• 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 present invention relates to an electroluminescent device comprising: a light source (102) mounted on a substrate (109); a wire (106) delivering a supply voltage or an activation signal to the light source (102), a cover (104) covering the light source (102) and provided with a diffuser (206) capable of diffusing the light produced by the light source (102); and either of: a volume of glue (112) fixing the intermediate section of the wire (106) to the cover (104); or an arm fixed to the cover (104) and extending between the intermediate section of the wire (106) and the substrate (109).
    公开号:FR3085465A1
    申请号:FR1857833
    申请日:2018-08-31
    公开日:2020-03-06
    发明作者:Romain Coffy;Jean-Michel Riviere
    申请人:STMicroelectronics Grenoble 2 SAS;
    IPC主号:
    专利说明:

    DESCRIPTION "ΜΤΓ Γ * ΔΧϊ T QMÎT TW ΟΧ ΠΤΡ Γ * Τ ΤΓ Μ DPtfTE QATTPni Τ TTMT'M’COQl
    i. .i. 1 KKt <, lYl.r..Ι.Μιχ Λ > IYIr_ t U1L · ΓΐΧν XHaLo X xUn IlVUri. OvUaaOIj .niJft. IJI ^ P ·.
    FIELD OF THE INVENTION The present invention relates to the field of electronic devices comprising light sources and, in particular, a cover for a light source.
    Presentation of the prior art
    0002] For some applications, electronic devices can include light sources. For example, distance measuring devices often use lasers to produce light beams aimed at one or more objects in an image scene and the reflected light is used to determine the distance from the object to the distance measuring device.
    The power and the type of light source will depend on the particular application but, generally, the higher the power and the narrower the light beam, the more the distance that can be measured is. high.
    The light source used to produce the light beam is generally covered by a diffuser which spreads the beam and thus reduces its intensity to a certain extent. In this configuration, the light beam is generally not considered to be harmful to the user. However, if the diffuser detaches or is otherwise removed from the device, the intensity of the light source may be
    B17363 - 18-GR2-0121 as it may cause damage, for example in the eyes of a user.
    There is a need for a technical solution to reduce the risk of damage in electronic devices comprising such light sources.
    Summary of
    1'invention An object of embodiments of the present invention is to meet one or more needs of the prior art.
    In one aspect, an electroluminescent device is provided comprising a light source mounted on a substrate; a wire delivering a supply voltage or activation signal to the light source, the wire having a first end welded to a contact region of the substrate, a second end welded to a contact region on a face of the light source and an intermediate section connecting the first and second ends and extending over one face of the substrate; a cover covering the light source and provided with a diffuser capable of diffusing the light produced by the light source; and either of: a volume of adhesive fixing the intermediate section of the wire to the cover; or an arm fixed to the cover and extending between the intermediate section of the wire and the s ub s t r a t.
    According to one embodiment, the electroluminescent device comprises the volume of adhesive in contact with at least two faces of the cover.
    According to one embodiment, the total contact surface between the volume of adhesive and the cover is greater than the contact surface between the volume of adhesive and the substrate
    B17363 - 18-GR2-0121 According to one embodiment, the total contact surface between the volume of glue and the cover is at least 50 percent greater than the contact surface between the volume of glue and the substrate .
    According to one embodiment, the cover comprises a well intended to receive the glue, the wire passing through the well [0012] According to one embodiment, the well has an opening in an external face of the cover.
    According to one embodiment, the electroluminescent device comprises the arm, at least one end of which is fixed to the cover.
    According to one embodiment, the cover comprises a through hole and one end of the arm extends at least partially into the through hole.
    According to one embodiment, the end of the arm which extends at least partially into the through hole is glued to the cover in the through hole.
    According to one embodiment, another end of the arm extends at least partially into another through hole in the cover.
    In another aspect, there is provided a method of assembling an electroluminescent device, this method comprising the steps of: soldering a first end of a wire. to a contact region of a substrate and a second end of the wire to a contact region on a face of a light source mounted on the substrate, an intermediate section of the wire connecting the first and second ends and extending over a face of the substrate, the wire delivering a supply voltage or activation signal to the light source; and fix a
    B17363 - 18-GR2-0121 cover to the substrate, the cover covering the light source and comprising a diffuser capable of diffusing the light produced by the light source, in which a volume of glue fixes the intermediate section of the wire to the cover or an arm is attached to the cover and extends between the intermediate section of the wire and the substrate.
