FR2977000A1 - Optical block e.g. headlight, for assuring main beam lighting function for car, has driving units for rotatably driving movable components on small angular sector to place components in closed position for jointly occulting light beam - Google Patents

Abstract

The block (BO) has a case to accommodate a source e.g. LED, providing a light beam. An occultation device (D) has movable components (EM) that are placed partially in the case around the source to occult the beam jointly when the components are placed in a closed position, where the movable components are made of transparent and light conducting material. The occultation device includes driving units (ME) for rotatably driving the movable components on a small angular sector to place the components in the closed position or in an open position in which the components do not occult the beam.

Description

The invention relates to vehicle optical units, possibly of automotive type, and more specifically those which are provided with occultation means. The term "optical block" here means optical equipment intended to equip a vehicle, possibly of automotive type, and comprising a housing housing at least a first source delivering a first light beam involved in a lighting function. It may be a projector as well as a fire (front or rear). It has been proposed to equip certain optical blocks of the aforementioned type of concealment means comprising two movable elements and drive means adapted to drive each movable element between at least one closed position, in which it partially obscures the first beam of light, and an open position, in which it does not obscure the first beam of light. Occultation means of this type are described in particular in patent documents FR 2387416, EP 1985913 and EP 2273186.

These occultation means are generally intended to control the intensity and / or the shape of the first light beam according to the respective positions of the moving elements with respect to the latter, in order to create a style effect and / or a function of special lighting and / or to prevent the outer face of the ice of the optical unit dirty when it is not used. When two movable elements are used to conceal (even partially) a beam of light, such as that which is dedicated to a high beam, these movable elements must each have a "front" portion arranged to conceal approximately half of the cross section of this beam of light. The dimensions of the front parts of these movable elements must therefore be relatively large and therefore they must be moved over angular sectors or relatively large distances (e) s. Therefore, for the two movable elements can be installed inside an optical block, it is essential that the housing of this optical unit has, around the first source, a free space large enough to allow their moving from their closed position to their open position, and vice versa, given their respective dimensions. Here, the term "free space" means an internal zone of the housing which is not traversed by a beam of light participating in a lighting function. However, such a free space is not always available, especially when the optical block is compact and / or provides several lighting functions. Furthermore, in order for the two mobile elements to be able to be installed outside an optical unit, it is essential either to provide a relatively large free space around the housing of this optical unit to enable their displacement from their closed position to their position. open position, and vice versa, given their respective dimensions, which is not always possible, especially in compact vehicles, and / or is unsightly, either to use relatively complex drive means and / or fragile and / or expensive.

The object of the invention is therefore to improve the situation by limiting the displacements of the mobile concealment elements. It proposes for this purpose a vehicle optical block (possibly automotive type) comprising a housing, housing at least a first source delivering a first beam of light, and occulting means adapted to occult at least partially, on order, this first beam of light. This optical block is characterized in that its means of concealment comprise: at least four movable elements which are housed at least partially in the housing around the first source and which are arranged so as to conceal, at least partially, the first beam of light when they are all placed in a closed position, and - driving means adapted to drive each movable element in rotation on a small angular sector to place it in the closed position or in an open position in which it does not block the first beam of light.

It will be understood that by using a large number (at least equal to four) of moving elements to conceal a first light beam together, their dimensions can be substantially reduced and therefore the amplitude of the angular sector on which one can significantly reduce must rotate them so that they stop obscuring this first beam of light. Therefore, it is no longer necessary to provide around the first source a free space of relatively large dimensions so that the movable elements can be moved from their closed position to their open position, and vice versa. This makes it possible to produce more compact optical blocks.

