FR3026069A1 - VEHICLE OPTICAL BLOCK WITH TRANSLATABLE LUMINOUS ROD LIGHTING DEVICES - Google Patents

Abstract

An optical unit (BO) equips a vehicle and comprises a housing housing at least two lighting devices (DE) each comprising a rod (TL) adapted to transfer on one side face photons from a source and comprising an end provided with of a first element (E1). This optical block (BO) furthermore comprises a reception piece (PA) secured in the housing and comprising a wall (PP) provided with at least two through-holes (TT) capable of partially accommodating the first elements (E1). , and a support piece (PS) fixedly secured to the reception part (PA) and to which is fixedly secured at least one electric motor (ME) adapted to translate at least one of the rods (TL) in one direction chosen to place it partially above the wall (PP) so that it participates in at least one photometric function.

Description

The invention relates to vehicle optical units comprising at least two movable lighting devices. BACKGROUND OF THE INVENTION Here, the term "lighting device" means a light device that can provide in a vehicle optical unit a lighting function and / or a signaling function and / or a decorative light effect. Certain vehicle optical units, optionally of the automotive type, comprise an internal space in which lighting devices having a movable part intended to participate in at least one photometric function when it is placed in at least one predefined position are fixedly installed . Since some photometric functions require that the photons be delivered on a specific area of the lens block ice, it is therefore necessary that the lighting devices that make them are initially positioned very precisely. However, as known to those skilled in the art, such initial positioning is complicated to achieve since it must be done inside the housing of the optical unit in an internal space which is generally small. In addition, once the optical block has been sealed, it becomes very difficult to readjust or adjust one of its lighting devices, so that it is frequently forced to replace it completely. . The object of the invention is in particular to improve the situation. In particular, it proposes for this purpose an optical unit intended to equip a vehicle and comprising: a housing, at least two lighting devices each comprising a rod capable of transferring photons originating from a source to a lateral face, and comprising an end provided with a first element, - a reception piece secured in the housing and comprising a wall provided with at least two through holes adapted to partially house the first elements, and - a support part secured to the reception room and to which is fixedly secured at least one electric motor adapted to translate at least one of the rods in a selected direction to place it partially above the wall so that it participates in at least one photometric function. The lighting devices can thus be installed in the laboratory or in the factory on a support piece which is then firmly fixed to a reception part before the assembly is introduced and fixedly secured inside a housing an optical block. This allows very precise positioning of the lighting devices without having to intervene in the housing. The optical unit according to the invention may comprise other characteristics which may be taken separately or in combination, and in particular: each rod may constitute, with the first associated element, a single piece; each rod may be associated with a source which is dedicated to its photon supply; each first element may have a shape that is at least semipyramidal on at least three sides; each first element may have a four-sided pyramidal shape; The wall of the reception part may comprise around its through holes sub-parts which define second elements each having a shape substantially identical to that presented by the first neighboring elements; its supporting part may comprise, on the one hand, at least one bar to which rods and at least one source are fixedly secured, and, on the other hand, a plate on which at least one electric motor is fixedly installed. comprising a drive shaft, and transfer means each comprising a displacement axis coupled to the drive shaft and arranged to translate this bar in the selected direction when rotated by the drive shaft ; - Its host part may include at least one opening adapted to allow access to the support piece to precisely position the rods relative to its wall. The invention also proposes a vehicle, possibly of automobile type, and comprising at least one optical block of the type of that presented above. Other features and advantages of the invention will appear on examining the detailed description below, and the accompanying drawings (obtained in CAD / DAO, hence the apparently discontinuous character of certain lines), on which FIG. 1 schematically illustrates, in a perspective view, an exemplary embodiment of a support piece of an optical unit before it is assembled to a reception room by means of the method according to the invention, FIG. schematically, in a perspective view, an exemplary embodiment of a reception part of an optical unit before its assembly to the support part of FIG. 1 by the method according to the invention, FIG. 3 schematically illustrates , in a perspective view in transparency, a part of the support part of FIG. 1, FIG. 4 schematically illustrates, in a perspective view, the technical assembly constituted by assembly of the support part of FIG. re 1 to the host part of Figure 2 through the method according to the invention, and placed in a first state said "retracted", and Figure 5 schematically illustrates, in a perspective view, the technical assembly of the Figure 4 placed in a second state said "deployed". The object of the invention is in particular to propose an optical block BO intended to equip a vehicle and comprising at least two mobile lighting devices DE.