    According to one embodiment, the method further comprises, before fixing the cover to the substrate, the steps consisting in: depositing a liquid adhesive on a part of the intermediate section of the wire; placing the cover on the substrate so that at least two faces of the cover are brought into contact with the liquid adhesive; and solidify the liquid glue to form the volume of glue.
    According to one embodiment, the method further comprises the steps of: injecting a liquid adhesive into an opening in an external face of the cover to at least partially fill a well formed in the cover, through which the wire passes ; and solidify the liquid glue to form the volume of glue.
    According to one embodiment, the method further comprises, before fixing the cover to the substrate, the steps consisting in: positioning the arm on the surface of the substrate so that it extends at least partially between the section intermediate of the wire and the surface of the substrate; and placing the cover on the substrate so that at least one end of the arm extends at least partially into a through hole in the cover.
    According to one embodiment, the method further comprises the step of gluing the at least one end of the arm to the cover in the through hole.
    Brief description of the figures
    B17363 - 18-GR2-0121 These characteristics and their advantages, as well as others, will be explained in detail in the following description of particular embodiments given by way of nonlimiting illustration in relation to the attached figures, among :
    [Fig. 1] Figure 1 is a plan view of part of an electroluminescent device according to an exemplary embodiment of the present invention;
    [Fig. 2] Figure 2 is a sectional view of the electroluminescent device of Figure 1 according to an exemplary embodiment;
    0025] [Fig. 3] the figure is a sectional view of a glue well of a cover of the electroluminescent device of figures and 2 according to an exemplary embodiment;
    [Fig. 4] Figure 4 is a sectional view of a wire of the electroluminescent device of Figure 1 according to an alternative embodiment relative to that of Figure 2 [0027] [Fig. 5] Figure 5 is a plan view of a portion of an electroluminescent device according to another embodiment of the present invention;
    [Fig. 6] Figure 6 is a sectional view of the electroluminescent device of Figure 1 according to an exemplary embodiment;
    [Fig. 7] Figure 7 is a perspective view of a glue well of a cover of the electroluminescent device of Figures 5 and 6 according to an exemplary embodiment;
    [Fig. 8] Figure 8 is a plan view of part of an electroluminescent device according to another embodiment of the present invention;
    B17363 - 18-GR2-0121
    0031] [Fig. 9] Figure 9 is a perspective view of an arm of the electroluminescent device of Figure 8 according to an exemplary embodiment;
    0032] [Fig. 10] Figure 10 is a perspective view of an arm of the electroluminescent device of Figure 8 according to an alternative embodiment to that of Figure 9 · [0033] [Fig. 11] Figure 11 is a perspective view of an arm of the electroluminescent device of Figure 8 according to yet another alternative embodiment relative to that of Figure 9; and [0034] [Fig. 12] Figure 12 is a sectional view of the light emitting device of Figure 8 according to an exemplary embodiment.
    Description of embodiments
    The same elements have been designated by the same references in the different figures. In particular, the structural and / or functional characteristics common to the various embodiments may be designated by the same references and may have identical structural, dimensional and material properties, [0036]
    Unless otherwise indicated, the term connected is used to denote a direct electrical connection between circuit elements, while the term connected or coupled is used to denote an electrical connection between circuit elements which may be direct or made by through one or more elements.
    In the following description, unless otherwise indicated, when reference is made to qualifiers of absolute position such as the terms front, rear,
    B17363 - 18-GR2-0121 top, bottom, left, right, etc. or relative position qualifiers such as terms above, below, top, bottom, etc. or to orientation qualifiers such as horizontal, vertical, etc., we refer to the orientation shown in the section views.
    Unless otherwise indicated, the expressions approximately, approximately, substantially and of the order of denote a tolerance of ± 10%, preferably of ± 5%.
    We use here the term diffuser to designate any element formed of a material relatively transparent to the wavelengths of the light beam which it must diffuse. For example, a diffuser has a transmission rate of 90 percent or more for these wavelengths. A diffuser can be formed from a single solid material or can be formed by assembling multiple materials, in which case only part of the diffuser can be transparent. For example, the diffuser is made of glass or plastic. The transmission surfaces of the diffuser are for example flat. Alternatively, either or both of the transmission surfaces may not be flat to increase the scattering effect and / or to perform other optical functions.
