• 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 vehicle interior lighting apparatus for illuminating the interior of a vehicle, having a first illumination section having a light source (33) emitting light and a light guide plate light emitting light due to light from the light source, wherein the first illumination section has a planar light emitting section (31) emitting light emitted from the light source of a light source planar manner and a linear light emitting section (32) integral with the planar light emitting section and emitting light emitted from the light source linearly.
    公开号:FR3049530A1
    申请号:FR1752870
    申请日:2017-04-03
    公开日:2017-10-06
    发明作者:Tomonori Ohashi;Kazuya Sato
    申请人:Yazaki Corp;
    IPC主号:
    专利说明:

    VEHICLE INTERIOR LIGHTING APPARATUS
    CROSS REFERENCE TO RELATED APPLICATIONS
    This application is based on and claims priority over Japanese Patent Application No. 2016-075460 filed April 4, 2016, the entire contents of which are incorporated herein by reference.
    BACKGROUND OF THE INVENTION
    TECHNICAL AREA
    The present invention relates to a vehicle interior lighting apparatus.
    BACKGROUND OF THE INVENTION
    Automobiles are equipped with vehicle interior lighting to illuminate the interiors of vehicles. In recent years, vehicle interior lighting fixtures for decorating vehicle interiors are available (see Patent Documents JP-A-2011-110977 and JP-A-2014-73761). ABSTRACT
    In a conventional vehicle interior lighting apparatus, however, illumination light sources, such as LEDs, are emitted to emit light to illuminate the vehicle interior, whereby the effect decorative of the device is weak.
    The present invention has been created in consideration of the foregoing circumstances, and an object of the present invention is to provide a vehicle interior lighting apparatus capable of achieving a high decorative effect.
    In order to achieve the aforesaid object, a vehicle interior lighting apparatus according to the present invention is characterized as described in the following articles (1) to (4). (1) Vehicle interior lighting apparatus for illuminating the interior of a vehicle, comprising: a linear linear light emission illumination device having a light source and a light guiding light emitting element; light due to light from the light source, wherein the planar linear light emission illumination device comprises: a plane light emitting light emitting section in a plane manner and a light emitting section; linear light emission integral with the plane light emitting section and emitting light linearly. (2) Vehicle interior lighting apparatus according to the above-mentioned article (1), wherein the planar linear light emission illumination device is disposed near a predetermined location to be operated or used by the occupant of the vehicle, and the predetermined location is illuminated by irradiated light from the plane light emitting section. (3) Vehicle interior lighting apparatus according to the above-mentioned article (2), wherein the predetermined location to be illuminated by light from the plane light emitting section is at least one of a storage section and a switch section on a door. (4) A vehicle interior lighting apparatus according to the above-mentioned item (2), wherein the predetermined place to illuminate by light from the plane light-emitting section is a console box.
    With the vehicle interior lighting apparatus configured as described in the aforesaid article (1), the linear light emitting section is integral with the planar light emitting section, the emitting section planar light emits light in a plane manner and the linear light emitting section emits light linearly due to light from the light source. Thus, the vehicle interior lighting device can illuminate the vehicle interior with a high decorative effect because of the illumination light in which the linear light emission is combined with the plane light emission in comparison with a vehicle interior lighting apparatus equipped with an illumination section simply emitting light in a plane manner or equipped with an illumination section simply emitting light in a linear fashion.
    With the vehicle interior lighting apparatus configured as described in the above-mentioned article (2), the predetermined location to be operated or used by the occupant of the vehicle is illuminated by light from the vehicle section. flat light emission from the flat linear light emission illumination device, whereby the ability to operate and use the predetermined location can be improved, and a decorative effect can also be obtained by the light 'illumination.
    With the vehicle interior lighting apparatus configured as described in the above-mentioned article (3), at least one of the storage section and the switch section on the door can be illuminated by the light coming from the flat light emission section of the flat linear light emission illumination device, and a decorative effect can also be retained by the illumination light.
    With the vehicle interior lighting fixture configured as described in item (4) above, the console box may be illuminated by light from the plane light emitting section of the illumination device. flat linear light emission, and a decorative effect can also be obtained by the illumination light.
    The present invention can provide a vehicle interior lighting apparatus capable of achieving a high decorative effect.
    The present invention has been briefly described above. In addition, the details of the present invention will be further clarified by reading the mode descriptions (hereinafter referred to as "embodiments") to implement the invention to be described below with reference to the accompanying drawings.
