• 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:
    The invention relates to a support (102) for light source (s) for a lighting and / or signaling module (122), in particular for a motor vehicle, comprising a substrate (114) with at least one opening ( 116) and electrical tracks (110) on at least one face, at least one light emitting diode (LED) (106) with a body (118) and electrical connection tabs (108) lateral to the body. The or at least one of the LEDs (106) is disposed through a respective aperture (116) of the substrate (114), and the connecting tabs (108) are in contact with the respective electrical tracks (110). The substrate (114) is a rigid molded piece having a three-dimensional shape that can provide an optical function such as that of a reflector. In this case, the LEDs (106) are directly supported by the optical part (114).
    公开号:FR3024527A1
    申请号:FR1457415
    申请日:2014-07-31
    公开日:2016-02-05
    发明作者:Denis Lauvernier;Zdravko Zojceski
    申请人:Valeo Vision SA;
    IPC主号:
    专利说明:

    [0001] The invention relates to the field of lighting and light signaling, in particular for a motor vehicle. More specifically, the invention relates to the field of lighting and light signaling by means of electroluminescence diodes (LED), and more particularly to the mounting of said LEDs in a signaling module. US 5,331,512 A discloses the mounting of LEDs on a circuit board. The LED is the type of reverse mounting (also called "reverse mount" in English), namely that the LED emits light rays on the side of the face of the plate which is opposite to the face on which the LED is mounted. To do this, the plate comprises an orifice through which is inserted the optical portion of the LED. The latter comprises a base with two extensions extending laterally in opposite directions, these extensions comprising contact zones intended to be welded to the corresponding contact areas of the plate. The plate and the base of the LED are in conventional printed circuit material, namely in fiberglass-reinforced epoxy resin. Such material is designed to withstand high temperatures imposed locally by conventional welding operations. The LED rack disclosed in this teaching is interesting for flat mounts. However, it is less so for complex shaped signal modules. US 7,924,371 B1 discloses a night vision imaging system screen. The display includes a circuit board with a series of networked LEDs for backlighting a liquid crystal display. Some of the LEDs are arranged on the front face of the plate, that is to say on the face directed towards the liquid crystal display. Other LEDs are inverted, that is to say they are arranged on the rear face of the plate, through corresponding orifices, so as to illuminate forwards through said orifices. The fixing and the connection of the LEDs with the electric tracks of the plate are ensured by conventional welding. Similar to the previous teaching, the LED support disclosed in this teaching is interesting for flat mounts. However, it is less so for complex shaped signal modules. Patent document US 2005/0243558 A1 discloses an LED holder for a signal module of the type of taillights of a motor vehicle. It consists of a printed circuit board and comprises a series of orifices through which LEDs of the inverted mounting type are inserted. These LEDs comprise optical parts in the form of domes, these domes being visible on the side of the front face. The LEDs include fastening and electrical connection tabs welded with electrical tracks on the rear face of the board. This arrangement provides an aesthetic support when viewed from a point of view located on the front side, the electrical connections being exclusively on the back side. In addition, it allows the installation of a radiator on the back side of the base of the LED. Similar to the two previous teachings, the LED support disclosed in this teaching is interesting for flat mounts. However, it is less so for complex shaped signal modules. The object of the invention is to propose an LED support that overcomes at least one of the drawbacks of the prior art. More specifically, the object of the invention is to propose a solution to the LED support that is compatible with a non-planar shape module, more particularly of complex shape. The invention also aims to provide an LED support to simplify the construction of a signal module and thereby reduce its production cost. The subject of the invention is a light source support (s) for a light module, in particular for a motor vehicle, comprising: a substrate with at least one opening and electric tracks on at least one face; at least one electroluminescence diode, called LED, with a body and electrical connection tabs lateral to the body; the or each LED being disposed through a respective opening of the substrate, the connecting tabs being in contact with the respective electrical tracks; remarkable in that the substrate is a rigid molded piece having a three-dimensional shape.
    [0002] A light module is understood to mean a lighting module for illuminating the road in front of the vehicle, or a signaling module for signaling the position of the vehicle to other road users, or an interior lighting module for illuminating the vehicle. inside a vehicle interior. The open or each of the openings is an opening through the entire thickness of the substrate.
