 254, also called LEDs or LEDs. They are arranged vis-à-vis the input dioptres 212, 212 'of the light guides 201 and 201'. They are carried by electronic cards 252, 255, in particular connected to a power supply via connectors 253, 256. The input diopters 212, 212 'can be arranged to reduce the opening angle of the beam of rays. luminous crossing them. For example, they can form a collimator. For example, they may have parabolic portions whose focus passes through the photoemissive element of the corresponding LED 251, 254. FIGS. 3 and 4 illustrate an exemplary embodiment of the junction between the main part and the secondary part of a light guide 1, 101, according to one embodiment of the invention, notably like the guides 201 and 201 'of the luminous device illustrated in Figures 1 and 2. They also illustrate the overall shape of the light guides of the light device according to the invention. As previously described, each of the light guides of the light device according to the invention comprises a main light-guiding portion 10, 110 and a light-guiding secondary portion 20, 120 joining into a junction zone 22, 122. The Shape sections of these light guides along a longitudinal axis from their input diopter 12, 112, to their main output diopter 18, 118, is similar, and is illustrated in Figure 5.

The light guide secondary portion 20, 120, forms a light guide attachment portion (the attachment is not shown in Figures 3 to 5). The light guide of Figure 3 is a light guide formed of plates, namely that its main guide portion 10 comprises upstream portions 14 and downstream 17 planar. These upstream portions 14 and downstream 17 of the main portion of light guide 10 each comprise two extended faces joined together and defined by a peripheral edge. These extended faces can allow the propagation of light in this main part 10, for example by internal reflection, from the input diopter 12 to the main output diopter 18. These extended faces can be flat, as shown in FIG. 3. The section of these portions in a plane perpendicular to the overall direction of emission of the light beam by the light guide, is generally rectangular. Similarly, the guide secondary portion 20 is plate-shaped, in particular bent. The light guide 101 of FIG. 4 is a rod-shaped light guide, namely that its main guide portion 110 comprises upstream portions 114 and downstream portions 117 in the form of rods. These upstream portions 114 and downstream 117 may allow the propagation of light in this main guide portion 110, for example by internal reflection, from the input diopter 112 to the main output diopter 118. The section of these portions according to FIG. a plane perpendicular to the overall direction of emission of the light beam by the light guide, may for example be generally circular or oblong. Similarly, the guide secondary portion 120 is rod-shaped, in particular curved. In these two embodiments illustrated in FIGS. 3 and 4, the light guides 1 and 101 according to the invention are intended to receive light rays R1, R2 and Rn, R20 from a light source. These radii R1, R2 and Rn, R20 first pass through an input diopter 12, 112, of the main guiding part 10, 110, and then propagate inside the upstream portion 14, 114, of the main guide portion 10, 110. This upstream portion extends from the input diopter 12, 112, to a reflection portion 16, 116, and to the junction zone 22, 122 of the two parts of 10, 110 and 20, 120. In the alignment of this upstream portion 14, 114, the main guide portion 10, 110 extends downstream of the reflection portion 16, 116 by the downstream portion 17, 117. This The last ends in the main output diopter 18, 118. The reflection portion 16, 116, is formed by an inclined pan forming a narrowing of the main guide portion 10, 110. Thus, as can be seen in Figure 5 , the thickness of the downstream portion 17, 117 is smaller than that of the upstream portion 14, 114. This narrowing is an example of realizat an ion permitting a second portion of R2, R20 to be intercepted, the first portion of radii R1, Rn being that which is not intercepted. The second portion of radii R2, R20, meeting the reflection portion 16, 116 formed by the narrowing, will be reflected by the latter in the guide secondary portion 220 to then propagate along the latter. It should be noted that at the junction zone 22, 122, and downstream thereof, the surfaces of the main guide portion 10, 110 and the guide secondary portion 20, 120, downstream stops 21, 121. The rays impacting this downstream edge and the immediately surrounding area may have an angle of incidence such that they exit the light guide 1, 101.

To reduce this risk, the light guide 1, 101, according to the invention may have a particular arrangement. As can be seen in FIGS. 3 to 5, the guiding abutment 20, 120, extends from the junction zone 22, 122, in a rearward direction. Thus, the extension of the guiding abutment 20, 120 from the main guiding portion 10, 110, begins at this junction area 22, 122, having from this beginning a rearward orientation. Thus, when observed from outside the guide 1, 101, and from the rear thereof, the guide secondary portion 20, 120 forms with the upstream portion 14, 114 of the main guide portion 10, 110, an acute angle (i.e., less than 90 °). On the other hand, when observed from outside the guide 1, 101, and from the front thereof, the guide secondary portion 20, 120 forms with the downstream portion 17, 117 of the main guide portion 10 , 110, an obtuse angle (that is greater than 90 °). For example, when the guide secondary portion 20, 120 is curved, as in these examples, it forms a curve whose rope 24, 124 forms an obtuse angle 13 with said downstream portion 17, 117, seen from outside the guide . This reduces the risk of leakage of certain light rays and increases the chances of reorienting them in the guiding abutment 20, 120. This also allows certain rays R1, Rn, passing next to the reflection portion 16 , 116, and which would impact the area at the downstream edge 21, 121, to be less subject to exit the light guide 1, 101, and continue to propagate in the main guide portion 10, 110, along the downstream portion 17, 117. In addition, this arrangement allows a return back of light rays with the same light guide, and without decoupling (ie without output) of the rays thereof . It should be noted that the guide secondary portion 20, 120 may be arranged in such a way as to use the rays R2, R20, which it guides, in different ways. For example, it may be arranged so that all or part of these spokes R2, R20 propagate to the end 28 of the secondary guiding portion, opposite the junction zone 22, 122, and leave it. , in particular to participate in a signaling function and / or lighting of the road. It may alternatively or cumulatively comprise decoupling means located on its rear and / or front surfaces, these decoupling means being arranged to allow the rays impacting them to leave the guide. When these decoupling means are distributed along the guide secondary portion 20, 120, they allow the spokes to exit over the entire extent of its rear surfaces and / or before. Note that in the example illustrated in Figures 1 and 2, it is the second light guide 201 'which carries a portion 20 of the weight of the first light guide 201 from above. According to an alternative embodiment, the first light guide 201 could support a portion of the weight of the first light guide 201 'from below, ie the second light guide 201' would rely on the first.

