FR3022981A1 - HIGHER MASK OF OPTICAL MODULE OF MOTOR VEHICLE - Google Patents

Abstract

The invention relates to an optical module upper mask, the module being intended to emit a light beam in a given direction and overall direction, comprising: a protective cover arranged to protect at least a part of said module, and means upper support members arranged to cooperate with an optical projection element of said module for projecting said light beam and for maintaining this optical element in said module, the upper mask being characterized in that the protective cover and the upper holding means are come from matter.

Description

The technical field of the present invention is that of projectors with a lens illumination module, in particular for motor vehicles.

In optical modules for a motor vehicle, it is known to use reflectors to generate light beams of known photometry. During the assembly of such a module, elements external to the module may come into contact with this reflector, and therefore impose mechanical stresses on this reflector potentially able to deform its reflective surface and thus disrupt the photometry of the light beam. There is therefore a need to ensure the integrity of the reflector in the module when mounting this module in the vehicle.

The object of the present invention is therefore to solve the disadvantages of the prior art. The subject of the invention is therefore an optical module upper mask, the module being intended to emit a light beam in a given overall direction and direction, comprising: a protective cover arranged to protect at least a part of said module, and upper holding means arranged to cooperate with an optical projection element of said module intended to project said light beam and to maintain this optical element in said module, the upper mask being characterized by the fact that the protective cover and the Upper holding means came from matter. The invention thus offers protection via an aesthetic part to the reflector, this aesthetic piece coming between the reflector and other elements external to the module when it is mounted in the vehicle.

The invention may advantageously and not limitatively include one or more of the following features: the upper mask comprises a cavity forming the protective cover, the cavity having in particular a generally ellipsoidal shape; - The protective cover comprises a stiffening member; - The stiffening member is formed by a recess of the cavity; the upper holding means comprise a stop; the upper holding means comprise a loop; the upper holding means are arranged in staggered rows; the upper mask comprises at least one means for positioning the upper mask, able to position the upper mask in the module; the upper mask comprises at least two positioning means arranged laterally on either side of the optical axis; the upper mask comprises at least one clearance hole, preferably circular, providing a clearance space for a means for fixing an electronic card of the module projecting towards the upper mask; - The upper mask comprises at least one fixing hole, preferably circular, adapted to cooperate with a heat sink fixing means of the module for fixing the upper mask to said heat sink. The subject of the invention is also a lower optical module mask, the optical module being intended to emit a light beam along an optical axis and in a given direction, comprising: a reflector intended to cooperate with a light source of the optical module for generating the light beam, and - a styling piece having at least one lower positioning means for positioning in said module an optical projection element for cooperating with said reflector for projecting said light beam.

The invention may advantageously and not limitatively include one or more of the following characteristics: the reflector and the styling piece are made of material; the reflector has a first focus and a second focus, the reflector being arranged in such a way that light rays emitted by the light source when it is arranged at the first focus are reflected towards the second focus; the reflector has a generally ellipsoidal shape; the reflector may be formed of several facets of ellipsoidal type; the lower positioning means is an opening, in particular a rectangular opening, extending in the transverse direction of the lower mask; The invention also relates to a lower optical module mask, the optical module being intended to emit a light beam according to an optical axis and in a given direction, comprising: a reflector intended to cooperate with a light source of the optical module for generating the light beam, - a piece of style arranged at least in front of the reflector in the given direction, 20 in which the reflector and the piece of style came from matter. The invention may advantageously and non-limitatively include one or more of the following features: the reflector has a first focus and a second focus, the reflector being arranged in such a way that light rays emitted by the light source when it is arranged at the first focus are reflected to the second focus; the reflector has a generally ellipsoidal shape; the reflector may be formed of several facets of ellipsoidal type; the lower mask comprises at least one cavity, the reflector being formed by this cavity; - The lower mask has a staircase profile, the reflector being disposed on a rear high step and the style part being arranged on a low front step; the lower mask comprises at least one means for positioning the lower mask, able to position said lower mask in said module; - The positioning means of the lower mask is a stop means in the direction of the optical axis of the module, in particular a lug protruding from the lower mask; the positioning means is an oblong orifice along the optical axis of the module; the lower mask comprises at least one means for positioning the cover, able to position the cover on the lower mask; - The cache positioning means comprises at least one lug protruding from the lower mask, in particular in the same direction as the positioning means of the lower mask; - The cache positioning means comprises a slot made in the lower mask to be traversed by a portion of the cache; the lower mask comprises at least one clearance hole, preferably oblong in the direction of the optical axis of the module, providing a clearance space for a means for fixing an electronic card of the module projecting towards the lower mask; the lower mask comprises at least one fixing hole, preferably circular, adapted to cooperate with a means for fixing a heat sink of the module for fixing the mask below said heat sink; The subject of the invention is also an optical module, in particular for lighting and / or signaling for a motor vehicle, comprising a light source and a lower optical module mask, which is remarkable in that the mask 30 below is in accordance with the invention . According to the invention, the reflector of the lower mask is intended to cooperate with the light source to generate a Wmineux beam according to an optical axis and a given direction.