    BRIEF DESCRIPTION OF THE DRAWINGS
    Fig. 1 is a schematic view illustrating the vehicle interior of an automobile provided with a vehicle interior lighting apparatus according to one embodiment; Figs. 2A and 2B are schematic configuration views illustrating the respective illumination sections of the vehicle interior lighting apparatus according to the embodiment; FIG. 3 is a schematic perspective view illustrating a planar linear light emitting illumination device constituting a first illumination section; FIG. 4 is a cross-sectional view illustrating the linear linear light emitting illumination device constituting the first illumination section; FIG. 5 is a schematic cross-sectional view illustrating the interior panel of a door provided with the first illumination section; FIG. 6 is a perspective view illustrating the armrest of the inner panel provided with the first lighting section; FIG. 7 is a schematic cross-sectional view illustrating the interior panel of the door provided with a second lighting section; FIG. 8 is a block diagram illustrating the control system of the vehicle interior lighting apparatus according to the embodiment; FIG. 9 is a schematic cross-sectional view illustrating a door pocket according to another embodiment; and FIG. 10A is a schematic cross-sectional view illustrating a light guiding element constituting a light emitting illumination device for a door pocket, and FIG. 10B is a schematic perspective view illustrating the light guiding element. DETAILED DESCRIPTION OF EMBODIMENTS Specific embodiments according to the present invention will be described below with reference to the accompanying drawings.
    Fig. 1 is a schematic view illustrating the vehicle interior of an automobile provided with a vehicle interior lighting apparatus according to one embodiment. Figs. 2A and 2B are schematic configuration views illustrating the respective lighting sections of the vehicle interior lighting apparatus according to the embodiment. Fig. 3 is a schematic perspective view illustrating a planar linear light emission illumination device constituting a first illumination section. Fig. 4 is a cross-sectional view illustrating the planar linear light emission illumination device constituting the first illumination section. Fig. 5 is a schematic cross-sectional view illustrating the interior panel of a door provided with the first illumination section. Fig. 6 is a perspective view illustrating the armrest of the inner panel provided with the first lighting section. Fig. 7 is a schematic cross-sectional view illustrating the interior panel of the door provided with a second lighting section.
    As illustrated in FIG. 1, a vehicle interior lighting apparatus 11 according to the embodiment is disposed on the door 1 and the console 6 of an automobile. The vehicle interior lighting apparatus 11 has a first lighting section 21, a second lighting section 22 and a third lighting section 23.
    The first lighting section 21 and the second lighting section 22 are arranged on the inner panel 2 of the door 1. The first lighting section 21 and the second lighting section 22 are both lighting devices. long lighting.
    The first lighting section 21 is in a position approximately intermediate in the height direction of the inner panel 2 of the door 1. The first lighting section 21 is disposed along the armrest 3 located on the inner panel 2 A switch section 4 for a power window and a door lock is located on the front vehicle side of the armrest 3, and an armrest storage section 5 is located on the rear vehicle side of the armrest 3.
    On the inner panel 2, the second lighting section 22 is on the lower side of the first lighting section 21. The second lighting section 22 is disposed above a door pocket 8 which is located at the lower portion of the inner panel 2. The second illumination section 22 is arranged to be inclined downward while being gently curved from the front side to the rear side of the vehicle. The end section of the second lighting section 22 on the front side of the vehicle is disposed near the lower section of the first lighting section 21, and the end section thereof on the rear side of the vehicle is arranged near the lower end of the door 1.
    The third lighting section 23 is in the console 6. The console 6 is provided with a console box 7, and the third lighting section 23 is disposed at the lower section of the console box 7.
    As illustrated in Figs. 2A and 2B, the first illumination section 21 has a plane light emitting section 31, a linear light emitting section 32 and a light source 33. The first illumination section 21 is a light emitting device. flat linear light emission illumination in which the planar light emitting section 31 and the light emitting section 32 emit light due to light from the light source 33.
    The specific structure of the first illumination section 21 formed of the linear linear light emitting illumination device in which the plane light emitting section 31 and the linear light emitting section 32 emit light due to light from the light source 33 will be described here.