The optical block according to the invention may comprise other characteristics that can be taken separately or in combination, and in particular: its occultation means may comprise a number of moving elements that is between four and eight. For example, this number is six; each movable element may have a general shape of petal; the movable elements may comprise an intermediate portion rotatably mounted on the first source, and the drive means may comprise a rod, capable of displacing a ring, and links, the number of which is equal to that of the movable elements and which each comprise a first end which is rotatably connected to the ring and a second end which is rotatably attached to one of the movable elements so as to allow rotation of the latter towards one of its open positions and closed during a displacement of the ring induced by a displacement of the rod; - The drive means may be arranged to simultaneously drive on order all mobile elements. Alternatively, the drive means may be arranged to drive on order at least one of the movable elements independently of the others; at least one mobile element may comprise at least a second own source, when it is supplied with current, to generate visible light outside whatever the position in which this mobile element is placed; each movable element may be made of a transparent and light-conducting material, and may comprise a portion provided at least on one internal face with an opaque coating, and each second source may comprise at least one electroluminescent diode capable of generating light intended to propagate in the material in order to be transmitted externally by peripheral edges and / or salient edges of the corresponding movable element; it can comprise at least two mobile elements each comprising at least one second source. In this case the second sources of these mobile elements can participate in the same optical function or different lighting functions. 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), in which: FIG. 1 schematically and functionally illustrates, in a perspective view of the front side, a part of an exemplary embodiment of an optical block according to the invention with its concealment means in the closed position, FIG. 2 schematically illustrates and functionally, in a perspective view of the rear side, the optical block portion of FIG. 1, with its means of concealment in the closed position, FIG. 3 schematically and functionally illustrates, in a perspective view of the front side, the optical block part of FIG. 1, with its means of occultation in the open position but with only a part of its drive means, FIG. 4 illustrates schematically and functionally In a perspective view of the rear side, the optical block portion of FIG. 1, with its means of occultation in the open position but with only a portion of its drive means, FIG. 5 schematically and functionally illustrates in a perspective view on the inner face side, a movable member of the occulting means of the optical block portion of Fig. 1, and - Fig. 6 schematically and functionally illustrates in a perspective view of the the internal face, an exemplary embodiment of the drive means of the optical block portion of FIG. 1.

The attached drawings may not only serve to complete the invention, but also contribute to its definition, if any. The object of the invention is to propose an optical unit (BO) provided with occultation means (EM, ME) and intended to equip a vehicle, possibly of automobile type.

In the following, we consider, by way of non-limiting example, that the optical unit (BO) is a headlight (or front projector), intended to be installed in the front of a motor vehicle. But, the invention is not limited to this type of implantation. It also relates to other optical blocks, such as signal rear lamps to be installed at the rear of a vehicle, possibly of the automotive type. Furthermore, it is considered in the following, by way of non-limiting example, that the optical block (BO) is intended to provide at least a first lighting function of the high beam type. But, the invention is not limited to this application. Thus, it also relates, and in particular, optical blocks (BO) intended to provide at least a first lighting function type fog lamp or stop light or reversing light or a function of indication of change of position (or flashing) or a DRL function (for "Daytime running Light (or Lamp)" - light signaling automatically when the vehicle starts to move forward)) or a function of the position light type (or night light or lantern). FIGS. 1 and 2 are very schematically represented a very small portion of an optical block BO offering in particular a first lighting function (in fact, it offers at least two lighting functions here).

More precisely, only a first source SP (see FIG. 2) and occulting means EM and ME are provided which are intended to be housed at least partially in an open internal cavity of a housing (not shown) of the optical unit. This open internal cavity is intended to be closed at a front face by an ice. Here, the term "front face" means a face that faces outwards. The first lighting function is provided by a first light beam which is delivered by the first source SP defined by a set of elements housed or defined in the internal cavity of the housing of the optical unit.