The invention may advantageously and not limitatively include one or more of the following features: the light source is disposed at the first focus of the reflector of the lower mask; - The dissipator comprises at least one positioning means cooperating with the positioning means of the lower mask for positioning the lower mask in the optical module. the means for positioning the dissipator is an oblong orifice along the optical axis of the module, the oblong orifice being traversed by the stop means of the lower mask. the means for positioning the dissipator is an abutment means, in particular a protuberance, passing through the oblong orifice of the lower mask. the dissipator supports an electronic card for supplying the light source with electricity, the card comprising an oblong orifice according to the optical axis of the module and placed opposite the oblong orifice of the dissipator and intended to be traversed by the stop means of the lower mask or dissipator. the module comprises a cache capable of making a cutoff, in particular of the code type, in the light beam produced by the module, the cache comprising positioning means cooperating with the mask positioning means of the lower mask for positioning the cache on the lower mask. - The cover has an orifice to be traversed by the positioning pin of the mask of the lower mask. the cover may comprise a branch intended to pass through the positioning slot of the mask of the lower mask. the module comprises a heat sink, the heat sink comprising a fixing orifice and means for fixing the lower mask to the dissipater, in particular a screw, the fastening means passing through the fixing hole of the lower mask and the fixing hole of the heat sink for attaching the lower mask 30 to the heatsink.