    As illustrated in Figs. 3 and 4, the first illumination section 21 composed of the planar linear light emission illumination device comprises a light guide plate (light guide member) 35. The light guide plate 35 is formed of a resin material having a light guiding property. A reflecting plate 36 for reflecting light is on the back side of the light guide plate 35, and a diffusion layer 37 for diffusing the light is on the front side thereof. In addition, a lens array section 38 along which a plurality of lens sections 35a are arranged is on the back side of the light guide plate 35. These lens sections 35a are formed, for example, by laser processing, embossing or dot printing. A light emitting portion uniformly in a flat manner at a low luminance and a light emitting part linearly at a high luminance are on the light guide plate 35 when the processing to form the lens sections 35a is performed. Further, in the light guide plate 35, the light emitting portion uniformly in a planar manner at a low luminance is used as the plane light emitting section 31, and the linear light emitting portion 31 High luminance is used as the linear light emitting section 32. FIG. 3 illustrates a housing in which the linear light emitting section 32 has a circular cross-section.
    A housing 39 having a U-shaped cross section is attached to the edge section of the light guide plate 35, and the light source 33 mounted on a substrate 33a is attached to this housing 39. The light source 33 is consists of an LED (light-emitting diode) and is arranged to be opposite to the side face of the light-guiding plate 35.
    In the first illumination section 21 composed of the plane linear light emission illumination device configured as described above, the light L from the light source 33 enters from the side face of the light guide plate 35. The light L incident on the light guide plate 35 is guided in the light guide plate 35 in the state reflected by the front and rear faces of the light guide plate 35. In addition, the light L guided through the light guide plate 35 is reflected towards the front face side by the lens sections 35a of the lens array section 38 located on the back side having the reflection plate 36, scattered by the diffusion layer 37, and emitted uniformly from the surface of the plane light emitting section 31. In addition, a portion of the light L guided in the light guide plate 35 reaches the light emitting section linear light 32 and is emitted from the linear light emitting section 32. Thus, in the first illumination section 21, the flat light emitting section 31 emits light in a plane manner and the light emitting section linear light emission 32 emits light linearly.
    As illustrated in FIG. 5, the first lighting section 21 is housed inside the inner panel 2, and part of the first lighting section 21 is exposed from the hole in the inner panel 2 above the armrest 3. With this configuration, the light emitted from the linear light emitting section 32 and the flat light emitting section 31 of the first illumination section 21 is irradiated from the exposed portion to the interior of the vehicle.
    In addition, as illustrated in FIG. 6, the exposed portion of the plane light emitting section 31 of the first illumination section 21 inside the vehicle is disposed in the positions of the switch section 4 and the armrest storage section of the Thus, the switch section 4 and the armrest storage section 5 are illuminated by light from the plane light emitting section 31 of the first illumination section 21.
    As illustrated in FIG. 2A, the second illumination section 22 has a linear light emitting section (light emitting section) 42 and light sources 43 located at both ends of the linear light emitting section 42. The section linear light emission device 42 comprises a light guide rod. The light source 43 is comprised of an LED (light emitting diode), and light from the light sources 43 is guided to the linear light emitting section 42. Thus, the linear light emitting section 42 illuminates linearly in the second lighting section 22.
    As illustrated in FIG. 7, the second illumination section 22 is housed inside the inner panel 2. The linear light emitting section 42 of the second illumination section 22 is housed inside the groove section 45a of the 45 is installed in the inner panel 2. A cover 46 is installed on the open side of the groove section 45a of the strut 45, whereby the open portion of the groove section 45a of the strut 45 in which the Linear light emission 42 is housed and closed, whereby the linear light emitting section 42 is covered. Part of the cover 46 is exposed inside the vehicle. An optical section 47, such as a lens, for diffusing or condensing light is on the inner side of the exposed portion of the cover 46. Thus, the light emitted from the linear light emitting section 42 of the second Lighting section 22 is diffused or condensed by the optical section 47 and irradiated from the cover 46 towards the inside of the vehicle. The cover 46 is formed of a transparent colored resin material with, for example, a dark color, such as brown or black.
    As illustrated in FIG. 2B, the third illumination section 23 has a planar light emitting section 51, a linear light emitting section 52 and a light source 53. The planar light emitting section 51 comprises a guide plate from light. The light source 53 is comprised of an LED (light emitting diode), and the light from the light source 53 is guided to the plane light emitting section 51 and the linear light emitting section 52. Thus, in the third illuminating section 23, the flat light emitting section 51 is illuminated in a planar manner, and the linear light emitting section 52 illuminates linearly.
    Next, the control system of the vehicle interior lighting apparatus 11 will be described.
    Fig. 8 is a block diagram illustrating the control system of the vehicle interior lighting apparatus according to the embodiment.