Note that in the non-limiting example illustrated in the figures, the optical block BO offers several (at least two) lighting functions, and therefore comprises several sets of elements intended to provide several lighting functions, each of these sets of elements being housed or defined in the internal cavity of the housing. Certain elements of a set may possibly participate in at least two lighting functions. This may be particularly the case of elements that constitute fixed parts of the housing of the optical block BO. As indicated above, it is considered here, by way of non-limiting example, that the first lighting function is of primary type. This is, more precisely, a traffic light. Therefore, the first source SP comprises in particular a light source (such as for example a lamp or light-emitting diodes (or LEDs)), a reflector and a possible mask secured to the housing (inside its internal cavity) and placed upstream of the ice (which is secured to the housing and / or reflector and / or mask). Note that in an alternative embodiment the first lighting function could be secondary type, such as a position change indication function (or flashing) or a function DRL (for "Daytime running Light (or Lamp)" "- illuminated warning light automatically when the vehicle starts to move forward") or a position light type function (or night light or lantern). The occultation means EM and ME are arranged so as to at least partially obscure, on order, the first light beam.

According to the invention, these occultation means comprise at least four mobile elements EM and drive means ME. The drive means ME are arranged so as to drive each movable element EM by order between at least one closed position, illustrated in FIGS. 1 and 2 and in which it partially obscures the first beam of light, and an open position, illustrated. in Figures 3 and 4 and wherein it does not obscure this first beam of light. The training order comes for example from the vehicle computer or the computer which is responsible for controlling the lighting functions of the vehicle. This order (of the digital type or possibly of the analog type) is addressed to the electrical equipment which controls the drive means ME (for example a (micro) motor as will be seen later). As best seen in FIGS. 3 and 4, each moving element EM is placed in the internal cavity of the housing in a free zone which is located around (or at the periphery) at least a part of the first source SP, and in particular around the area which is crossed by the first light beam which provides the first lighting function, so as to be able to at least partially obscure it when (EM) is placed in its closed position. The higher the number of mobile elements EM, the smaller the dimensions of the latter (EM) can be, since they all contribute together with the occultation of the first beam of light. In the nonlimiting example illustrated in FIGS. 1 to 4, the concealment device D comprises six moving elements EM. Therefore, the drive means ME are arranged to drive on order each of these six moving elements EM. But, the number of moving elements EM can be less than or greater than six, since it is at least four. However, in order not to make the concealing means too complex and / or fragile and / or expensive, it is preferable for the number of moving elements EM to be between four and eight. The mobile elements EM now having small dimensions because their number is large (at least equal to four), their rotational drive over a small angular sector, typically less than about 30 °, is enough to separate them from the path taken by the first beam of light, which allows, in particular, to use them in compact optical blocks.

In the nonlimiting example illustrated in Figures 1 to 5, the moving elements EM all have a general shape of petal. The assembly constituted by the moving elements EM then then, for example and without limitation, a form of corolla of lotus flower or peony. But, the mobile elements EM could have many other forms, possibly different from each other (at least for some of them), and / or possibly very different from that of a petal, since they can ensure their function of occultation (at least partial) of the first beam of light in their closed position. Note also that in the non-limiting example illustrated schematically in Figures 1, 2 and 6 the drive means ME are arranged to drive on all orders simultaneously mobile elements EM. But, this is not mandatory. It is possible to envisage a first embodiment in which the drive means ME are arranged to drive the movable elements EM one after the other in a predefined order (this can be obtained by means of a cam path , for example). It is also possible to envisage a second variant embodiment in which the drive means ME are arranged to drive the moving elements EM independently of each other (this can be achieved by means of independent micro-motors, for example). It is also possible to envisage a third variant embodiment in which the drive means ME are arranged to drive certain EM moving elements on command independently of certain others (this can also be obtained by means of independent micro-motors, for example).