    [0003] In an exemplary embodiment, the body of the LED has an upper wall having at least one light emitting surface and a side wall extending around the upper wall. The lateral electrical connection tabs advantageously extend from the side wall substantially parallel to the top wall. Advantageously, the LED has two electrical connection tabs, arranged on either side of the body. The LED or LEDs are configured to illuminate the substrate side which corresponds to the face opposite to that comprising the electric tracks. According to an advantageous embodiment of the invention, the substrate forms a wall having on its extent height variations of more than 10%, preferably 20% of its extent. The height variations are in a direction generally perpendicular to a reference plane. The latter may correspond to a portion of the wall, or to its mean plane. The thickness of the wall can be generally constant. It can be between 0.5 and 3mm. According to an advantageous embodiment of the invention, the substrate has one or more portions in the form of a cavity and / or a step. According to an advantageous embodiment of the invention, the tabs of the LED or LEDs are connected to the respective electrical tracks by an adhesive loaded with metal particles, said adhesive preferably being a polymer adhesive capable of polymerizing after application. The use of glue is advantageous in that it makes it possible to avoid subjecting the substrate to thermal stresses. According to an advantageous embodiment of the invention, the tabs of the LED or LEDs are connected to the respective electrical tracks by metal, for example copper, this metal being deposited by a chemical metallization process. The metallization process for connecting the tabs to the tracks can in particular be carried out simultaneously with the method for metallizing these tracks of the substrate.
    [0004] According to an advantageous embodiment of the invention, the support comprises a connector integral with the substrate. According to an advantageous embodiment of the invention, the material of the substrate is a thermoplastic doped with metal particles so as to allow the attachment of the electrical tracks. According to an advantageous embodiment of the invention, the substrate comprises at least one electronic component electrically connected to the diode or at least one of the LEDs by the electrical tracks. The component or components may be electrically and mechanically connected by a glue loaded with metal particles as described above. According to an advantageous embodiment of the invention, the substrate has at least one surface cooperating with the light rays emitted by the LED or LEDs so as to provide an optical function. The substrate can play both the supporting role of the LED or LEDs and the role of reflector.
    [0005] According to an advantageous embodiment of the invention, the surface or at least one of the surfaces of the substrate cooperating with the light rays is reflective, absorbent or diffusing. According to an advantageous embodiment of the invention, the substrate comprises a reflective coating, absorbing or diffusing on its face opposite to that of the electrical tracks. This reflective coating can advantageously be deposited via the same metallization process for producing these tracks. The invention also relates to a signaling module comprising: a source of light source (s); and an optical part, such as a reflector, cooperating with the light rays emitted by the light source or sources; It is remarkable that the support is in accordance with the invention. According to an advantageous embodiment of the invention, the support comprises the optical part, preferably the support constitutes the optical part. The invention also relates to a lighting and / or signaling device, comprising: a housing; a light module disposed in the housing; and an ice 30 disposed on the housing; remarkable in that the module is in accordance with the invention.
    [0006] The measurements of the invention are interesting in that they simplify the realization of the LED support, in particular for modules or signaling devices of complex shape. Indeed, in the case of a module comprising a large number of LEDs distributed on a complex shaped reflector, such as a generally curved shape conforming to the rounded at one of the rear corners of a vehicle, and having a series of reflective surface portions directed towards the rear of the vehicle. Such a reflector may thus have a stepped shape compatible with a molding embodiment. In the absence of the invention, it would be necessary to make a series of small flat supports or to provide a flexible elongated substrate (commonly called "flex PCB" or "flex circuit"), and to fix them or precise to the rear face of the reflector. Thanks to the invention, the support can marry the rear face of the reflector or also ensure the function of the reflector. Other features and advantages of the present invention will be better understood with the help of the description and the drawings among which: FIG. 1 is an illustration of a support according to a first embodiment of the invention; - Figure 2 is an illustration of the LED shown in Figure 1; - Figure 3 is a sectional view of a signaling device according to the first embodiment; FIG. 4 is a basic illustration of a support according to a second embodiment of the invention; - Figure 5 is a sectional view of a signaling device according to the second embodiment; FIG. 6 is a perspective view of a support according to a third embodiment of the invention. Figure 1 is an illustration of a first embodiment of the invention. This illustration corresponds to a section or profile view of a support 2 comprising a substrate 4 with at least one orifice 16 through which is disposed a light-emitting diode (LED) 6 of the reverse-mount type (or "reverse mount " in English). The LED 6 comprises a body 18 with an optical portion 20 and lugs 8 for fixing and electrical connection. The substrate 4 comprises electrical tracks 10 on its rear face, this face corresponding to the lower face in the figure. The LED 6 is placed on the rear face, so that its body 18 and more particularly its optical portion 20 at least