The invention also relates to an optical module, including lighting and / or signaling for a motor vehicle, comprising a light source and a lower mask according to the invention and an optical projection element. According to the invention, the reflector of the lower mask is intended to cooperate with said light source to generate a light beam along a given optical axis and direction, and the projection optical element is arranged to cooperate with the reflector to project said beam. luminous. The invention may advantageously and not limitatively include one or more of the following features: the light source is disposed at the first focus of the reflector of the lower mask. the projection optical element has at least one focal point, the lower positioning means of the projection optical element of the lower mask style piece being arranged so that the projection optical element is arranged so that its focal point is positioned at the second focus of the reflector of the lower mask. the projection optical element is a lens, in particular a convergent lens. - The projection optical element comprises a positioning member 20 cooperating with the lower positioning means of the lower mask style piece to position the projection optical element. the projection optical element comprises at least one lower tab extending into the opening of the style piece of the lower mask. the module comprises a heat sink, the heat sink having lower holding means of the projection optical element and in which the projection optical element comprises lower holding means cooperating with the lower holding means so as to keep the optical projection element on the heatsink. the lower holding means of the heat sink comprise at least one protrusion of this dissipator and in which the lower holding means of the optical projection element comprise at least one orifice formed in the lower leg of the optical projection element. said protrusion extending through said orifice. the lower holding means of the projection optical element comprise at least one protrusion formed in the lower leg of this element and in which the holding means of the heat sink comprise at least one orifice formed in this heat sink, said protuberance extending through said orifice. The subject of the invention is also an optical module, in particular for lighting and / or signaling for a motor vehicle, comprising a reflector, an optical projection element and an upper mask according to the invention. According to the invention, the protective cover of the upper mask at least partially covering, in particular completely, the reflector of the optical module and the upper holding means maintaining the optical projection element in the module. The invention may advantageously and not limitatively include one or more of the following features: the profile of the protective cover is generally identical to that of the reflector; the projection optical element comprise upper holding means cooperating with the upper holding means for holding the projection optical element in the optical module; - The upper holding means comprise at least one wall coming into contact with the stop; - The upper holding means comprise at least one protrusion, for example projecting from the wall, fitting into the handle; - The heat sink comprises at least one positioning means cooperating with the positioning means of the upper mask for positioning the upper mask in the optical module; the module comprises a heat sink, the heat sink comprising a fixing orifice and means for attaching the mask to the heatsink, in particular a screw, the fastening means passing through the fixing hole of the upper mask and the fixing orifice; heat sink to attach the top mask to the heatsink. The subject of the invention is also an optical module, in particular for lighting and / or signaling, of a motor vehicle, the optical module being intended to emit a light beam according to an optical axis and a given direction, the optical module having a light source and an optical projection element, the projection optical element being adapted to cooperate with the light source to project said light beam, the optical module further comprising a heat sink adapted to dissipate heat emitted by said light source, the dissipator having lower holding means arranged to maintain the projection optical element in said module. The invention may advantageously and not limitatively include one or more of the following features: the heat sink has a stepped profile, the light source being disposed on a rear high step and the lower holding means being arranged on a low front step; The projection optical element comprises lower holding means cooperating with the lower holding means so as to maintain the projection optical element on the heat sink; the lower holding means of the heat sink comprise at least one protrusion of this dissipator and in which the lower holding means of the optical projection element comprise at least one orifice formed in a lower tab of the optical projection element. said protrusion extending through said orifice; the lower holding means of the projection optical element 30 comprises at least one protrusion formed in the lower leg of this element and in which the holding means of the heat sink comprise at least one orifice formed in this heat sink, said protuberance extending through said orifice; the module comprises an electronic card for electrically powering the light source, the electronic card being carried by the heat sink; the light source is mounted on the electronic card; the light source is directly mounted on the heat sink; the module comprising a lower mask provided with a fixing hole, the heat sink comprising a fixing orifice and means for fixing the mask below the dissipator, in particular a screw, fastening means passing through the lower mask fixing hole and the heat sink attachment hole for attaching the lower mask to the dissipator; the lower mask advantageously comprises a reflector, in particular integral, capable of cooperating with the light source to generate said light beam, the projection optical element being able to cooperate with the reflector for projecting said light beam; the lower mask being provided with at least one positioning means of the lower mask in the module and the dissipator having at least one positioning means cooperating with the positioning means of the lower mask for positioning the lower mask in the optical module; the lower mask positioning means may be a lug projecting from the lower mask while the heatsink positioning means is an oblong hole. As a non-exclusive variant, the positioning means of the lower mask may be an oblong hole while the means for positioning the heat sink is a pin projecting from the heat sink; the lower mask comprises lower positioning means cooperating with lower positioning members of the projection optical element; the lower positioning means comprise an opening, in particular rectangular, extending in the transverse direction of the lower mask. In this case, the lower positioning members of the projection optical element comprise at least one lower tab extending into the opening of the lower mask; the module comprises an upper mask provided with at least one fixing hole, the upper mask at least partially covering the lower mask, the means for fixing the heat sink passing through the fixing hole of the upper mask to fix the upper mask to the dissipator; the upper mask is provided with at least one means for positioning the upper mask in the module and means for positioning the dissipator cooperating with the positioning means of the upper mask for positioning the lower mask in the optical module; the upper mask comprises upper holding means cooperating with upper holding means of the projection optical element; the upper holding means comprise an abutment and / or a loop. Where appropriate, the upper holding means of the projection optical element are a wall and / or an outgrowth; the module comprises an intermediate mask disposed between the upper mask and the lower mask; the intermediate mask comprises a fixing member and lateral cheeks for interception of the light; the lateral cheeks each comprise a positioning notch cooperating with a lateral rib of the projection optical element for the positioning of said lateral cheek on the projection optical element; the lateral cheeks each comprise a lower positioning tab inserted into a positioning orifice of the cheek formed in the lower mask; - The fixing member of the intermediate mask comprises at least one positioning hole in which is inserted a positioning pin of the intermediate mask formed on the lower mask.