In the following, it is considered, by way of non-limiting example, that the optical block BO is intended to equip a vehicle of automotive type. But the invention is not limited to this type of vehicle. It concerns indeed any type of vehicle comprising at least one optical unit with movable lighting devices. Furthermore, it is considered in the following, by way of non-limiting example, that the optical block BO is a vehicle rear light. But the invention is not limited to this type of optical block. Indeed, the optical block BO can also be a headlight (or front projector) or a front light.

As illustrated without limitation in FIGS. 1 to 5, an optical block BO according to the invention comprises at least two lighting devices DE, a support piece PS, a reception piece PA and a case (not shown). . The term "lighting device" is understood here to mean a light device capable of providing, in an optical block BO, a lighting function and / or a signaling function and / or a decorative light effect. As illustrated in FIGS. 1 and 3, each lighting device DE is installed on the support piece PS and comprises at least one rod TL and a first element E1. An exemplary non-limiting embodiment of a support piece PS, equipped with its lighting devices DE, is illustrated in FIG. 1. It will be noted that in this nonlimiting example the support piece PS comprises fifteen lighting devices DE distributed in two rows (respectively of seven and eight lighting devices DE). . As illustrated in Figure 3, each TL rod is adapted to transfer on a side face FL photons that are derived from a source SP. In the nonlimiting example illustrated in FIG. 3, each lighting device DE comprises its own source SP. But this is not obligatory. Indeed, the same source SP could supply several photons (see all) TL rods.

For example, each source SP may comprise at least one light emitting diode (or LED). But it could include at least one photon generation module of another type (such as for example a laser diode or a light bulb or an optical fiber or an oled).

Each TL rod comprises first EX1 and second EX2 opposite ends. Each first end EX1 is fixedly provided with a first element E1. It will be noted that each first element E1 can either be attached and fixedly secured to the first end EX1 of a rod TL, or constitute a single piece with the associated rod TL. In this latter alternative, the one-piece part can be made by molding or extruding a plastic material, such as PMMA. Each first element El serves at least a terminal reflector for the first end EX1 of the associated rod TL. The photons which reach the level of the first end EX1 can thus be reflected so that they can again circulate in the shank TL and exit through its lateral face FL after one or more other internal reflections. The reception part PA is fixedly secured in the internal space of the housing of an optical block BO and comprises a wall PP which is provided with at least two through holes TT adapted to partially accommodate and respectively the first elements El. The support piece FS is fixedly secured to the reception part PA, and at least one electric motor ME is secured to the support piece FS. An exemplary non-limiting embodiment of a reception piece PA is illustrated in FIG. 2. It will be noted that in this non-limiting example the reception piece PA comprises a technical frame CT secured to the wall PP and intended in particular to surround the FS support member with its lighting devices DE to protect the latter (as illustrated in Figures 4 and 5). The fixed attachment of the support member FS to the reception part PA may, for example, be done by screwing and / or clipping (possibly via pin (s)). The result of this fixed fastening is illustrated in FIGS. 4 and 5. The reception piece PA and the support piece FS (with its lighting devices DE) constitute what may be called a technical assembly ET. The fixed installation of the technical assembly ET in the housing can, for example, be done by screwing and / or clipping.