    Figure 1 is a plan view of part of the electroluminescent device 100 according to an exemplary embodiment.
    The electroluminescent device 100 comprises a light source 102, for example, a laser, such as a laser with a vertical cavity emitting from the surface (VCSEL). The light source 102 has for example a power greater than 1 W. The light source 102 is covered by a cover 104, part of which is shown in FIG. 1.
    B17363 - 18-GR2-0121
    The light source 102 is supplied and / or controlled by means of a wire 106. The wire 106 has for example a diameter or thickness less than or equal to 25 μm.
    The wire 106 has one of its ends welded to a contact region 108 of a substrate 109 on which the light source 102 is mounted. The other end of the wire 106 is welded to a contact region 110 on a face of the light source 102, which is for example an upper face of the light source 102. An intermediate section of the wire 106 between its ends passes for example through a volume of glue 112 fixed to the cover 104, the glue being represented by a region hatched at the figure 1.
    The cover 104 has for example opaque walls defining an enclosure 113 in which the light source 102 is mounted. The enclosure 113 is substantially rectangular in plan view, the cover 104 comprising for example substantially parallel walls 114, 116 facing each other, and other walls 118, 120 also facing each other and extending between the walls 114, 116, thereby closing the ends of the enclosure 113.
    In certain embodiments, the wall 120 is an internal wall which separates the enclosure 113 containing the light source 102 from the adjacent enclosure 124 containing an image sensor or the like.
    The glue 112 is for example a non-conductive glue. For example, glue 112 could correspond to that marketed under the name LOCTITE ABLESTIK ABP 8420 by the company AG & Co. (the names ’'Henkel, LOCTITE and ABLESTIK may correspond to registered trademarks.). The same adhesive is for example used to fix the cover 104 to the substrate 109.
    B17363 - 18-GR2-0121 The volume of glue 112 is for example contained in a well 126 delimited by the shape of the cover 104. For example, the well 126 is laterally delimited by a part of an internal face 128 of the wall 118 of the cover 104 and by walls 130, 132 extending substantially perpendicularly from the internal face 128.
    The thickness w between the internal faces of the walls 130, 132 is for example between 50 and 300 μm.
    Figure 2 is a sectional view of the light emitting device 100 of Figure 1 along the line in dashed lines Ά-Ά in Figure 1, which passes through the light source 102, the wire 106 and the contact regions 108 and 110.
    04 6] Like the representative: you figure 2, cover 1 ( 34 includes for example a part superior tor horizontal 2 ( ) 2 covering 1 enclosure 113 form by the walls 114, 116, 118 and 120 (only last two e r e s p a r o i s s ο n t v r s i o 1 e s on the view
    in Figure 2). The horizontal upper part 202 is for example opaque and has an opening 204 positioned above the light source 102, through which the light beam produced by the light source 102 can pass. A diffuser 206 passes through the opening
    202. In the example of FIG. 2, the diffuser 206 is mounted on an internal face 208 of the horizontal upper part 202, for example in a recess, thereby reducing the risk that the diffuser 206 will come off from the cover 104.
    The cover 104 is fixed to the wire 106 so that if the cover 104 becomes detached from the substrate 109, the wire will be broken and the electrical connection to the light source 102 interrupted. In the example of FIGS. 1 and 2, this is achieved by means of the volume of glue 112, at least part of which extends for example between the wire 106 and the surface
    B17363 - 18-GR2-0121 of the substrate 109 for retaining the wire 106. For example, the intermediate section of the wire 106 reaches a height h of, for example, at least 100 μm from the surface of the substrate 109, allowing the glue 112 to penetrate into this gap between the wire 106 and the substrate 109. In certain embodiments, the height h is at least 30 μm greater than the height h ′ of the surface of the contact region 110.
    The contact surface between the volume of adhesive 112 and the faces of the cover 104 is for example greater than the contact surface between the volume of adhesive 112 and the surface of the substrate 109 / contact region 108 and in some cases is 50 percent higher. This reduces the risk that the cover 104 will come off, leaving the glue 112 attached to the substrate 109. In addition or alternatively, the surface roughness of the cover 104 in the region of contact with the. glue 112 could be higher than that of the substrate. 109 and / or of the contact region 108 in the regions of contact with the adhesive 112, thereby promoting the solidarity of the adhesive with the cover 104. In addition or as a variant, the surface of the substrate 109 must be in contact with the volume of glue could be treated to make it less adhesive, for example by means of grease or the like.