partially penetrates the orifice 16. The tabs 8 are in mechanical and electrical contact with the electrical tracks 10 corresponding via a polymer glue doped with metal particles or via copper deposited by chemical process. The rear face of the substrate 4 may comprise one or more electrical or electronic components 12. An optical element 14 is disposed on the front face of the substrate 4 so as to cooperate with the light rays emitted by the LED. This optical element may be of the reflective, absorbent or diffusing type, or a combination thereof. Contrary to what Figure 1 may suggest, the substrate is non-planar, that is to say that it has a three-dimensional shape. It consists essentially of a wall extending with height variations so as to form a three-dimensional shape. The substrate is made by molding one or more plastic materials. The material or materials is / are preferably thermoplastic. The molding can thus be performed by injecting the material into a mold. The latter, installed on a press, is most often composed of two shells corresponding to a fixed part and a moving part which are strongly pressed against each other at the time of molding and then spread apart to allow the ejection of the molded part. The mold may also include one or more cores for forming the hollow parts of the workpiece and punches for reserving openings in its walls. Inserts can also be placed in the mold in another material or at least another shade, which will subsequently be included in the part. The plastic material of the substrate may be doped with metal particles able to ensure the attachment of metal tracks on its outer surface. This technology is commonly referred to by the acronym MID meaning molded interconnect device.
    [0007] The electric tracks can be realized by the technology designated by the acronym LDS meaning in English "Laser Direct Structuring". This involves running a laser beam on the corresponding surface of the substrate, according to the configuration of the tracks to be made. The laser beam has the effect of forming a roughness capable of promoting attachment. This step is followed by a metallization by dipping the substrate in one or more successive metal baths. Alternatively or in a complementary manner, the electrical tracks can be made by ink jet printing, the ink of which comprises metal particles.
    [0008] The tracks can also be made by a two-stage molding of the substrate, or else designated "Two shot molding" in English. This is an injection molding process using two different resins where only one of the two resins is metallizable. Typically, the metallizable resin is ABS and the non-metallizable resin is polycarbonate. The substrate is then subjected to an auto-catalytic deposition process where butadiene is used to chemically roughen the surface and allow adhesion of a primary layer of copper. Due to the thermoplastic nature of the substrate, the use of conventional soldering processes for electrical contacts is not suitable. The fixing and connecting tabs 8 of the LED are thus mechanically and electrically fixed by applying a polymer-based adhesive loaded with metal elements. It is thus a so-called "cold" application process not harming the substrate. After polymerization of the adhesive, it ensures the mechanical and electrical fixation of the LED.
    [0009] Figure 2 illustrates the LED 6 of Figure 1. The left view is a schematic plan view corresponding to that of Figure 1, while the right view is a perspective representation of a corresponding LED commercially available. In both views, it is possible to clearly distinguish the inverted nature of the LED 6, as well as its body 18, its optical portion 20 and its fastening tabs 8.
    [0010] More particularly, in the right view it is possible to observe the circular shape of the optical part 20 and the step section of the tabs 8.
    [0011] FIG. 3 is a sectional view of a signaling device according to the first embodiment, implementing the principle illustrated in FIG. 1. The device 22 comprises a housing 26 with an ice-cream 24 and a reflector 14. The latter a stepped shape with a series of orifices through which the LEDs 6 are arranged. These are fixed to a substrate 4 at least partially matching the stepped shape of the reflector 14. The molded substrate 4 can match the shape of the reflector or at least take a complex shape adapted to adapt to or comply with a reflector or at least an optical element of non-planar shape. The support 2 formed by the substrate 4 and the LEDs 6 assembled thereon can thus be placed directly on the other elements of the signaling device. FIG. 4 schematically illustrates a source of light source (s) according to a second embodiment. The reference numbers of the first embodiment are used for the same elements or the corresponding elements of the second embodiment, these numbers however being increased by 100 in order to clearly distinguish the two modes. The support 102 comprises a substrate 114 of non-planar shape and providing an optical function. This substrate 114 comprises electrical tracks 110 on its rear face. It may also include one or more electrical or electronic components 112 on its rear face, in electrical connection with the electrical tracks. The substrate 114 comprises an orifice 116 through which is inserted, at least partially, an LED 106. This is of similar construction to that of the first embodiment. This is an LED model called reverse mount, that is to say, intended to be placed on the face of the substrate opposite to the side of the side of which the light rays will be emitted. The body 118 of the LED 106 is thus inserted through the orifice 116 from the rear face of the substrate 114, so that its optical portion 120 looks forward, that is to say on the the front face of the substrate 114. During the insertion of the LED 106, its tabs 108 come into contact with the rear face of the substrate 114, more precisely with the corresponding electrical tracks 110. The contact is provided by the adhesive doped with metal. This adhesive is preferably a polymer synthetic glue, capable of polymerizing after application in the pasty state. Reference is made to the description of the glue attachment of the first mode.