Other advantages and features will become more apparent from the following description of an alternative embodiment given by way of nonlimiting example, with reference to the appended drawings, in which: FIG. 1 is a three-quarter perspective view before an embodiment of a projection lens module according to the present invention; FIG. 2 is an upwardly exploded view of the projection lens module of FIG. 1; Fig. 3 is an exploded view downwardly of the projection lens module of Fig. 1; FIG. 4 is a front view of the front of the projection lens module of FIG. 1; FIG. 5 is a view in longitudinal section between the planes AA and BB shown in FIG. 4; FIG. and 7 are a view corresponding to Figure 3, simplified and exploded of a variant of the projection lens module. DETAILED DESCRIPTION OF THE INVENTION FIGS. 1 to 5 illustrate the principle of the invention and correspond to a preferred embodiment. They schematically illustrate a lighting and / or signaling module (1), fixed in a housing (not shown) of a projector, comprising a heat sink (10), a mask (20), a lens ( 30) and a light source (40). With reference to FIG. 5, the lighting and / or signaling module (1) comprises an optical axis (2). The heat sink (10) comprises at least one lens retaining means 30. The retaining means 12 is formed by a protrusion 12 which is intended to extend into a cavity 321 formed in the lens 30. Preferably, protrusion 12 takes the form of a leg, a finger, a pawn, or a rod. Preferably the section of the protrusion is rectangular, square, hexagonal, octagonal, or cross, with projecting or rounded edges. Preferably, the heat sink 10 comprises two protrusions 12. According to the embodiment shown in FIGS. 1 to 3 and 5, the protuberances 12 have the shape of an elongate longitudinal-shaped tab of Z whose section is rectangular with edges rounded, the free front portion of which engages in the cavity 321 of the lens 30. Optionally, an exit stop perpendicular to the flat surface of the front portion of the Z may be provided; This ensures that the more efficient lens 30 is held in force in the direction of the optical axis 2 of the lens. According to an alternative embodiment, as shown in Figure 6, the protrusions 12 are upwardly directed pins (in the direction of the axis Oz) These pins 12 is engaged in the cavities 321 of the The co-operation between the protuberances 12 and the cavities 321 makes it possible to block the movements 15 of the lens 30 in two directions. Preferably, the lens 30 comprises at least one lower tongue 32 and at least one cavity 321 formed in the lower tongue 32. Preferably, two cavities 321 are present in the lower tongue 32. According to the embodiment shown in FIGS. and 3, the lower tongue 32 comprises two open cavities 321 and oriented in the direction of the thickness of the tongue 32, cooperating with the two protrusions 12 in forward projection. In the variant illustrated in FIG. 6, the tongue 32 comprises two cavities 321 which are blind holes oriented along the height of the lens 30. A damping seal may be placed at the level of the contact surface 25 between the heat sink 10 and the lens 30 for damping vibrations due to the vehicle engine. The heat sink 10 has fins 11 of heat exchange on its underside. Preferably, the heat sink 10 comprises at least one positioning means for arranging the mask 20 on the heat sink 10 during assembly of the module 1. Preferably the positioning means is an outgrowth 13. Preferably the outgrowth 13 takes the form of a paw, a finger, a pawn, or a rod. Preferably the section of the protrusion 13 is rectangular, square, hexagonal, octagonal or cross, with projecting or rounded edges. In the embodiment shown in Figures 2 and 3, the heat sink 10 comprises two protrusions 13 having the form of cruciform fingers in section. The heat sink 10 further comprises at least one holding means for the mask 20 and the light source 40. Preferably the holding means is a screw thread 17 cooperating with a screw 50. The heat sink 10 has a second step 17 screw cooperating with a second screw 50 to maintain the mask. Preferably, the heat sink 10 comprises three sectors: a first rear sector substantially parallel to the optical axis; a second sector 16 forward substantially parallel to the optical axis having an altitude lower than the first sector. an intermediate sector 15 linking the first sector and the second sector. The term "substantially parallel" means that the angle between the optical axis and the first sector 14 and the second sector 16 is between -10 ° and + 10 °. In the embodiment illustrated in FIGS. 2 and 3, the optical axis is substantially normal to the intermediate plane 15 of the heat sink 10. By "substantially normal" is meant the fact that the angle between the optical axis and the plane defined by the intermediate sector 15 is between -80 ° and + 80 °. Preferably, the heat sink 10 comprises fins 11 in all or part of the first sector 14 and / or the second sector 16 and / or the intermediate sector 15. The mask 20 of the module 1 comprises at least two parts: an upper shell 21 and a lower shell 23. In the embodiment illustrated in FIGS. 1 to 5, the mask 20 comprises an upper shell 21, an intermediate shell 22 and a lower shell 23. The lower shell 23 comprises a reflecting surface 231 ensuring a lighting and / or signaling function. Preferably the reflective surface 231 is a parabolic reflector. The lighting and / or signaling function is fulfilled by the cooperation of the surface 231 with the light source 40. The latter is fixed and positioned on a printed circuit 41, itself fixed on the heat sink 10. Preferably the printed circuit has cooperating holes 411 with excrescences of the heat sink 10. Advantageously, the excrescences are the protrusions 13 described above. Preferably the printed circuit 41 has openings 42 cooperating with the screws 50. In the embodiment shown in FIGS. 1 to 5, the printed circuit 41 is held on the heat sink 10 by the cooperation between a screw thread 17 and a screw 50 which also acts as an electrical ground for the printed circuit board 41.