    In the example of FIG. 2, the wire 106 is fixed by reverse welding, a ball weld 210 being produced on the contact region 108 and a seam spot weld 212 being produced on the contact region 110.
    Figure 3 is a sectional view along a line in dashed lines E> -B of Figure 1 passing through the walls 130, 132 and the volume of glue 112.
    B17363 - 18-GR2-0121 A 1 / example of FIG. 3, the volume of glue 112 extends beyond the well 126 and therefore takes on a substantially mushroom shape, the glue contacting the upper faces 302 and 304 of the walls 130, 132, respectively. Such an overflow allows additional anchoring of the wire 106 by the volume of glue 112. In certain cases, to prevent the glue 112 from dripping onto the substrate 109 before having hardened, the walls 130, 132 include overhanging parts 306 and 308 which respectively increase the surface of the upper faces 302, 304 of the walls 130,
    132.ta Figure 4 is a sectional view of the light source
    102, of the contact region 110, from wire 106, of the volume of glue 112 and substrate 206 similar e to that of the figure 2, except that the f 11 10 6 is fixed by welding direct welding by bi 1 the 402 é L ci Π t 'C é ci Used on the
    contact region 110 and a seam spot
    404 being produced on the contact region 108.
    The method of assembling the electroluminescent device 100 of FIGS. 1 to 4 comprises for example the steps consisting in:
    soldering a first end of the wire 106 to the contact region 108 of the substrate 109 and a second end of the wire 106 to the contact region 110 on the surface of the light source 102;
    - Attach the cover 104 to the substrate 109 so that it covers the light source 102;
    - depositing a liquid adhesive in a pattern on the substrate 109, for example, by covering a part of the intermediate section of the wire 106;
    - Place the cover 104 on the substrate 109 so that at least two faces of the cover are brought into contact with the liquid adhesive. The liquid adhesive penetrates, for example, into the well 126 and overflows in certain cases; and
    B17363 - 18-GR2-0121
    solidifying the liquid adhesive to form the volume of adhesive 112 fixing the wire 106 to the cover 104, for example extending at least partially between the wire 106 and the substrate 109.
    Figure 5 is a plan view of part of the electroluminescent device 500 according to another exemplary embodiment. The device 500 is similar to the device 100, and the same elements have been designated by the same references and. will not be described again.
    [0055]
    In the embodiment of Figure 5, the walls
    130, 132 defining the well 126 are replaced by a structure 502 comprising a hole 504 at least partially filled with the volume of adhesive 112. In certain embodiments, the opening of the hole 504 in the external face of the cover 104 comprises a chamfer 505 to receive the glue 11 [0056] FIG. 6 is a sectional view of the electroluminescent device 500 of FIG. 5 along the line in dashed lines CC of FIG. 5 passing through the wall 120, the wire 106, the contact regions 108 and 110 and hole 504.
    It is observed in Figure 6 that the hole 504 extends through the horizontal upper part 202 of the cover 104 and in the direction of the substrate 109. The upper part of the hole 504 comprises the chamfer 505 which is for example at least partially filled with glue 112. A lower part of the hole 504 defines the well 126 receiving the volume of glue 112 and through which the wire 106 passes.
    So, hole 504 is. open, on the outside of the cover
    104, allowing the injection of glue 112 into the well
    126 after placing the cover 104 in position.
    The structure
    502 comprises an opening 602 on the side leading to the light source 102, through which the wire 106 passes.
    B17363 - 18-GR2-0121
    This opening 602 also allows the positioning of the cover 104 on the substrate 109 without interfering with the wire 106, before the injection of the glue 112. For example, the opening 602 has a height h above the surface of the substrate 109 at least as high as the height h 'of the surface of the contact region 110.
    In the example of Figure 6, the volume of glue 112 fills the entire height of the hole 504 and even slightly overflows the hole 504. In alternative embodiments, the volume of glue 112 only partially fills the hole 504 , for example from the surface of the substrate 109 and / or from the contact region 108, to cover at least the intermediate section of the wire 106. The quantity of adhesive 112 is for example chosen to avoid the passage of the adhesive through the opening 602 and in the enclosure containing the light source 102.
    Figure 7 is a perspective view of the structure 502 without the glue 112. In the example of Figure 7, the opening 602 is rectangular, although other shapes are possible. The thickness w of this opening is for example between 50 and 300 gm.
