• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A lighting device (DE) comprises: - first (GL1) and second (GL2) light guides providing first and second photometric functions predefined and comprising first (GT1) and second (GT2) groups of hole (s) (T11, T21), - a printed circuit board (CC) having faces (F1, F2) to which are secured first (S1) and second (S2) light sources and provided with a third group (GT3) of hole (s) (T31), and - a support piece (PS) comprising a face (FS) provided with mast (s) (M1) passing through holes (T11, T31) of the first (GT1) and third (GT3) groups, respectively to position the first light guide (GL1) and printed circuit board (CC) at predefined first and second levels, and comprising a free end (EL1) capped by the second light guide (GL2) at a corresponding hole (T21) to position it at a third predefined level.
    公开号:FR3063797A1
    申请号:FR1751816
    申请日:2017-03-07
    公开日:2018-09-14
    发明作者:Rodolphe Peron
    申请人:Peugeot Citroen Automobiles SA;
    IPC主号:
    专利说明:

    Holder (s): PEUGEOT CITROEN AUTOMOBILES SA Société anonyme.
    Extension request (s)
    Agent (s): PEUGEOT CITROEN AUTOMOBILES SA Public limited company.
    LIGHTING DEVICE WITH SIMPLIFIED AND PRECISE POSITIONING OF LIGHT SOURCES AND LIGHT GUIDES.
    FR 3 063 797 - A1 (5y) A lighting device (DE) comprises:
    - first (GL1) and second (GL2) light guides ensuring first and second predefined photometric functions and comprising first (GT1) and second (GT2) groups of holes (T11, T21),
    - a printed circuit board (CC) comprising faces (F1, F2) to which are joined first (S1) and second (S2) light sources and provided with a third group (GT3) of hole (s) (T31 ), and
    - a support piece (PS) comprising a face (FS) provided with mast (s) (M1) passing through holes (T11, T31) of the first (GT1) and third (GT3) groups, in order to position the first guides respectively light (GL1) and printed circuit board (CC) at first and second predefined levels, and comprising a free end (EL1) capped by the second light guide (GL2) at a hole (T21) corresponding so to position it at a third predefined level.

    i
    LIGHTING DEVICE WITH SIMPLIFIED AND ACCURATE POSITIONING OF LIGHT SOURCES AND LIGHT GUIDES
    The invention relates to lighting devices, and more precisely those which comprise at least first and second light sources respectively associated with first and second light guides suitable for ensuring first and second predefined photometric functions respectively.
    In what follows, the term “photometric function” means both a photometric lighting function, a photometric signaling function or a photometric light effect function, possibly decorative.
    In certain fields, such as for example that of vehicles, possibly of automobile type, lighting devices are used, such as those defined above, to ensure at least two predefined photometric functions, chosen, for example, from a function of brake light, a direction change indicator function, a position light function (or night light or lantern), or a daytime light function (or DRL (for "Daytime running Light (or Lamp) >>) - light signal on automatically when the vehicle is started during the day)).
    In these lighting devices, each light source is generally secured to a printed circuit board, for example of the PCB (“Printed Circuit Board”) type, which must be very precisely positioned with respect to the entry area of the guide. associated light through which photons penetrate, so that the latter can correctly perform its photometric function, both in terms of intensity and divergence and in terms of homogeneity. These very precise positions are complicated to obtain in a confined space because each light guide and the associated printed circuit board are installed separately and have respective dimensional tolerances, inherent in their manufacturing methods.
    These very precise positioning prove to be even more complicated, even almost impossible, when the first and second light sources must be secured to two opposite faces of the same printed circuit board for reasons of space and / or a reason for weight and / or cost reason.
    The invention therefore aims in particular to improve the situation.
    To this end, it proposes in particular a lighting device comprising first and second light sources suitable for generating photons, first and second light guides suitable for ensuring first and second photometric functions predefined respectively from photons generated by the first and second light sources.