    [0012] As can be seen in FIG. 4, the substrate is non-planar, that is to say that it has a three-dimensional shape. Similarly to the substrate of the first embodiment, it essentially consists of a wall extending with height variations so as to form a three-dimensional shape. The substrate is made by molding one or more plastic materials. Reference is made to the description of the first embodiment with respect to the method of molding the substrate. In order to ensure an optical function, the substrate 114 may be covered, in particular on its front face or at least on portions of its front face, with a reflective, absorbent or diffusing coating. This coating can be applied by various methods well known to those skilled in the art, such as by metallization for a reflective coating, or by application of an absorbent or diffusing paint. FIG. 5 is a sectional view of a signaling device according to the second embodiment, implementing the principle illustrated in FIG. 4. The device 122 comprises a housing 126 with an ice-cream 124 and a reflector 114. The latter has a stepped shape and forms a substrate with a series of orifices through which and on which are directly arranged the LEDs 6. The front face of the substrate 114 is reflective. The LEDs 106 are fixed to the rear face of the substrate 114 by means of their tabs 108. The molded substrate 114 can thus take the form of an optical element of complex shape. The mounting of the signaling device is thus made particularly simple. In the example of Figure 5, it is in fact essentially consisting of only three elements to be assembled, namely the support equipped with the LEDs 106, the housing 126 and the ice 124. The housing and the ice can form a single piece. FIG. 6 illustrates an LED support according to a third embodiment of the invention. The reference numbers of the second embodiment are used for the same elements or the corresponding elements of this third embodiment, these numbers however being increased by 100 in order to distinguish the two modes. This third embodiment is similar to the second embodiment of FIGS. 4 and 5. The support 202 comprises a substrate 214 of complex shape with a series of stepped profiles. The front face (corresponding to the left side in the figure) is reflective. The LEDs 206 are arranged and fixed on the rear face (corresponding to the right face in the figure). Only three LEDs have been shown in the figure, it being understood that more LEDs may be present. The conductive tracks 210 are formed on the rear face of the substrate 214, so as to extend continuously surface portion surface portion and connect the tabs 208 therebetween. FIG. 6 thus shows an optical part of complex shape that can be formed by plastic molding and can serve as a support for LEDs and electric tracks.
    [0013] In general, the substrate can perform other functions such as in particular that of a connector. A connector can in fact be molded directly with the material of the substrate. It may also include an insert around which the substrate material is injection molded. It is also possible to provide other elements on the substrate providing other functions, such as fixing tabs.
    权利要求:
    Claims (14)
    [0001]
    REVENDICATIONS1. Support (2; 102; 202) for a light source (s) for a light module (22; 122), particularly for a motor vehicle, comprising: - a substrate (4; 114; 214) with at least one opening (16; 116; 216) and electrical tracks (10; 110; 210) on at least one face; at least one electroluminescence diode, called LED (6; 106; 206), with a body (18; 118; 218) and electrical connection tabs (8; 108; 208) lateral to the body; the LED or each of the LEDs being disposed through a respective aperture (16; 116; 216) of the substrate, the connecting tabs (8; 108; 208) being in contact with the respective electrical tracks (10; 110; 210); ); characterized in that the substrate (4; 114; 214) is a rigid molded piece having a three-dimensional shape.
    [0002]
    2. Support (2; 102; 202) according to claim 1, characterized in that the substrate (4; 114; 214) forms a wall having on its extent height variations of more than 10%, preferably 20% of its extended.