    As illustrated in FIG. 8, the vehicle interior lighting apparatus 11 is equipped with an illumination control section 100. This illumination ECU 100 is connected to a vehicle ECU 101 for controlling the vehicle in a manner that General. The vehicle is equipped with a half-closed door detection section 102, a vehicle speed detection section 103, a vehicle interior temperature detection section 104, a photography section. 105, such as a training recorder, and an image analysis section 106. The half-closed door detection section 102, the vehicle speed detection section 103 and the detection section of Vehicle interior temperature 104 is connected to the vehicle ECU 101. The photograph section 105 is connected to the image analysis section 106, and the image analysis section 106 is connected to the vehicle ECU 101.
    The half-closed door detection section 102 detects the state of the half-closed door in which the door 1 of the vehicle is not completely closed and transmits the half-closed door detection signal obtained to the ECU. 101. The vehicle speed detection section 103 detects the vehicle speed during vehicle movement and transmits the obtained vehicle speed detection signal to the ECU 101. The vehicle interior temperature detection section 104 detects the vehicle interior temperature and transmits the vehicle interior temperature detection signal obtained at ECU 101. The photograph section 105 takes, for example, an image of a scene outside the vehicle. and transmits the obtained image signal to the image analysis section 106. The image analysis section 106 analyzes the image signal transmitted from the photography section 105 and transmits the image signal analyzed at the ECU 101. The ECU 101 transmits the half-closed door detection signal from the half-closed door detection section 102, the vehicle speed detection signal from the vehicle speed detection section 103, the vehicle interior temperature detection signal from the vehicle interior temperature detection section 104 and the image signal from the image analysis section 106 to the illumination ECU 100.
    The first illumination section 21, the second illumination section 22 and the third illumination section 23 are connected to the illumination ECU 100. A color control program 111 and a color representation table 112 are stored in the illumination ECU 100. The illumination ECU 100 generates illumination control signals according to the color control program 111 and the color representation table 112 based on the detection signal of the illumination ECU 100. half-closed door, the vehicle speed detection signal, the vehicle interior temperature detection signal and the image signal transmitted from the ECU 101. In addition, the ECU 100 transmits the control signals. illumination generated at the first illumination section 21, at the second illumination section 22 and at the third illumination section 23. Thus, the first illumination section 21, the second illumination section 22 and the third The illumination section 23 performs the illumination on the basis of the illumination control signals transmitted from the illumination ECU 100.
    Next, the illumination method in the vehicle interior lighting apparatus 11 will be described. The illumination ECU 100 controls the on / off operations and the light-emitting colors of the first illumination section 21 and the second illumination section 22 in control modes based on a plurality of themes. selected. (1) Scene-based control mode
    When the illumination ECU 100 is set to a scene-based control mode, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in color representing the scene at the same time. outside of the vehicle on the basis of the image signal. At this time, the illumination ECU 100 starts the color control program 111, identifies the colors having high occupancy levels within the image taken by the photograph section 105 and extracts two colors in the range (type) of the identified colors of the color representation table 112, and illuminates the first illumination section 21 and the second illumination section 22 in the two different extracted colors.
    For example, in the case where the photography section 105 photographs cherry trees while the vehicle is traveling along a row of cherry trees, the illumination ECU 100 illuminates the first illumination section 21 in pale pink and illuminates the second lighting section 22 in dark pink so as to represent the scene of the row of cherry trees.
    In the case where the photograph section 105 photographs a sea while the vehicle is traveling along the seaside, the illumination ECU 100 illuminates the first illumination section 21 in blue and illuminates the second illumination section 22. in light blue to represent the scene of the sea.
    In the case where the photograph section 105 photographs a forest while the vehicle is traveling in a mountainous region, the illumination ECU 100 illuminates the first illumination section 21 in green and illuminates the second illumination section 22 in green. -Yellow to represent the scene of the forest.
    In the case where the photography section 105 photographs a row of shops and houses while the vehicle is traveling in an urban area, the illumination ECU 100 illuminates the first illumination section 21 in purple and illuminates the second section of the light. lighting 22 in orange so as to represent the scene of the urban area.
    As described above, in the scene-based control mode, the illumination ECU 100 represents color scenes using the bidirectional illumination system composed of the first illumination section 21 and the second illumination section. lighting 22, thus producing scenes outside the vehicle.