    This lighting device is characterized by the fact: i5 - that its first and second light guides respectively comprise first and second groups of at least one hole, and - that it also comprises, on the one hand, a card with printed circuits comprising first and second faces to which the first and second light sources are respectively secured and provided with a
    0 third group of at least one hole, and, on the other hand, a support piece comprising a face provided with at least one mast passing respectively holes of the first and third groups, in this order, in order to position respectively the first light guide and printed circuit board at first and second predefined levels, and comprising a free end capped by the second light guide at a corresponding hole in order to position it at a third predefined level.
    Thanks to the use of this support piece provided with at least one mast, it is now possible to precisely position all the elements relative to it, so that it constitutes a reference which makes it possible to
    0 minimize any dispersion of positioning of the light guides with respect to the light sources associated with them respectively.
    The lighting device according to the invention may include other characteristics which can be taken separately or in combination, and in particular:
    - Each group can include two holes, and the face of the support piece can include first and second masts;
    > the first and second masts may each have a generally square section. In this case, a first hole of each group has a generally square shape homologous to the shape of the section of the first mast;
    • a second hole in each group can have a general rectangular or oblong shape adapted to the shape of the section of the corresponding second mast;
    - The face of the support piece may comprise around each mast at least one protuberance comprising a bearing surface against which the first light guide is supported when it is in its first predefined level;
    - It can also include a first mask, on the one hand, sandwiched between the first light guide and the printed circuit board in order to isolate the first and second photometric functions from each other, and, on the other hand part, including an opening placed in front of the first source
    0 of light so that the photons generated by the latter feed the first light guide, and a fourth group of at least one hole crossed by the corresponding mast;
    - Each mast can include an internal housing opening at its free end and provided with an internal thread on which is screwed a screw having a head pressed against a face of the second light guide, opposite to the printed circuit board;
    - the first and second photometric functions can be chosen from a direction change indicator (or flashing) function, a stop light function, a daytime running light (or DRL) function and a
    0 position light function (or pilot light or lantern).
    The invention also provides a vehicle optical unit, possibly of the automobile type, and comprising at least one lighting device of the type of that presented above.
    The invention also provides a vehicle, possibly of the automobile type, and comprising at least one lighting device of the type presented above and / or at least one optical unit of the type presented above.
    Other characteristics and advantages of the invention will appear on examining the detailed description below, and the attached drawings, in which:
    FIG. 1 schematically illustrates, in a longitudinal section view ίο (XZ), an example of an optical unit comprising an example of an embodiment of a lighting device according to the invention,
    FIG. 2 schematically illustrates, in a perspective view, an embodiment of a support part of a lighting device according to the invention,
    FIG. 3 schematically illustrates, in a perspective view, an embodiment of a first mast of the support piece of FIG. 2,
    - Figure 4 schematically illustrates, in a perspective view, an embodiment of a first light guide of a device
    0 lighting according to the invention,
    FIG. 5 schematically illustrates, in a perspective view and partially in cross section (YZ), part of the main elements constituting the lighting device of FIG. 1, during an assembly phase,
    - Figure 6 schematically illustrates, in a cross-sectional view (YZ), the main elements constituting the lighting device of Figure 5 with in addition a first mask, once the assembly phase is completed.
    The object of the invention is in particular to propose a device
    0 lighting DE comprising at least first S1 and second S2 light sources forming part of the same printed circuit board CC and associated respectively with first GL1 and second GL2 light guides suitable for ensuring respectively first and second functions photometric predefined.
    It is considered in what follows, by way of nonlimiting example, that the lighting device DE is intended to equip an optical unit BO with a vehicle of the automobile type, such as for example a car. But the invention is not limited to this application. Indeed, a lighting device DE can be an equipment per se (possibly including its own housing), or can be part of other equipment than a vehicle optical unit. Thus, a DE lighting device can be part of any vehicle (land, sea (or river), or air), of any installation, including of industrial type, of any device. (or system), and from any building.
    Furthermore, it is considered in what follows, by way of nonlimiting example, that the optical unit BO (comprising at least one lighting device DE) is a rear light ensuring at least two photometric signaling functions, such as for example a stop light function and a direction change indicator (or flashing) function. But the invention is not limited to this application. Indeed, the lighting device DE, according to the invention, is a light device capable of ensuring
    0 at least two photometric lighting or signaling or light effect functions, possibly decorative. Thus, it can provide at least two photometric signaling functions each chosen from a direction change indicator function, a stop light function, a daytime running light (or DRL) function, and a position light function. (or night light or lantern).