Each electric motor ME is adapted to translate at least one of the rods TL in a selected direction (here a substantially vertical direction (see Figure 5)), to place it partially above the wall PP of the room. PA home to participate in at least one photometric function. In the nonlimiting example illustrated in Figures 1 and 3, a single electric motor ME is responsible for causing the translation of all TL rods. But this is not obligatory. Indeed, several (at least two) electric motors ME could be responsible for causing the translation of 1 o several groups of TL rods or each TL rod could be associated with an electric motor ME dedicated to its only translation. Furthermore, in the example shown non-limitatively in FIGS. 1 and 3, the support piece PS comprises at least one bar BS, a plate PT, at least one electric motor ME and transfer means MT. On each bar BS are firmly fixed TL rods and at least one SP source. Each electric motor ME and the transfer means MT are fixedly installed on the plate PT. The transfer means MT each comprise a displacement axis AD coupled to a drive axis AE of the electric motor ME, possibly via at least one link axis AL. Each displacement axis AD is arranged to translate a (the) bar BS in the selected direction when it is rotated by the drive axis AE. It will be noted that in the example illustrated in non-limiting manner in FIGS. 1 and 3, the TL rods are installed on two translatable bars BS in the chosen direction and to which the sources SP (under the second ends EX2 of the rods TL) are also connected. . More precisely, each TL rod is here secured to a bar BS via a fixing piece PF, for example by screwing, gluing or clipping. Furthermore, the second end EX2 of each rod TL is arranged to be supplied with photons by the associated source SP which is placed under it (EX2) in a slot defined in the associated bar BS. But in an alternative embodiment each TL rod could be fed at a portion of its side face FL. Furthermore, each bar BS is fixedly secured here to several cylinders each having an internal thread in which is screwed a displacement axis AD of a transfer means MT which constitutes a kind of worm. When the electric motor ME operates, it rotates its drive axis AE, which causes the rotation of the various displacement axes AD of the transfer means MT, and thus a translation up or down of BS bars. This translation of the bars BS thus induces a translation of the TL rods upwards or downwards. Note that in this example all TL rods are translated substantially simultaneously because it is the same electric motor ME that causes their translation. In an embodiment variant not illustrated, the two bars BS could be associated with two electric motors ME independent of each other, so as to provide independent translations. In other non-illustrated embodiments, all the TL rods could be firmly attached to a single bar BS associated with a single electric motor ME, or the TL rods could be fixedly secured to at least three bars BS associated with a single electric motor ME or to different electric motors ME, so that they can be moved independently of one another. Note that in the nonlimiting example illustrated in Figures 1 and 3 to 5, the first elements El have a pyramidal shape with four sides, and the wall PP comprises around its through holes TT subparts defining second elements E2 each having a shape substantially identical to that presented by the first neighboring elements El. This choice of shape is essentially stylistic insofar as the first elements El are not intended, a priori, to light up because of the presence of photons from the TL rods and / or to transfer photons coming from the TL rods. This choice is intended to give the impression of the presence of scales when the first elements E1 are all in a retracted position in which they are substantially at the same level as the second adjacent elements E2, which corresponds to a first retracted state of the technical assembly ET illustrated in Figure 4. But other forms can be considered according to the stylistic needs. Thus, one can choose a shape at least semi-pyramidal to at least three sides, for example. When the first elements E1 are displaced relative to the second elements E2 (due to the translation of the associated rods TL), the technical assembly ET is in a second said extended state, illustrated in FIG. 5 and in which the rods TL transfer photons outward (at least in a predefined direction). It will be understood that the greater the translation of the TL rods, the greater the number of photons transferred to the outside is important and therefore the intensity of light offered by the technical assembly ET is important. This makes it possible, in particular, to perform different photometric functions as a function of the amplitude of the translation and / or of the number of translated TL rods and / or to implement adaptive functions, for example of the ARS ("Automotive Rear Signaling System") type. In which the light intensity is varied as a function of at least one parameter (such as, for example, the braking intensity, the type of road taken, or the external weather conditions). The assembly of an optical block BO according to the invention may, for example, be carried out in three steps. In a first step, at least two lighting devices DE are installed on a support piece PS, each comprising at least one rod TL and a first element E1, at least one source of photons SP, and at least one electric motor ME. (as well as optionally MT transfer means and at least one bar BS). In a second step, the support piece PS (with its lighting devices DE) is fixedly installed in a reception room PA which has a wall PP provided with at least two through-holes TT, partially positioning the first elements El in the corresponding TT through holes. In a third step, the technical assembly ET (PA reception room with the support piece PS (with its lighting devices DE)) is fixedly installed in the internal space of a housing of an optical block BO. Once the technical assembly AND fixedly installed in the internal space of a housing, this internal space is hermetically sealed by solidarisant fixed at least one ice, for example by screwing or gluing and / or clipping or welding (by example by ultrasound laser hot blade). This ice can be made of transparent plastic or synthetic material or glass. This assembly in three stages makes it possible to very precisely position, in the laboratory or in the factory, each lighting device DE with respect to a reception room PA, then to introduce and firmly and securely fix the latter (PA), and more precisely, the technical assembly ET of which it forms part, inside a box of an optical block BO. This advantageously ensures a precise and simplified positioning of all DE lighting devices in this housing. It will be noted that in order to improve the positioning accuracy of the lighting devices DE, this positioning may possibly be achieved in two stages. More specifically, it is possible to first fix each electric motor ME to the support piece FS and pre-position each rod TL, with the first element El associated, so that the latter (El)) is placed substantially at a height initial selected above the FS support piece. For this purpose, two cases can be envisaged depending on whether the lighting devices DE are independent in displacement from each other or constrained to be displaced in groups because they are secured to BS bars (as shown in FIGS. Figures 1 to 5). In the first case, it is possible to pre-position each lighting device DE by means of the electric motor ME which is dedicated to it. This pre-positioning can be done with respect to a predefined reference position. In the second case, the lighting devices DE are fixedly installed in a single predefined position on one or more bars BS, and each bar BS is then pre-positioned in a predefined reference position with respect to the plate FT by means of MV transfer means (s) and the electric motor (s).