In general, the secondary guide portion of the light guide according to the invention serves to fix this guide in the housing, on the housing itself, or on another element, in particular on another light guide. . Fixing can be done over, under or on the sides. 30

Claims (17)

REVENDICATIONS1. A light guide (1; 101; 201; 201 ') for a motor vehicle light device (260), comprising: - a main guide portion (10; 110; 210; 210') of light comprising an input diopter ( 12; 112; 212; 212 ') for receiving rays of light from a light source and a main output diopter (18; 118; 218; 218'), the main guiding portion being arranged in such a way that a first portion of the light rays (R1; Rn; R'1) passing through the input diopter is guided to the main output diopter, - a guide secondary portion (20; 120; 220; 220 ') of a light having an attachment portion (229) for fixing the light guide in a housing (262) of the motor vehicle light (260), the main guide portion and the secondary guide portion being arranged such that a second part of the light rays (R2; R20; R3) passing through the input diopter itself t guided inside the abutment. A light guide according to claim 1, wherein the guide secondary portion (20; 120; 220; 220 ') comprises decoupling means (200; 200') distributed along a decoupling portion of that portion. secondary guide so that rays (R3) escape along it. A light guide according to claim 1 or 2, wherein the light guide secondary portion (20; 120; 220; 220 ') is integrally formed in one piece with the main guide portion (10; 110; 210 ') of light. A light guide according to any one of the preceding claims, wherein said guide secondary portion (20; 120; 220; 220 ') is a bracket for securing said light guide. A light guide according to claim 2, wherein the securing portion (229) is integrally formed with the decoupling means, said securing portion comprising a securing means (227; 227 ') for direct attachment or indirectly to the housing (262) of the light device (260). 15 6. A light guide according to claim 5, wherein the fixing means comprises: - an ear or a shaft (227), in particular adapted to receive a fixing rod, in particular a pin, a screw (234). or 20 a rivet, or - a post or barrel (227 ') adapted to fit into a complementary shape. The light guide according to claim 5 or 6, wherein said guide secondary portion (20; 120; 220; 220 ') forms at least one recess (225; 225') between said decoupling portion and the fixation. A light guide according to one of claims 1 to 7, wherein said main guide portion (10; 110; 210; 210 ') comprises a reflection portion (16; 116; 216; 216') adapted to reflecting said second portion of the light rays (R2; R20; R3) to and within said guide secondary portion. Vehicle light device (260) comprising a light guide (1; 101; 201,201 ') according to one of claims 1 to 8. Vehicle light device (260) according to claim 9, comprising a casing (261) formed by a casing (262) and a closing window (264) of the casing, comprising a support (201 ') fixed on the one hand to the housing and secondly to said fixing portion (229) of said light guide (201). Vehicle light device (260) according to claim 10, wherein the fixing portion (229) comprises a fixing means (227), and wherein the support (201 ') and the fixing means (227) of said light guide (201) are nested one inside the other. A vehicle light device (260) according to claim 10 or 11, wherein the carrier (201 ') is formed by a second light guide to which the first light guide (1; 101; 201,201') is attached. ). Vehicle light device (260) according to claim 11, wherein a concealer (230) is positioned in front of the fixing means (227) of said light guide (201) so as to conceal the fixing means (227). for an observer outside said light device. Vehicle light device (260) according to claim 13 in combination with claim 7, wherein the recess (225) and said concealer (230) are arranged in such a way that the radii (R2) protrude at the recess and between the recess and the fixing means (227) are obscured by said occulteur. Vehicle light device (260) according to any one of claims 9 to 14, wherein said light source (251, 254), in particular a light-emitting diode, is arranged to emit light rays through said diopter input (212, 212 '). Vehicle light device (260) according to any one of claims 9 to 15, wherein the first light ray portion (R1, R'1) forms as it leaves the main output diopter (218, 218 '). part or all of a signaling and / or lighting function of the road, in particular a stop light, a direction indicator and / or a reversing light. A vehicle light device (260) according to any one of claims 9 to 16, comprising an envelope (261) formed by a housing (262) and an enclosure closing window (264), said guide secondary portion ( 220, 220 ') comprising decoupling means (220, 220') distributed along said decoupling secondary portion so that rays (R3) escape therealong, these spokes forming a halo illumination of the interior of said envelope.