The light source 40 is preferably of the electroluminescence diode (LED) type, and it is located substantially on the optical axis of the lens 30. By "substantially located" it is meant that the distance between the light source 40 and the optical axis does not exceed 0.5 mm. This lighting and / or signaling function may be a day signaling function, commonly referred to as the DRL (the English acronym for "Daytime Running Light"), a signaling function commonly known as a "night light", a crossover function, commonly referred to as a "code", a function commonly referred to as a "road". The reflecting surface 231 thus ensures the formation of a lighting beam and / or signaling directed towards the front of the vehicle. The lower shell 23 further comprises an opening 232 for passing the lower tongue 32 of the lens 30. As is more particularly visible in Figure 5, the opening 232 of the lower shell 23 blocks the lens 30 in the direction of the optical axis of the lens 30.

Preferably, the lower shell 23 comprises holes 234 cooperating with the positioning means 13 of the heat sink 10 to facilitate the assembly of the module 10. In the embodiment shown in Figures 2 and 3, the holes 234 have a diameter greater than that of the cruciform fingers 13. Preferably, the lower shell 23 comprises openings 235 cooperating with the holding means of the heat sink 10 for the good behavior of the elements of the module 1 during its use.

In the embodiment illustrated in Figures 2 and 3, the lower shell 23 comprises positioning means for arranging the intermediate shell 22 on the lower shell 23 during assembly of the module 1. Preferably, the positioning means take the shape of a paw, a finger, a pawn, or a stem. Preferably, the section of the protrusion is rectangular, square, hexagonal, octagonal, or cross, with projecting or rounded edges. In the example shown in Figures 2 and 3, the positioning means 233 are cruciform fingers in section. The intermediate shell 22 of the module 1 is a U-shaped part. Preferably, the base of the U comprises holes 234 cooperating with the positioning means of the heat sink 10 in order to facilitate the assembly of the module 10. In the embodiment shown in Figures 2 and 3, the holes 221 have a diameter greater than that of the cruciform fingers 13. Preferably, the intermediate shell 22 has at least one hole 222 on at least one branch of the U cooperating with the cruciform pins 233 of the lower shell 23. Preferably, the hole 221 is present on each branch. The intermediate shell 22 rests on the lower shell 23 and makes it possible to position the upper shell 21. Preferably, the two branches of the U come to pinch the lens 30. In the embodiment illustrated in FIGS. 1 to 5, the ends of the branches U opposite the base of the U comprise a side cheek with a notch cooperating with a stop of the lens so as to partially cover at least the lateral faces of the lens 30. Preferably, the intermediate shell 22 is opaque to obscure the LEDs on the side of the module. In the example illustrated in Figures 1 to 4, the intermediate shell 22 is black. The upper shell 21 comprises at least one abutment 212 accommodating behind at least one upper tongue 31 of the lens 30. Preferably, the upper shell 21 comprises at least one abutment 211 being lodged in front of at least one upper tongue 31 of the lens 30. Preferably, the upper shell 21 comprises an abutment 211 and two parallel stops 210 arranged in a staggered manner abutting against the edges of the upper tongue 31 of the lens 30. In the preferred embodiment illustrated in FIGS. , the stop 211 is a loop cooperating with an outgrowth 311 situated on the front face of the upper tongue 31 of the lens 30, said protrusion 311 snapping into said snare.