Then, after fixedly securing the support piece PS to the reception piece PA to form a technical assembly ET, it is possible to finely position each rod TL, with the first element El associated, so that the latter (El)) is finally positioned precisely and partially in the corresponding through hole TT. In the first case mentioned above, it is possible to finalize the precise positioning of each rod TL (and thus of each first element El) with respect to the corresponding through-hole TT by means of the electric motor ME which is dedicated thereto. In the second case mentioned above, it is possible to finalize the precise positioning of each bar BS with respect to the first plate PT by means of the transfer means (s) MT and the electric motor (s). in order that the first elements El of lighting devices DE that it (BS) supports are found correctly positioned in the corresponding through holes TT. In either case, in order to facilitate the final positioning of the rods TL and their first elements E1 with respect to the wall PP (and more precisely its through holes TT), it is particularly advantageous, as shown in FIG. Limply in Figures 2 to 5, that the reception part PA comprises one or more OT openings clean (s) to allow access to the support piece PS. It will be understood that these openings 20 OT are intended to allow the passage of adjustment tools and / or finger (s) technicians.

Claims (10)

REVENDICATIONS1. Optical block (BO) intended to equip a vehicle and comprising a housing housing at least two lighting devices (DE), characterized in that each lighting device (DE) comprises a rod (TL) adapted to transfer on one side lateral view (FL) of photons originating from a source (SP) and comprising an end (EX1) provided with a first element (El), and in that it further comprises a reception piece (PA) solidly fixed in said housing and having a wall (PP) provided with at least two through-holes (TT) adapted to partially house said first elements (E1), and a support piece (PS) secured to said reception part (PA). ) and to which is fixedly secured at least one electric motor (ME) adapted to translate at least one of said rods (TL) in a selected direction to place it partially above said wall (PP) so that it participates in at least one photometric function. 2. An optical unit according to claim 1, characterized in that each rod (TL) constitutes with said first element (El)) associated a one-piece piece. 3. Optical block according to one of claims 1 and 2, characterized in that each rod (TL) is associated with a source (SP) which is dedicated to its photon supply. 4. Optical block according to one of claims 1 to 3, characterized in that each first element (El)) has a shape at least semi-pyramidal at least three sides. 5. An optical unit according to claim 4, characterized in that each first element (El) has a pyramidal shape with four sides. 6. An optical unit according to one of claims 1 to 5, characterized in that said wall (PP) comprises around its through holes (TT) sub-parts defining second elements (E2) each having a shape substantially identical to that presented by said first elements (El)) neighbors. 7. optical unit according to one of claims 1 to 6, characterized in that said support member (PS) comprises i) at least one bar (BS) to which are fixedly secured rods (TL) and at least one source (SP), and ii) a plate (PT) on which are fixedly installed at least one electric motor (ME) comprising a drive shaft (AE), and transfer means (MT) each comprising a displacement axis ( AD) coupled to said drive shaft (AE) and arranged to translate said bar (BS) along said selected direction when rotated by said drive axis (AE). 8. Optical block according to one of claims 1 to 7, characterized in that said reception room (PA) comprises at least one opening (OT) adapted to allow access to said support piece (PS) to precisely position said rods (TL) with respect to said wall (PP). 9. Vehicle, characterized in that it comprises at least one optical block (BO) according to one of claims 1 to 8. 10. Vehicle according to claim 9, characterized in that it is automotive type.