    A method of assembling the electroluminescent device of FIGS. 5 to 7 comprises for example the steps consisting in:
    - solder a first end of the wire 106 to the contact region 108 of the substrate 109 and a second end of the wire
    106 to the contact region 110 on the surface of the light source 102;
    - Attach the cover 104 to the substrate 109 so that it covers the light source 102;
    - inject a liquid glue into the hole 504 in the external face of the cover 104 to at least partially fill
    B17363 - 18-GR2-0121 the well 126 in the cover 104, through which the wire passes; and solidify the liquid glue to form the volume of glue 112.
    Figure 8 is. a plan view of part of the electroluminescent device 800 according to yet another exemplary embodiment. The device 800 is similar to the device 100, and the same elements have been designated by the same references and will not be described again.
    In the embodiment of FIG. 8, the wire is hooked to the cover 104 by an arm 8 02 which comprises a substantially horizontal part 804 which extends between the surface of the substrate 109 and the wire 106, or one or more substantially vertical parts fixed to the cover 104. For example, the arm 802 comprises a vertical part 806 and in certain embodiments, an additional vertical part 808, which are fixed to the cover. 104, as will now be described in more detail with reference to the figures in 12.
    0 63] Figure 9 is a perspective view of the arm 802 according to an example in which it is substantially L-shaped. The horizontal part 804 of the arm 802 rests for example on the surface of the substrate 109 and the wire 106 passes for example from contact region 108 to contact region 110 on the light source (not shown in the
    figure 9 ) in pass 8. ± 11 SUT -L cL f ) artie horizon itale 804. In some modes of r 'é a 1 i s a t i ο n , a region higher 902 from pa rtie ho laughed zontale 806 includes a f a c e t e x t u r e, for example island, by c the ribs horizontal, for am1 r o r e r
    adhesion to the cover 104 (not shown in FIG. 9).
    The arm 802 has for example a square or rectangular section, although other shapes are also
    B17363 - 18-GR2-0121 possible. It has for example a width or a thickness of between 100 and 200 μm and is for example molded from plastic.
    Figure 10 is a perspective view of the arm 8 02 according to an alternative embodiment to, in Figure 9, wherein the horizontal part 804 has an increased thickness to provide a stable base less likely to tip over of the assembly. For example, the thickness w ′ of the part 804 is at least 300 μm and for example between 400 μm and 800 μm.
    Figure 11 is a perspective view of the arm 8 02 according to another alternative embodiment in which it. is substantially U-shaped. The horizontal part 804 of the arm 802 rests for example on the surface of the substrate 109 and the wire 106 passes for example from the contact region 108 to the contact region 110 on the light source (not shown in Figure 11) passing over the horizontal part 804. The vertical parts 806 and 808 are for example both fixed to the cover 104 (not shown in Figure 11). Although not illustrated in FIG. 11, the two vertical parts 806 and 808 could include textured upper regions, as in the embodiment of FIG. 9. Furthermore, in certain embodiments, the arm 802 of FIG. 11 could be adapted to understand the wider horizontal part 804 of the. Figure 10 to ensure increased stability during assembly.
    Figure 12 is a sectional view of the light emitting device 800 of Figure 8 along the line in dashed lines DD of Figure 8 passing through the wall 120, the wire 106, the contact regions 108 and 110 and the wall 118 .
    As shown by the dashed lines in the.
    B17363 - 18-GR2-0121 in figure 12, the vertical section 806 of the arm 802 passes for example through a through hole 12 02 in the roof part 202. The through hole 1202 is for example wider by a value between 50 and 100 μm as the arm 802, offering a tolerance to facilitate the placement of the arm 802 in the through hole 1202.
    The upper part of the arm 802 is for example glued to the cover 104 at the level of the mouth of the through hole 1202 with glue 1204, for example an opaque or black glue. In some embodiments, the through hole 1202 includes a chamfer 1206 to receive the glue 1204.
    In the case where the arm 802 has the shape of FIG. 11, the vertical part 808 is for example fixed to the cover 104 in a similar manner to the vertical part 806.
    A method of assembling the electroluminescent device of FIGS. 8 to 12 comprises for example the steps consisting in: a:
    - solder a first end of the wire 106 to the contact region 108 of the substrate 109 and a second end of the wire
    106 to the contact region 110 on the surface of the light source 102;
    - Position the arm 802 on the surface of the substrate 109 so that it extends at least partially between the intermediate section of the wire 106 and the surface of the substrate.