    In FIGS. 1 to 6, the direction X is a direction known as longitudinal because it is intended to be parallel to a longitudinal side of a vehicle, direction Y is a direction known as transverse because it is intended to be perpendicular to the longitudinal sides of this vehicle and therefore
    0 perpendicular to the longitudinal direction X, and the direction Z is a vertical direction, perpendicular to the longitudinal X and transverse Y directions.
    Schematically illustrated in FIG. 1, a part of an optical unit BO of a vehicle (here a rear light) comprising, in particular, a housing
    ΒΒ, delimiting a part of a cavity housing a DE lighting device according to the invention, and a protective glass GP, made of glass or plastic.
    The BB box is intended, here, to be secured to a part of the body of a vehicle (here in a rear part). It is made of a rigid material, such as for example a plastic or synthetic material. In this case, it can be produced by molding.
    As illustrated in FIGS. 1, 5 and 6, a lighting device DE, according to the invention, comprises at least first S1 and second S2 light sources, at least first GL1 and second GL2 light guides, at minus a printed circuit board CC, and a support piece PS.
    The printed circuit board CC comprises first F1 and second F2 faces opposite one another and to which the first S1 and second S2 light sources are respectively secured. It can, for example, be of the PCB (“Printed Circuit Board”) type, rigid or flexible (“of the“ Flex ”type).
    The first light source S1 is capable of generating photons intended for an entry area of the first light guide GL1.
    The second light source S2 is capable of generating photons at
    0 destination of an entry area for the second light guide GL2.
    Each of the first S1 and second S2 light sources can, for example, comprise at least one light-emitting diode, of conventional type (or LED (“Light-Emitting Diode”)) or of organic type (or OLED (“Organic Light-Emitting Diode >>)), or a laser diode. In the example illustrated without limitation, each of the first S1 and second S2 light sources comprises several light-emitting diodes, for example ten or twenty.
    The first light guide GL1 (j = 1) is capable of ensuring a first photometric function predefined from the photons which are
    0 generated by the first light source S1, and which it receives on an input area. As a non-limiting example, the first light guide GL1 can provide a brake light function. A nonlimiting example of the first light guide GL1 is illustrated in FIG. 4.
    This first light guide GL1 comprises a first group GT1 (j = 1) of at least one through hole T1 k which will be understood later.
    It will be noted that in the example illustrated without limitation in FIGS. 4 and 6, the first light guide GL1 comprises a first group
    GT1 comprising a first through hole T11 (k = 1) and a second through hole T12 (k = 2). Furthermore, in the example illustrated without limitation in FIGS. 4 and 6, the first T11 and second T12 holes of the first group GT1 are respectively defined in first PF1 and second PF2 fixing lugs of the first light guide GL1, intended for deport them to a part which is not concerned with photon guidance. However, this first light guide GL1 may not have a fixing lug. The second light guide GL2 (j = 2) is capable of providing a second predefined photometric function from the photons which are generated by the second light source S2, and which it receives on an input is zone. As a non-limiting example, the second light guide GL2 can provide a direction change indicator function.
    This second light guide GL2 includes a second group
    GT2 (j = 2) of at least one through hole T2k which will be understood later.
    0 Note that in the example illustrated without limitation in the figure
    6, the second light guide GL2 comprises a second group GT2 comprising a first through hole T21 (k = 1) and a second through hole T22 (k = 2). Furthermore, in the example illustrated without limitation in FIG. 6, the first T21 and second T22 holes of the second group GT2 are respectively defined in first PF1 and second PF2 fixing lugs of the second light guide GL2, intended to offset them in a part which is not concerned with photon guidance. However, this second light guide GL2 may not have a fixing lug.
    Each of the first GL1 and second GL2 light guides can, for example, be of the flat type (or "fiat guide"). For example, each of the first GL1 and second GL2 light guides can be made of polycarbonate (or PC) or poly methyl methacrylate (or PMMA).
    The CC printed circuit board is also provided with a third group GT3 (j = 3) with at least one through hole T3k which will be understood later.