    [0003]
    3. Support (2; 102; 202) according to one of claims 1 and 2, characterized in that the substrate (4; 114; 214) has one or more portions in the form of a cavity and / or a step.
    [0004]
    4. Support (2; 102; 202) according to one of claims 1 to 3, characterized in that the tabs (8; 108; 208) of the LED or LEDs (6; 106; 206) are connected to the electrical tracks. respective (10; 110; 210) by an adhesive loaded with metal particles, said adhesive being preferably a polymer adhesive capable of polymerizing after application.
    [0005]
    5. Support (2; 102; 202) according to one of claims 1 to 3, characterized in that the tabs (8; 108; 208) of the LED or LEDs (6; 106; 206) are connected to the electrical tracks. respectively (10; 110; 210) by metal, for example copper, this metal being deposited by a chemical metallization process.
    [0006]
    6. Support (2; 102; 202) according to one of claims 1 to 5, characterized in that it comprises a connector integral with the substrate (4; 114; 214).
    [0007]
    7. Support (2; 102; 202) according to one of claims 1 to 6, characterized in that the material of the substrate (4; 114; 214) is a thermoplastic doped with metal particles so as to allow the attachment of electric tracks.
    [0008]
    8. Support (2; 102; 202) according to one of claims 1 to 7, characterized in that the substrate (4; 114; 214) comprises at least one electronic component (12; 112) electrically connected to the LED or at least one of the LEDs by the electrical tracks (10; 110; 210).
    [0009]
    9. Support (102; 202) according to one of claims 1 to 8, characterized in that the substrate (114; 214) has at least one surface cooperating with the light rays emitted by the LED or (106; 206) to ensure an optical function.
    [0010]
    10. Support (102; 202) according to claim 9, characterized in that the surface or at least one of the surfaces of the substrate (114; 214), cooperating with the light rays, is reflective, absorbent or diffusing.
    [0011]
    11. Support (102; 202) according to one of claims 9 and 10, characterized in that the substrate (114; 214) comprises a reflective coating, absorbing or diffusing on its face opposite to that of the electric tracks.
    [0012]
    12. Signaling module comprising: - a support (2; 102; 202) of light source (s) (6; 106; 206); and an optical part (14; 114; 214), such as a reflector, cooperating with the light rays emitted by the light source or sources; characterized in that the support (2; 102; 202) is according to one of claims 1 to 11
    [0013]
    13. Module according to claim 12, characterized in that the support (102; 202) comprises the optical part (114; 214), preferably the support constitutes the optical part.
    [0014]
    14. A lighting and / or signaling device (22; 122), comprising: - a housing (26; 126); - a light module disposed in the housing; and - an ice (24; 124) disposed on the housing; characterized in that the module is according to one of claims 12 and 13.
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    同族专利:
    公开号 | 公开日
    CN105318199A|2016-02-10|
    EP3040611A1|2016-07-06|
    US10246001B2|2019-04-02|
    US20160031361A1|2016-02-04|
    FR3024527B1|2019-06-28|
    引用文献:
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    法律状态:
    2015-07-31| PLFP| Fee payment|Year of fee payment: 2 |
    2016-02-05| PLSC| Search report ready|Effective date: 20160205 |
    2016-07-29| PLFP| Fee payment|Year of fee payment: 3 |
    2017-07-31| PLFP| Fee payment|Year of fee payment: 4 |
    2018-07-27| PLFP| Fee payment|Year of fee payment: 5 |
    2019-07-31| PLFP| Fee payment|Year of fee payment: 6 |
    2021-04-09| ST| Notification of lapse|Effective date: 20210305 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1457415A|FR3024527B1|2014-07-31|2014-07-31|ELECTROLUMINESCENCE DIODE SUPPORTFOR SIGNALING MODULE|
    FR1457415|2014-07-31|FR1457415A| FR3024527B1|2014-07-31|2014-07-31|ELECTROLUMINESCENCE DIODE SUPPORTFOR SIGNALING MODULE|
    EP15178276.0A| EP3040611A1|2014-07-31|2015-07-24|Support for light-emitting diodesfor signaling module|
    US14/812,217| US10246001B2|2014-07-31|2015-07-29|Carrier of one or more light-emitting diodesfor a signaling module|
    CN201510463329.6A| CN105318199A|2014-07-31|2015-07-31|Carrier of one or more light-emitting diodesfor signaling module|
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