    However, it is sometimes difficult to extract colors representing the scene outside the vehicle from the image photographed by the photograph section 105, for example, in the case where a previous vehicle is imposing. In this case, the illumination ECU 100 extracts the colors on the right side and on the left side of the image. Alternatively, the illumination ECU 100 can extract colors corresponding to predicted patterns or can select white-based anodyne colors. (2) Control mode based on vehicle interior temperature
    When the illumination ECU 100 is set to a control mode based on the vehicle interior temperature, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in color providing a comfortable feeling of temperature to the occupant of the vehicle based on the vehicle interior temperature sensing signal from the vehicle interior temperature sensing section 104. At this time, the vehicle ECU Illumination 100 illuminates the second illumination section 22 in a brighter white color than that of the first illumination section 21.
    For example, in the case where the temperature of the vehicle interior is 30 ° C or more, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two colors based on one another. on the blue which are of different intensity.
    In the case where the temperature of the vehicle interior is between 25 ° C and 30 ° C, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two colors based on on the light blue which are of different intensity.
    In the case where the temperature of the vehicle interior is between 20 ° C and 25 ° C, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two white colors. based on blue that are of different intensity.
    In the case where the temperature of the vehicle interior is between 15 ° C and 20 ° C, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two white colors. based on orange that are of different intensity.
    In the case where the temperature of the vehicle interior is between 10 ° C and 15 ° C, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two colors based on the illumination ECU 100. on the light orange that are of different intensity.
    In the case where the temperature of the vehicle interior is less than 10 ° C, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two colors based on the orange. which are of different intensity.
    As described above, in the control mode based on the vehicle interior temperature, the illumination ECU 100 represents the temperature of the vehicle interior in two cool colors giving a cooling sensation when the temperature of the vehicle the vehicle interior is high and in two warm colors giving a warm sensation when the temperature of the vehicle interior is low. (3) Control mode based on vehicle speed
    When the illumination ECU 100 is set to a control mode based on the vehicle speed, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in colors giving a uniform illumination. vehicle speed sensation to the occupant of the vehicle based on the vehicle speed detection signal from the vehicle speed detection section 103. At this time, the illumination ECU 100 illuminates the second section of the vehicle. illumination 22 in a white-based color brighter than that of the first illumination section 21.
    For example, in the case where the vehicle speed is low, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two colors based on the white.
    In the case where the vehicle speed is average, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two colors based on the orange.
    In the case where the vehicle speed is high, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 in two colors based on the red.
    However, in the control mode based on the vehicle speed, the illumination can be changed according to the vehicle speed with or instead of the change of the illumination color.
    For example, in the case where the vehicle speed is low, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 at a luminance of 20%.
    In the case where the vehicle speed is average, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 at a luminance of 50%.
    In the case where the vehicle speed is high, the illumination ECU 100 illuminates the first illumination section 21 and the second illumination section 22 at a luminance of 100%.
    As described above, in the vehicle speed based control mode, the illumination ECU 100 uses the bidirectional illumination system composed of the first illumination section 21 and the second illumination section 22. to produce a feeling of vehicle speed for the occupant. The illumination ECU 100 controls the illumination of the first illumination section 21 as a warning illumination for the half-closed door warning.
    More specifically, when the door 1 is not completely closed, that is to say, the door 1 is in the half-closed door state, based on the half-closed door detection signal. transmitted from the half-closed door detection section 102, the illumination ECU 100 sends a warning by flashing the first illumination section 21 to inform the occupant that the door 1 is half-closed.
    In this warning of the half-closed door, the illumination ECU 100, for example, flashes the first illumination section 21 in orange (a 1-second ignition and a 1-second shutdown is repeated) in a stadium. initially, then after a certain period of time (for example 10 seconds), the illumination ECU 100 flashes the first illumination section 21 in red (a 0.5 second ignition and a 0.5 second extinction). are repeated).
    As described above, with the vehicle interior lighting apparatus 11 according to this embodiment, the first illumination section 21 consists of a flat linear light emission illumination device in which the linear light emitting section 32 is integral with the plane light emitting section 31 so that the plane light emitting section 31 emits light in a plane manner and the emitting light section Linear light 32 emits light linearly due to light from the light source 33. Thus, the vehicle interior lighting apparatus 11 can illuminate the vehicle interior with a high decorative effect due to the illumination light in which the linear light emission is combined with the plane light emission in comparison with a vehicle interior lighting apparatus equipped with an illumination section emits as simply light in a flat manner or equipped with an illumination section simply emitting light linearly.