    It will be noted that in the example illustrated without limitation in FIG. 6, the printed circuit board CC comprises a third group GT3 comprising a first through hole T31 (k = 1) and a second through hole T32 (k = 2).
    The support piece PS comprises a face FS, oriented towards the first light guide GL1, and provided with at least one mast Mk passing respectively through holes Tjk of the first GT1 and third GT3 groups, îo in this order, in order to position respectively the first light guide GL1 and the printed circuit board CC at predefined first and second levels. In addition, each mast Mk includes a free end ELk which is capped by the second light guide GL2 at a corresponding hole T2k in order to position it at a third predefined level. A nonlimiting example of a support piece PS is illustrated in FIG. 2.
    Thus, the first GL1 and second GL2 light guides and the printed circuit board CC (with its light sources S1 and S2) are positioned relative to each mast Mk of the support piece PS at predefined levels. The support piece PS then constitutes a reference allowing
    0 to minimize all dispersion of positioning of the light guides
    G1 and G2 with respect to the light sources S1 and S2 which are associated with them respectively. This results in precise positioning of the light sources S1 and S2 with respect respectively to the input areas of the associated light guides GL1 and GL2, which allows the latter (GL1 and GL2) to correctly perform their respective photometric functions, both in terms of intensity and divergence and in terms of homogeneity.
    In addition, there is only one method of fixing the elements (GL1, CC and GL2), which is advantageous from an economic point of view.
    0 Note that in the example illustrated without limitation in the figure
    6, the face FS of the support piece PS comprises first M1 and second M2 masts intended to cooperate with the first Tj1 (k = 1) and second Tj2 (k = 2) holes of each group GTj (j = 1 to 3 ). This option is intended to optimize the precision and stability of the positions mentioned in the previous paragraph.
    For example, and as illustrated without limitation in FIGS. 2, 3, 5 and 6, the first M1 and second M2 masts may each have a section of generally square shape. In this case, the first hole Tj 1 of each group GTj may have a generally square shape homologous to the shape of the section of the first mast M1, as illustrated without limitation in FIGS. 1 and 4 to 6. This arrangement is intended to ensure precise positioning along the longitudinal X and transverse Y directions.
    îo Also for example, and as illustrated without limitation in FIGS. 2, 3, 5 and 6, the second hole Tj2 of each group GTj may have a generally rectangular or oblong shape adapted to the section of the corresponding second mast M2. For example, the long side of the general shape of this section is placed in the transverse direction Y. This arrangement is intended to ensure precise positioning in the longitudinal direction X while leaving a degree of freedom of positioning in the transverse direction Y to avoid blockages by isostatism. It will be noted that here the general shape of the second hole Tj2 of each group GTj is rectangular. Alternatively, however, it could be oblong.
    0 It will be noted, as illustrated without limitation in FIGS. 1 to 3 and 6, that the face FS of the support piece PS can comprise around each mast Mk at least one protuberance PR comprising a bearing surface SA against which s supports the first light guide GL1 (and more precisely here one of its fixing lugs PFk) when it is in its first predefined level. This option is intended to very precisely define the positioning in the vertical direction Z of the first light guide GL1 relative to the mast (s) Mk.
    In the example illustrated without limitation, the face FS of the support piece PS comprises four protrusions PR at the foot of the four faces of
    0 each mast Mk, in order to distribute the support of the first light guide GL1 well.
    But it could include less than four, for example two or three, or even only one (possibly in a closed loop).
    It will also be noted, as illustrated without limitation in ίο Figures 1 and 6, that the lighting device DE may include a first mask MA1 interposed between the first light guide GL1 and the printed circuit board CC. This advantageously makes it possible to prevent the passage of parasitic photons between the area containing the second source S2 and the second light guide GL2 and the area containing the first source S1 and the first light guide GL1, and therefore to isolate one on the other, the first and second photometric functions. In this case, as illustrated, the first mask MA1 can comprise, on the one hand, an opening OP placed in front of the first light source S1 so that the photons which it generates are supplied to the first light guide GL1, and, d 'on the other hand, a fourth group GT4 of at least one hole T4k crossed by the corresponding mast Mk. This last technical characteristic makes it possible to precisely position the first mask MA1 in the vertical direction Z relative to the mast (s) Mk and therefore relative to the respective levels of the other elements (GL1, CC and GL2).