In the nonlimiting example illustrated in FIGS. 1, 2 and 6, the drive means ME comprise a rod T, a ring A and rods B. As shown in non-limiting manner in FIG. 6, the rod T may be a worm gear which is intended to be coupled to a rotary type motor stepper (not shown). The ring A is rotatably mounted on the rod T, here at a fixed level, so that it can be moved axially (along the arrow F) by the rod T when it is rotated. The number of rods B is (here) equal to the number of moving elements EM, so that each link B can rotate one of the moving elements EM. Note that in the nonlimiting example illustrated in the figures, each mobile element EM comprises an intermediate portion PI which is rotatably mounted on a rear portion of the first source SP (itself intended to be fixedly secured to the housing of the block optical, for example via lugs or fixing protuberances). This intermediate portion PI is located between a "front" portion PV which ensures in particular the occultation (when in the closed position) and a "rear" portion PR which is coupled to a link B. As shown in the figures 1, 2 and 6, each link B has a first end EX1 which is rotationally secured to the ring A, by means of first fixing means MF1 (for example bolt type), and a second end EX2 which is secured to rotation at the rear part PR of one of the moving elements EM, thanks to second fastening means MF2 (for example of the screw or bolt type), so as to allow a rotational drive of this movable element EM to one its open and closed positions when the ring A is moved axially by the rod T (along arrow F).

At least one of the mobile elements EM may possibly, but advantageously, comprise at least a second source SS which is clean, when it is supplied with current, to generate light intended to provide a second and visible lighting function. outside whatever the position in which is placed this mobile element EM.

For example, the second source SS can provide a second secondary type of lighting function. This is for example a position change indicator (or flashing) or a DRL (Daytime Running Light (Gold Lamp)) or a position light (or night light or lantern). A second source SS comprises in particular a light source consisting, for example, of one or more light-emitting diodes (or LEDs) or one or more lamps or bulbs.

For example, a white (or red) light source may be used to provide a DRL or position light function, or an orange light source to provide a position change indicator type function. It will be noted that in an alternative embodiment the second lighting function could be of the primary type, such as for example a function of the high beam or fog lamp or brake light or back-up light. It will also be noted that at least one of the mobile elements EM may not comprise a second source SS.

It will also be noted that at least one of the moving elements EM may comprise several (at least two) second SS sources providing different lighting functions (for example a position change indicator function and a position light function ). It will also be noted that at least two of the mobile elements EM may comprise second sources SS which jointly participate in the same optical function. As a variant, at least two of the mobile elements EM may comprise second SS sources that participate in different optical functions. So that the second sources SS can perform their second lighting function irrespective of the position of their moving element EM, each mobile element EM can, on the one hand, be made of a material that is transparent and light-conducting, and on the other hand, comprising an opaque coating at least on an inner face FI of its front portion PV (which is permanently visible from the outside of the optical block).

Here, the term "inner face" refers to the face of the front portion PV which is oriented towards the first source SP when the movable element EM is in its closed position. On the other hand, the term "external face" here refers to the face of the movable element EM which is opposed to the internal face FI (and thus which is Il oriented towards the outside when the movable element EM is in its closed position) . The material of the mobile element EM can be of synthetic type, such as for example and not limited to PMMA (or plexiglas®) or polycarbonate (or PC). These synthetic materials are advantageous because they can offer a high transparency and allow the obtaining of various forms, possibly complex, by molding. In this case, each second source SS, and in particular its light source (for example at least one light-emitting diode), can be accommodated (or integrated) in the material which constitutes the front part PV of a mobile element EM, or well fixed on the outer face FE, for example in the vicinity of the intermediate portion PI (as shown in Figures 2 and 5). Thus, each light source of a second source SS can generate light that will be able to propagate in the material (in the mass) in order to be transmitted externally by BP peripheral edges and / or protruding edges AE of the corresponding mobile element EM. This mode of transmitting light to the outside is sometimes called "slice transmission". Here "peripheral edge" is understood to mean a moving element edge EM which delimits the general contour of the latter (EM), and by "protruding edge" an edge of a protruding zone which is defined protruding in a moving element EM . It should be noted that these peripheral edges BP and / or these protruding edges AE can be slightly inclined (e) s to provide a larger illuminated surface (from the outside). It will also be noted that in the nonlimiting example illustrated, the protruding edges AE delimit a protruding zone in the general shape of an ogive. But other forms of prominent area may be considered. The opaque coating may be a chromium layer or the like. The opacity of the inner face FI makes it possible, on the one hand, when the moving element EM is in the closed position, to reflect all the light generated by a second source SS towards the outer face FE as well as towards the peripheral edges BP and / or the protruding edges AE and thus to obtain a light zone delimited by them (BP and / or AE), and, secondly, when the movable element EM is in the open position to return all the light towards the edges BP peripherals and / or protruding edges AE and thus to obtain a linear type of illumination at the latter (BP and / or AE). Note that each mobile element EM comprising a second source SS is preferably provided with power supply means which are adapted to be connected to a power supply circuit (not shown) of the optical unit. For example, these power supply means may comprise electrical cables secured to the internal face FI or outer FE of the rear part PR of the moving element EM considered, possibly in a dedicated groove, or conductive tracks defined on the internal FI or external FE face of the mobile element EM considered, possibly by screen printing. The power supply means of a mobile element EM may also and possibly comprise a group of at least one electrical or electronic component secured to this mobile element EM and providing the interface between the light source of a second source SS and electrical cables or conductive tracks. Complementarily equipping at least one of the moving elements of at least one second source makes it possible to confer on the optical block a multi-function character and can also and possibly make it possible to obtain different styling effects and / or new lighting functions by combining light beams. The invention is not limited to the embodiments of optical block described above, only by way of example, but it encompasses all the variants that may be considered by those skilled in the art within the scope of the following claims .