    In particular, since the first illumination section 21 composed of the linear linear light emitting illumination device is disposed near the armrest storage section and the switch section 4 to be operated or operated by the occupant, the armrest storage section and the switch section 4 may be illuminated by light from the plane light emitting section 31 of the first illumination section 21, whereby the actuation and the use of the armrest storage section and the switch section 4 can be improved, and a decorative effect can also be obtained by the illumination light.
    In addition, in the aforementioned embodiment, as a third illumination section 23, a planar linear light emission illumination device is used in which a linear light emitting section is integral with a section of light. emission of plane light. Since the linear linear light emission illumination device is in the console box 7 as described above, the console box 7 can be illuminated by the third illumination section 23 composed of the illumination device plane light emission, and a decorative effect can also be obtained by the illumination light.
    In addition, the planar linear light emitting illumination device is not limited to being located near the armrest storage section, the switch section 4 or the console box 7, but may be located, for example, on the inside handle, on the seat belt buckle, or inside the vehicle's bottle storage section, provided that the installation location of the device is near a predetermined location to be operated or used by the occupant.
    Fig. 9 is a schematic cross-sectional view illustrating a door pocket 8 according to another embodiment of the planar linear light emission illumination device. The flat linear light emission illumination device shown in the figure is installed inside the door pocket 8 and serves as a light emitting illumination device for the door pocket.
    The door pocket 8 has a slot-shaped opening 8a formed in the lower face thereof and a slot-shaped opening 8b formed in the position where the lower face and the side face thereof create a contact. with each other. In addition, a light guiding element 61 composed of an acrylic resin is installed in the bottom of the door pocket 8. The aperture 8a is shaped to guide the light emitted from the underside of the light guide member 61 downward, whereby the foot area of the occupant outside the vehicle is illuminated when the door 1 is open. In addition, the side face 65 of the light guide member 61 is exposed from the opening 8b, whereby light emitted from the side face of the light guide member 61 is guided downwardly. Thus, the occupant's foot zone is illuminated when the door 1 is closed.
    Fig. Fig. 10A is a schematic cross-sectional view illustrating the light guiding element 61 constituting the light-emitting illumination device for the door pocket, and 10B is a schematic perspective view illustrating the light guiding element 61.
    Conically cut sections 67 are formed at predetermined intervals on the upper face 62 and the lower face 63 of the light guide member 61. The light entering from a light source 71 is diffused by these cut sections 67 and then emitted upwardly and downwardly from the light guide member 61. The downward emitted light illuminates the foot-side area through the aperture 8a. On the other hand, the light emitted upwards illuminates the inside of the door pocket 8. That is, the light guide member 61 also performs plane light emission. In the case where the distance between the cut sections 67 is smaller than the cut sections 67 are further away from the light source 71, the luminance of light emitted from the upper face 62 of the light guiding member 61 becomes uniform. In addition, the cut section 67 may have other shapes, such as a wedge shape. Alternatively, in place of the cut sections, dots may be formed on the top face 62 by dot printing.
    Still further, the side face 65 of the light guide member 61 is cut obliquely so that the line normal thereto is directed downward into the vehicle interior, and the surface thereof is treated substantially so that light incident on the light guide member 16 is emitted from the side face 65. Thus, the side face 65 of the light guide member 61 is linearly exposed from the aperture 8a and serves as a linear light emitting section.
    However, the present invention is not limited to the above embodiments, but may be modified or improved if necessary. In addition, materials, shapes, dimensions, quantities, positions of arrangement, etc. respective components in the aforementioned embodiments may be arbitrary and not limited, provided that the present invention can be realized.
    The features of embodiments of the vehicle interior lighting apparatus according to the present invention described above will now be briefly summarized and listed in the following articles [1] to [4].
    [1] Vehicle interior lighting apparatus (11) for illuminating the interior of a vehicle, comprising: a linear linear light emission illumination device (first illumination section 21) having a source of light (33) and a light guiding element (light guide plate 35) emitting light due to light from the light source (33), wherein the light emitting device linear plane comprises: a planar light emitting light emitting section (31) and a linear emitting light emitting section (32) integral with the plane emitting light emitting section (31) and emitting light linearly.
    [2] Vehicle interior lighting apparatus according to the above-mentioned article [1], wherein the planar linear light emission illumination device is disposed near a predetermined location to be operated or used by the vehicle. occupant of the vehicle, and the predetermined location is illuminated by light irradiated from the plane light emitting section (31).
    [3] Vehicle interior lighting apparatus according to the above-mentioned article [2], wherein the predetermined location to be illuminated by light from the plane light emitting section (31) is at least one of a storage section (armrest storage section) and a switch section (4) located on a door (1).