    For example, the first mask MA1 can be produced by molding in a plastic material such as polycarbonate (or PC) or polymethyl methacrylate (or PMMA).
    Alternatively, instead of using a first MA1 mask, one could
    0 use a printed circuit board CC having larger dimensions along the longitudinal X and transverse Y directions.
    It will also be noted, as illustrated without limitation in FIG. 1, that the lighting device DE can comprise a second mask MA2 placed under (or before) the first light guide GL1 (on the side opposite to the printed circuit board CC) . This advantageously makes it possible to prevent the passage of parasitic photons to and from the zone situated under (or before) the first light guide GL1, and therefore to isolate the first photometric function. In this case, as illustrated, the second mask MA2 can comprise a fifth group of at least one hole crossed by the mast Mk
    0 correspondent. This last technical characteristic makes it possible to precisely position the second mask MA2 in the vertical direction Z relative to the mast (s) Mk and therefore relative to the respective levels of the other elements (GL1, MA1, CC and GL2).
    For example, the second mask MA2 can be produced by molding in a plastic material such as polycarbonate (or PC) or polymethyl methacrylate (or PMMA).
    It will also be noted, as illustrated without limitation in the figures 1.3 and 6, that each mast Mk may include an internal housing Ll opening at its free end ELk and provided with an internal thread on which is screwed a screw VF . In this case, the screw VF has a head which is pressed against a face of the second light guide GL2 which is opposite to the printed circuit board CC. This option allows the second light guide GL2 to be fixedly and closely secured to the mast (s) Mk, in its third predefined level, while precisely immobilizing the first light guide GL1 and the printed circuit board CC as well as the possible first mask MA1 respectively in their first, second and fourth levels.
    It should be noted that instead of securing and immobilizing by screwing, it could be carried out by clipping.
    It should also be noted that the lighting device DE could provide more than two predefined photometric functions, for example three or four. In this case we use taller Mk masts and we
    0 provides one or more additional light guides and one or more other printed circuit boards equipped with light source (s) to power these additional light guides, as well as possibly one or more additional interlayer masks.
    It will also be noted that in the examples illustrated without limitation, the support piece PS is placed in the lowest position, the first light guide GL1 is placed above the support piece PS, the printed circuit board CC is placed in an intermediate position above the first light guide GL1, and the second light guide GL2 is placed in the highest position above the
    0 CC printed circuit board. But we could have a reverse arrangement (i.e. with the PS support piece placed in the highest position).
    权利要求:
    Claims (10)
    [1" id="c-fr-0001]
    1. Lighting device (DE) comprising first (S1) and 5 second (S2) light sources suitable for generating photons, first (GL1) and second (GL2) light guides suitable for providing first and first respectively second photometric functions predefined from the photons generated by said first (S1) and second (S2) light sources, characterized in that said first (GL1) and second (GL2) light guides respectively comprise first (GT1) and second (GT2) groups of at least one hole (Tjk), and in that it further comprises i) a printed circuit board (CC) comprising first (F1) and second (F2) faces to which are respectively secured said first (S1) and second (S2) light sources and provided with a third group (GT3)
    15 of at least one hole (Tjk), and ii) a support piece (PS) comprising a face (FS) provided with at least one mast (Mk) passing respectively through holes (Tjk) of said first (GT1) and third (GT3) groups, in this order, in order to respectively position said first light guide (GL1) and printed circuit board (CC) at first and second predefined levels, and
    [2" id="c-fr-0002]
    2 0 comprising a free end (ELk) capped by said second light guide (GL2) at a hole (Tjk) corresponding to position it at a third predefined level.
    2. Device according to claim 1, characterized in that each group (GT1, GT2, GT3) comprises two holes (Tjk) and said face (FS) of the
    25 support piece (PS) comprises first (M1) and second (M2) masts.
    [3" id="c-fr-0003]
    3. Device according to claim 2, characterized in that said first (M1) and second (M2) masts each have a generally square section, and in that a first hole (Tjk) of each group (GT1, GT2 , GT3) has a general square shape homologous to the shape of
    30 said section of the first mast (M1).