Claims (10)

REVENDICATIONS1. Vehicle optical block (BO), comprising a housing, housing at least a first source (SP) delivering a first light beam, and occulting means (EM, ME) adapted to at least partially obscure, by order, said first light beam, characterized in that said occulting means (EM, ME) comprise i) at least four movable elements (EM) housed at least partially in said housing around said first source (SP) and arranged so as to conceal, at least partially, said first beam of light when they are all placed in a closed position, and ii) drive means (ME) adapted to drive each movable element (EM) in rotation on a small angular sector in order to place it in said closed position or in an open position in which it does not obscure said first light beam. 2. Optical block according to claim 1, characterized in that said occulting means (EM, ME) comprise a number of movable elements (EM) between four and eight. 3. Optical block according to claim 2, characterized in that said occulting means (EM, ME) comprise six moving elements (EM). 4. Optical block according to one of claims 1 to 3, characterized in that each movable element (EM) has a general shape of petal. 5. Optical block according to one of claims 1 to 4, characterized in that said movable elements (EM) comprise an intermediate portion (PI) rotatably mounted on said first source (SP), and in that said means for drive (ME) comprises a rod (T), adapted to move a ring (A), and rods (B), whose number is equal to that of said movable elements (EM) and each having a first end secured to rotation to said ring (A) and a second end secured to rotation to one of said movable elements (EM) so as to allow a drive in rotation of the latter (EM) towards one of its open and closed positions during a displacement said ring (A) induced bydisplacement of said rod (T). 6. Optical block according to one of claims 1 to 5, characterized in that said drive means (ME) are arranged to simultaneously drive on command all said moving elements (EM). 7. optical unit according to one of claims 1 to 5, characterized in that said drive means (ME) are arranged to drive on order at least one of said movable elements (EM) independently of the others. 8. Optical block according to one of claims 1 to 7, characterized in that at least one movable element (EM) comprises at least a second source (SS) own, when supplied with current, to generate the visible light outside regardless of the position in which is placed said movable element (EM). Optical block according to claim 8, characterized in that each movable element (EM) is made of a transparent light-conducting material and comprises a portion provided at least on one inner face (FI) with an opaque coating, and in that each second source (SS) comprises at least one light emitting diode (DE) adapted to generate light for propagating in said material to be transmitted externally by peripheral edges (BP) and / or salient edges (AE) of the corresponding moving element (EM). 10. Optical block according to one of claims 8 and 9, characterized in that it comprises at least two movable elements (EM) each having at least one second source (SS).