    [4] Vehicle interior lighting apparatus according to article [2], wherein the predetermined place to illuminate by light from the plane light emitting section (31) is a box (7) console.
    权利要求:
    Claims (4)
    [1" id="c-fr-0001]
    CLAIMS:
    A vehicle interior lighting apparatus (11) for illuminating the interior of a vehicle, comprising: a linear linear light emission illumination device having a light source (33) and a light source element; light-emitting light guide (35) due to light from the light source (33), wherein the planar linear light-emitting illumination device comprises: a planar light-emitting section (31) ) emitting light in a planar manner and a linear light emitting section (32) integral with the planar light emitting section (31) and emitting light linearly.
    [2" id="c-fr-0002]
    The vehicle interior lighting apparatus according to claim 1, wherein the planar linear light emission illumination device is disposed near a predetermined location to be operated or used by the occupant of the vehicle, and the predetermined location is illuminated by irradiated light from the plane light emitting section (31).
    [3" id="c-fr-0003]
    The vehicle interior lighting apparatus according to claim 2, wherein the predetermined location to illuminate by light from the plane light emitting section (31) is at least one of a storage section (5). ) and a switch section (4) on a door.
    [4" id="c-fr-0004]
    The vehicle interior lighting apparatus according to claim 2, wherein the predetermined location to illuminate by light from the plane light emitting section (32) is a console box (7).
    类似技术:
    公开号 | 公开日 | 专利标题
    FR3049530A1|2017-10-06|
    FR2928110A1|2009-09-04|OPTICAL SYSTEM WITH MAIN FUNCTION FOR MOTOR VEHICLE
    FR2949725A1|2011-03-11|Signaling device for use in e.g. car, has holographic image generating unit for generating holographic images visible by observer located at exterior of vehicle, where generating unit is independent of signaling lights of vehicle
    FR2954457A1|2011-06-24|SIGNALING DEVICE FOR VEHICLE WITH 3D OPTICAL EFFECT
    WO2014207414A2|2014-12-31|Indirect lighting device for a motor vehicle tail light
    EP3453956A1|2019-03-13|Method for obtaining a luminous device with different appearance when turned on and turned off
    WO2019158889A1|2019-08-22|Signaling device for a motor vehicle
    WO2015011377A1|2015-01-29|Lighting system, in particular for a motor vehicle lighting member, comprising a printed circuit board in the plane of the lighting direction
    FR2987797A1|2013-09-13|Tray for lighting device for illuminating passenger compartment region of vehicle e.g. motor car, has reproducing device for reproducing energy from light entry region to light exit region in form of light rays
    FR2886375A1|2006-12-01|Motor vehicle indicator lamp has variable colour provided by two transparent coloured filters that interact to give a predetermined light colour
    FR3062613A1|2018-08-10|PROJECTION DEVICE FOR VEHICLE
    EP2938511B1|2018-02-21|Control device
    FR3056499A1|2018-03-30|DEVICE FOR INDICATING THE AIR QUALITY OF A MOTOR VEHICLE HABITACLE
    EP3002154B1|2020-11-11|Optical system for a motor vehicle
    FR3074563B1|2019-11-08|SIGNALING DEVICE FOR A MOTOR VEHICLE, COMPRISING ONE OR MORE HOMOGENEOUSLY LUMINOUS LUMINOUS SCREENS
    WO2019122612A1|2019-06-27|Light device the interior of which is the same color as daylight
    EP3625501A1|2020-03-25|Lighting device for a signal light for a motor vehicle, promoting increased light propagation in a light guide
    EP3453954B1|2020-08-26|Lighting device for road lighting, signalling or interior lighting