The upper shell 21 rests on the intermediate shell 22 and is supported on the upper tongue 31 of the lens 30 so that the lens 30 is held by vise between the projections 12 of the heat sink 10 and the upper shell 21 of the mask 20 Preferably, the upper shell comprises holes 214 cooperating with the positioning means 13 of the heat sink 10 in order to facilitate assembly of the module 10. In the embodiment shown in FIGS. a diameter greater than that of the cruciform fingers 13. The lens 30 comprises at least one lower tongue 32 provided with at least one hole 321 cooperating with the protrusion 12 on the heat sink 10 so as to block the lens in at least two axes. The lens 30 further comprises at least one upper tongue 31 cooperating with at least one stop 21X so as to block the lens along a third axis different from the two previous ones. In the preferred embodiment shown in Figures 2 and 3, the tongues 31 and 32 of the lens 30 are located on the opposite ends of the lens.

Preferably, the lens 30 also includes an edge 33 located on the rear face of the orthogonal projection lens 30. The lower part of the border 33 is in contact with the lower shell of the mask 23 to prevent the lens 30 from tilting towards the rear of the module 10. The assembly of the various parts described above to obtain the module 25 lighting and / or signaling 1 is as follows: - the printed circuit 41 comprising the light source 40 is positioned with the fingers 13 on the first sector 14 of the heat sink 10, then a screw 50 can fix the printed circuit board 41 on the heat sink 10, the lower shell 23 is then positioned on the printed circuit board 41 with the fingers 13 on the first sector 14, the lower tongue 32 of the lens 30 is inserted into the opening 232 of the lower shell, the intermediate shell 22 is added to the lower shell 23, and positioned by means of the fingers 13 of the heat sink 10, and then the upper shell 21 also guided by the fingers thermal gripper snap on the upper tongue 31 and rests on the intermediate shell 22, - the assembly is held by screwing screws 50 passing in the screw threads 17. In the embodiment shown in FIGS. 5, when the light source 40 is on, it emits light rays towards the reflector 231. The reflector returns the light rays towards the front of the vehicle to fulfill a lighting and / or signaling function. In their path, the light rays pass through the projection lens 30 held in a vice between the tabs 12 of the heat sink 10 and the upper shell 21 of the mask 20.

The present invention makes it possible in particular to produce modules and lighting projectors, in particular for equipping motor vehicles. Finally, it goes without saying that the lighting and / or signaling module according to the invention can be adapted, and that the examples which have just been given are only particular illustrations which are in no way limiting to the fields of application. application of the invention. Thus, in particular: the beams generated by the module or modules which have been described above may constitute beams complementary to beams generated by incandescent or discharge lamp devices, the beams generated by the or the modules which have been described above can constitute together lighting and / or signaling beams. Mounting of the Invention: The PCB (acronym for "Printed Circuit Board" designating the printed circuit board) is screwed onto the heat sink. The projection lens is assembled with the hubcap thus forming the subassembly 1. Then one successively adds the upper shell to the subassembly 1. Then the brake is fixed to the upper shell thus obtaining the subassembly 2. The Subassembly 2 is inserted in Z on the heat sink and then pushing the heat sink in X to lock the lens. We add the upper shell at this time. The assembly is then screwed then forming the module. Mounting on the plate: The aluminum plate pre-equipped with the cradle made of polymer material, is returned. The modules "kink" (of the English vriller, to designate the oblique cut 10 of the beam code) and "route" are inserted on the plate in X. During this operation the modules are upside down. They are held in Z by ribs coming from the plate in contact with the upper shell. The modules are then screwed on the plate. Then the module "flat" (flat English, to designate the flat cut of the beam code) is inserted in X and clipped on the cradle. The adjustment screw of the "flat" module is then inserted and screwed into the "flat" module.