    For example, in certain embodiments, the arm 802 is temporarily fixed to the substrate 109, for example, by a hot peel-off ribbon such as that sold under the name Revalpha (the name Revalpha may correspond to a registered trademark). Such a tape can lose its adhesive properties by heating, for example between 150 and 200 ° C, after fixing the cover. 104 to the substrate.
    B17363 - 18-GR2-0121
    Alternatively, one could use the arm 802 of Figure 10, having a relatively wide base portion, reducing the risk of the arm falling. In addition or alternatively, the arm 802 could sit in a trench formed on the surface of the substrate 109;
    - Attach the cover 104 to the substrate 109 so that it covers the light source 102 and so that one end of the arm 802 extends through the through hole 1102 in the cover; and
    - stick the arm to the cover. 104 at least partially in the through hole 1202.
    An advantage of the embodiments described here is that by providing a cover fixed or hung on a wire which supplies the light source, the light source can be deactivated in a simple and effective manner in the case where the cover detaches from the substrate 109.
    Various embodiments and variants have been described.
    Those skilled in the art will understand that certain features of these embodiments can be combined and other variants will appear to those skilled in the art. For example, it will be apparent to those skilled in the art that while we have described embodiments in which a single wire 106 is connected between the substrate 109 and the light source 102, there could be more 'A wire in alternative embodiments, each wire being for example glued or hung on the cover. For example, two wires could provide high supply voltages and
    low or one summer ns j_on power and a signal activatii □ Π. f Θ t 1 ci source light 102 is off: L.vee by breaking όθ 1 f Lin j of these son.L 007 3] In or be, the other embodiments for would go to be combi born. Through exempl e, it would be possible to cl .t. O 1. S
    B17363 - 18-GR2-0121
    to stick the wire 106 on course + - as we described him in relationship with the Figures 1 to 4 c ju figi ores 5 to 7, and also u - till: hold your arm 802 horn on described him in relationship with the Figures 8 to 12.
    权利要求:
    Claims (15)
    [1" id="c-fr-0001]
    1. Light-emitting device comprising:
    - a light source (102) mounted on a substrate (109);
    - a wire (106) delivering a supply voltage or activation signal to the light source (102), the wire (106) having a first end welded to a contact region (108) of the substrate, a second end welded a contact region (110) on one side of the light source (110) and an intermediate section connecting the first and second ends and extending on one side of the substrate (109);
    - a cover (104) covering the light source (102) and provided with a diffuser (206) capable of diffusing the light produced by the light source (102); and either of:
    - A volume of adhesive (112) fixing the intermediate section of the wire (106) to the cover (104); or
    - An arm (802) fixed to the cover (104) and extending between the intermediate section of the wire (106) and the substrate (109).
    [2" id="c-fr-0002]
    2. An electroluminescent device according to claim 1, comprising the volume of adhesive (112) in contact with at least two faces of the cover (104).
    [3" id="c-fr-0003]
    3. An electroluminescent device according to claim 2, in which the total contact surface between the adhesive volume (112) and the cover (104) is greater than the contact surface between the adhesive volume (112) and the substrate (109 ).
    [4" id="c-fr-0004]
    4. The light-emitting device as claimed in claim 3, in which the total contact surface between the volume of glue (112) and the cover (104) is at least 50 percent greater than the contact surface between the volume of glue (112 ) and the substrate (109).
    [5" id="c-fr-0005]
    5. An electroluminescent device according to any one of claims 2 to 4, in which the cover (104) comprises a well (126) intended to receive the adhesive, the wire passing through the well (126).
    [6" id="c-fr-0006]
    6. An electroluminescent device according to claim 5, in which the well (126) has an opening (504) in an external face of the cover (104).
    [7" id="c-fr-0007]
    7. An electroluminescent device according to claim 1, comprising the arm (802) at least one end of which is fixed to the cover (104).
    [8" id="c-fr-0008]
    8. The light-emitting device as claimed in claim 7, in which the cover (104) comprises a through hole (1202) and one end of the arm (802) extends at least partially in the through hole (1202).
    [9" id="c-fr-0009]
    9. An electroluminescent device according to claim 8, in which the end of the arm which extends at least partially into the through hole (1202) is glued to the cover (104) in the through hole.