    FR3069088A1|2019-01-18|DISPLAY DEVICE AND INTERNAL VEHICLE INTERIOR COMPRISING SUCH A DISPLAY DEVICE
    FR2703148A1|1994-09-30|Indicator system, especially for a motor vehicle dashboard, comprising a hologram
    JP2006123794A|2006-05-18|Lighting system for vehicle and illumination module
    KR20200037625A|2020-04-09|Light emitting apparatus
    FR3070748A1|2019-03-08|OPTICAL DEVICE FOR A MOTOR VEHICLE PROVIDING TWO DISTINCT LIGHTING FUNCTIONS
    FR3048064A1|2017-08-25|INTERIOR LIGHTING DEVICE OF A MOTOR VEHICLE INTERIOR
    FR3076888A1|2019-07-19|LINEAR LIGHT SOURCE
    同族专利:
    公开号 | 公开日
    DE102017205597A1|2017-10-05|
    JP2017185876A|2017-10-12|
    US20170282789A1|2017-10-05|
    JP6438905B2|2018-12-19|
    DE102017205597B4|2021-08-19|
    US10150409B2|2018-12-11|
    CN107448851A|2017-12-08|
    FR3049530B1|2019-12-20|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US5709453A|1994-08-16|1998-01-20|Krent; Edward D.|Vehicle lighting having remote light source|
    JPH10260405A|1997-03-18|1998-09-29|Seiko Epson Corp|Lighting device, liquid-crystal display device, and electronic equipment|
    JP4434120B2|2005-09-30|2010-03-17|豊田合成株式会社|Light source device|
    FR2899954B1|2006-04-13|2008-06-06|Saint Gobain|LUMINOUS PANEL|
    EP2176089B1|2007-06-07|2015-10-21|Johnson Controls Technology Company|Illuminated component for a vehicle|
    JP4669552B2|2009-02-23|2011-04-13|株式会社ホンダアクセス|Lighting structure|
    JP5223120B2|2009-11-11|2013-06-26|豊田合成株式会社|Vehicle console lamp|
    JP2011105161A|2009-11-18|2011-06-02|Faltec Co Ltd|Lighting system for vehicle|
    JP5338637B2|2009-11-24|2013-11-13|トヨタ紡織株式会社|Vehicle interior light|
    JP4961006B2|2009-12-07|2012-06-27|株式会社ホンダアクセス|Vehicle lighting device|
    DE102010023247A1|2010-06-09|2011-12-15|Johnson Controls Gmbh|Equipment part with a luminous surface|
    DE102010030660A1|2010-06-29|2011-12-29|Lisa Dräxlmaier GmbH|Illuminated vehicle interior part|
    JP5664425B2|2011-04-13|2015-02-04|トヨタ紡織株式会社|LIGHTING DEVICE FOR VEHICLE AND LIGHT SOURCE UNIT|
    US20140286029A1|2011-05-24|2014-09-25|Johnson Controls Gmbh & Co. Kg|Lighting device for a vehicle interior|
    JP5703992B2|2011-06-28|2015-04-22|トヨタ紡織株式会社|VEHICLE LIGHT SOURCE UNIT AND VEHICLE INTERIOR MATERIAL HAVING VEHICLE LIGHT SOURCE UNIT|
    US8439418B1|2011-12-13|2013-05-14|Ford Global Technologies, Llc|Illuminated shelf vehicle storage compartment|
    CN104684760A|2012-10-04|2015-06-03|矢崎总业株式会社|Vehicle-interior illumination device|
    JP2014073761A|2012-10-04|2014-04-24|Yazaki Corp|Interior lighting system|
    CN107719228B|2013-05-29|2021-06-29|提爱思科技股份有限公司|Vehicle lighting fitting|
    JP6401003B2|2014-10-02|2018-10-03|公益財団法人鉄道総合技術研究所|Early warning method for short-distance earthquakes using seismic waves at a single observation point|
    CN105135316B|2015-08-25|2018-06-29|马瑞利汽车零部件有限公司|A kind of automobile tail light of complex optics|DE102017122429A1|2017-09-27|2019-03-28|Novem Car Interior Design Gmbh|Molded part, in particular formed as a molded part decorative part and / or trim part for a vehicle interior and a method for producing such a molded part|
    US10259387B1|2017-10-16|2019-04-16|Jvis-Usa, Llc|Illuminated vehicle interior assembly such as a safety belt buckle assembly|
    ES2862472A1|2020-04-06|2021-10-07|Antolin Grupo Ing Sa|INTERIOR TRIM VEHICLE LIGHT EMITTER WITH A SURFACE LIGHTING DEVICE |
    法律状态:
    2018-04-26| PLFP| Fee payment|Year of fee payment: 2 |
    2019-04-29| PLFP| Fee payment|Year of fee payment: 3 |
    2020-04-30| PLFP| Fee payment|Year of fee payment: 4 |
    2021-03-10| PLFP| Fee payment|Year of fee payment: 5 |
    优先权:
    申请号 | 申请日 | 专利标题
    JP2016075460|2016-04-04|
    JP2016075460A|JP6438905B2|2016-04-04|2016-04-04|Interior lighting device|
    [返回顶部]