Claims (17)

REVENDICATIONS1. Upper mask (21) of optical module (1), the module (1) being intended to emit a light beam in a given direction and overall direction, comprising: - a protective cover arranged to protect at least a part of said module, and - upper holding means (211, 212) arranged to cooperate with an optical projection element (30) of said module (1) for projecting said light beam and for maintaining this optical element in said module (1), the mask upper (21) being characterized in that the protective cover and the upper holding means (211, 212) are integral. 2. Upper mask (21) according to claim 1, wherein the upper mask (21) comprises a cavity forming the protective cover, the cavity 15 having in particular a generally ellipsoidal shape. 3. Upper mask (21) according to one of claims 1 or 2, wherein the protective cover comprises a stiffening member. 20 4. Upper mask (21) according to claim 3 in combination with claim 2, wherein the stiffening member is formed by a recess of the cavity. 5. Upper mask (21) according to one of the preceding claims, wherein the upper holding means (211, 212) comprise a stop (212). 6. Upper mask (21) according to one of the preceding claims, wherein the upper holding means (211, 212) comprise a loop (211). 30 7. lower mask (21) according to one of the preceding claims, wherein the upper holding means (211, 212) are arranged staggered. 8. Upper mask (21) according to any one of the preceding claims, wherein said upper mask (21) comprises at least one positioning means of the upper mask, able to position said upper mask (21) in said module (1) . 9. Upper mask (21) according to one of the preceding claims, wherein said upper mask (21) comprises at least one clearance hole, preferably circular, providing a clearance space for a means of fixing an electronic card of the module (41) projecting towards the upper mask (21). 10. Upper mask (21) according to one of the preceding claims, wherein said upper mask (21) comprises at least one fixing hole, preferably circular, adapted to cooperate with a means of fixing a heat sink (50). ) of the module for fixing the upper mask (21) to said heat sink (10). 11. Optical module (1), particularly lighting and / or signaling for a motor vehicle, comprising a reflector (231), a projection optical element (30) and an upper mask (21) according to one of the claims. previous, the protective cover of said upper mask at least partially covering, in particular totally, the reflector of the optical module (231) and the upper holding means (211, 212) holding the optical projection element (30) in the module ( 1). 25 12. Optical module (1) according to the preceding claim, wherein the profile of the protective cover is substantially identical to that of the reflector (232). 13. Optical module (1) according to one of claims 11 or 12, wherein 30 the projection optical element (30) comprises upper holding means cooperating with the upper holding means to maintain the optical projection element (30) in the optical module (1). 14. Optical module (1) according to claim 13, the upper mask (21) being a mask according to claim 5 and wherein the upper holding means comprise at least one wall (31) coming into contact with the stopper (212). ). 15. Optical module (1) according to one of claims 13 or 14, the upper mask (21) being a mask according to claim 6 and wherein the upper holding means comprise at least one protrusion (311), for example 10 protruding from the wall (31), fitting into the handle (211). 16. Optical module (1) according to one of claims 11 to 15, the module comprising a heat sink (10), the upper mask (21) being an upper mask according to claim 8, the dissipator (10) comprising at least Positioning means (13) cooperating with the positioning means of the upper mask for positioning the upper mask in the optical module (1). 17.An optical module (1) according to one of claims 11 to 14, the lower mask (23) being a lower mask according to claim 12, the module 20 comprising a heat sink (10), the heat sink (10) comprising a fixing orifice (17) and means for fixing the upper mask to the dissipator (50), in particular a screw, the fastening means passing through the fixing hole of the upper mask and the mounting orifice of the heat sink (17) for fix the upper mask (21) to the dissipator (1). 25