    [4" id="c-fr-0004]
    4. Device according to claim 3, characterized in that a second hole (Tjk) of each group (GT1, GT2, GT3) has a generally rectangular or oblong shape adapted to said shape of the section of the corresponding second mast (M2) .
    [5" id="c-fr-0005]
    5. Device according to one of claims 1 to 4, characterized in that said face (FS) of the support piece (PS) comprises around each mast (Mk) at least one protuberance (PR) comprising a surface of support (SA)
    5 against which said first light guide (GL1) leans when it is in its first predefined level.
    [6" id="c-fr-0006]
    6. Device according to one of claims 1 to 5, characterized in that it comprises a first mask (MA1) interposed between said first light guide (GL1) and said printed circuit board (CC) in order to isolate the one of the other said first and second photometric functions, and comprising
    i) an opening (OP) placed in front of said first light source (S1) so that the photons generated by the latter (S1) feed said first light guide (GL1), and ii) a fourth group (GT4) of at least minus a hole (Tjk) through which said corresponding mast (Mk) passes.
    is
    [7" id="c-fr-0007]
    7. Device according to one of claims 1 to 6, characterized in that each mast (Mk) comprises an internal housing (Ll) opening at its free end (ELk) and provided with an internal thread on which is screwed a screw (VF) having a head pressed against a face of said second light guide (GL2), opposite to said printed circuit board (CC).
    2 0
    [8" id="c-fr-0008]
    8. Device according to one of claims 1 to 7, characterized in that said first and second photometric functions are chosen from a direction change indicator function, a stop light function, a daytime light function, and a position light function.
    [9" id="c-fr-0009]
    9. Vehicle optical unit (BO), characterized in that it includes at
    25 minus a lighting device (DE) according to one of the preceding claims.
    [10" id="c-fr-0010]
    10. Vehicle, characterized in that it comprises at least one optical unit (BO) according to claim 9 and / or at least one lighting device (DE) according to one of claims 1 to 8.
    1/3 γ
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    同族专利:
    公开号 | 公开日
    CN108571706B|2022-02-18|
    FR3063797B1|2019-03-22|
    CN108571706A|2018-09-25|
    EP3372892A1|2018-09-12|
    EP3372892B1|2020-04-01|
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    DE102013212352A1|2013-06-26|2014-12-31|Automotive Lighting Reutlingen Gmbh|Automotive lighting device with a Einkoppeloptik and a transport and forming optics|
    FR3034169B1|2015-03-23|2020-05-29|Valeo Iluminacion|LIGHT MODULE FOR A MOTOR VEHICLE COMPRISING TWO LIGHT GUIDES AND A RADIATOR COMPRISING TWO MOUNTING FACES|FR3088986B1|2018-11-23|2020-10-30|Psa Automobiles Sa|Multifunctional light module with two flat type light guides|
    FR3097026B1|2019-06-04|2021-05-07|Psa Automobiles Sa|Signal light with two cantilevered light guides.|
    法律状态:
    2018-02-19| PLFP| Fee payment|Year of fee payment: 2 |
    2018-09-14| PLSC| Publication of the preliminary search report|Effective date: 20180914 |
    2020-02-20| PLFP| Fee payment|Year of fee payment: 4 |
    2021-12-10| ST| Notification of lapse|Effective date: 20211105 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1751816|2017-03-07|
    FR1751816A|FR3063797B1|2017-03-07|2017-03-07|LIGHTING DEVICE WITH SIMPLIFIED AND PRECISE POSITIONING OF LIGHT SOURCES AND LIGHT GUIDES|FR1751816A| FR3063797B1|2017-03-07|2017-03-07|LIGHTING DEVICE WITH SIMPLIFIED AND PRECISE POSITIONING OF LIGHT SOURCES AND LIGHT GUIDES|
    EP18156900.5A| EP3372892B1|2017-03-07|2018-02-15|Lighting device with simplified and accurate positioning of the light sources and light guides|
    CN201810185976.9A| CN108571706B|2017-03-07|2018-03-07|Lighting device with simplified and precisely positioned light source and light guide|
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