    [10" id="c-fr-0010]
    10. An electroluminescent device according to claim 8 or 9, in which another end of the arm extends at least partially into another through hole in the cover (104).
    [11" id="c-fr-0011]
    11. Method for assembling an electroluminescent device, this method comprising the steps consisting in:
    - soldering a first end of a wire (106) to a contact region (108) of a substrate (109) and a second end of the wire to a contact region (110) on a face of a light source ( 102) mounted on the substrate (109), an intermediate section of the wire (106) connecting the first and second ends and extending on one face of the substrate (109), the wire (106) delivering a supply or signal voltage activation at the light source (102); and
    - Attaching a cover (104) to the substrate (109), the cover (104) covering the light source (102) and comprising a diffuser (206) capable of diffusing the light produced by the light source (102), in which a volume glue (112) fixes the intermediate section of the wire (106) to the cover (104) or an arm (802) is fixed to the cover (104) and extends between the intermediate section of the wire (106) and the substrate (109 ).
    [12" id="c-fr-0012]
    12. The method of claim 11, further comprising, before fixing the cover to the substrate, the steps consisting in:
    - deposit a liquid adhesive on a part of the intermediate section of the wire (106);
    - Place the cover (104) on the substrate (109) so that at least two faces of the cover (104) are brought into contact with the liquid adhesive; and
    - solidify the liquid glue to form the volume of glue (112).
    [13" id="c-fr-0013]
    13. The method of claim 11, further comprising the steps of:
    - injecting a liquid glue into an opening (504) in an external face of the cover (104) to at least partially fill a well (126) formed in the cover, through which the wire (106) passes; and - solidifying the liquid glue to form the volume of glue (112).
    [14" id="c-fr-0014]
    14. The method of claim 11, further comprising, before fixing the cover (104) to the substrate (109), the steps consisting in:
    - Positioning the arm (802) on the surface of the substrate (109) so that it extends at least partially between the intermediate section of the wire (106) and the surface of the substrate; and
    - Place the cover (104) on the substrate (109) so that at least one end of the arm (802) extends at least partially in a through hole (1202) in the cover (104).
    [15" id="c-fr-0015]
    15. The method of claim 14, further comprising the step of gluing the at least one end of the arm (802) to the cover (104) in the through hole (1202).
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    同族专利:
    公开号 | 公开日
    US20200072446A1|2020-03-05|
    FR3085465B1|2021-05-21|
    US10941921B2|2021-03-09|
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    法律状态:
    2019-07-22| PLFP| Fee payment|Year of fee payment: 2 |
    2020-03-06| PLSC| Search report ready|Effective date: 20200306 |
    2020-07-21| PLFP| Fee payment|Year of fee payment: 3 |
    2021-07-22| PLFP| Fee payment|Year of fee payment: 4 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1857833A|FR3085465B1|2018-08-31|2018-08-31|LIGHT SOURCE PROTECTION MECHANISM|FR1857833A| FR3085465B1|2018-08-31|2018-08-31|LIGHT SOURCE PROTECTION MECHANISM|
    CN201920790079.0U| CN210153731U|2018-06-12|2019-05-29|Housing of light source mounted on substrate and electronic device|
    CN201910455829.3A| CN110594704B|2018-06-12|2019-05-29|Protection mechanism of light source|
    CN201920842022.0U| CN210118715U|2018-06-12|2019-06-05|Housing for light source mounted on substrate and electronic apparatus|
    US16/432,577| US10865962B2|2018-06-12|2019-06-05|Protection mechanism for light source|
    CN201910485809.0A| CN110594705A|2018-06-12|2019-06-05|Protection mechanism of light source|
    US16/432,576| US11211772B2|2018-06-12|2019-06-05|Protection mechanism for light source|
    US16/432,561| US10777710B2|2018-06-12|2019-06-05|Protection mechanism for light source|
    CN201910514795.0A| CN110594598B|2018-06-12|2019-06-10|Protection mechanism for light source|
    CN201920863052.XU| CN210069756U|2018-06-12|2019-06-10|Electronic device and housing for light source mounted on substrate|
    US16/439,308| US10738985B2|2018-06-12|2019-06-12|Housing for light source|
    US16/552,419| US10941921B2|2018-08-31|2019-08-27|Protection mechanism for light source|
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