JP2020035630A - Vehicular lighting fixture - Google Patents

Abstract

To enhance utilization efficiency of light in a vehicular lighting fixture.SOLUTION: A vehicular lighting fixture includes: a first light source 8; and a light guide body 12 having a rod-like part 16 and a plurality of plate-like parts 18 each of which includes a light diffusion material inside. In each plate-like part 18, a first side surface 18c extends along the rod-like part 16, and the first side surface 18c is arranged so as to oppose to a peripheral surface 16c of the rod-like part 16. In the rod-like part 16, the light of the first light source 8 enters from a first end part 16a, the light of the first light source 8 is guided inside, and it is emitted to the first side surface 18c of each rod-like part 18 from the peripheral surface 16c. Each plate-like part 18 guides the light of the first light source 8 which enters from the first side surface 18c inside, and emits it from a main surface by the light diffusion material.SELECTED DRAWING: Figure 2

Description

  The present invention relates to a vehicle lamp, and more particularly to a vehicle lamp used for a vehicle such as an automobile.

  2. Description of the Related Art Conventionally, there is known a vehicular lamp that emits light from a light source to a front of the lamp via a light guide. For example, in Patent Literature 1, light is incident on a plate-shaped light guide from a side surface and reflected by a reflective element such as a step provided on a main surface inside the lamp, and light is emitted from the main surface outside the lamp to the front of the lamp. A vehicular lamp having an emission structure is disclosed.

JP 2014-116142 A

  In the above-described conventional vehicle lighting device, the peripheral surface of the rod-shaped light guide is connected to the side surface of the plate-shaped light guide, and light incident from the end face of the rod-shaped light guide is guided to the plate-shaped light guide, The light was emitted from the main surface of the light guide. As a result of earnest studies on a vehicle lamp provided with such a light guide, the present inventor has come to recognize that there is room for improving the light use efficiency of a conventional vehicle lamp.

  The present invention has been made in view of such a situation, and an object of the present invention is to provide a technique for improving the light use efficiency of a vehicle lamp.

  In order to solve the above problems, one embodiment of the present invention is a vehicular lamp. The vehicular lamp includes a first light source, a rod-shaped portion, and a light guide having a plurality of plate-shaped portions containing a light diffusing material therein. Each of the plate portions is arranged such that the first side surface extends along the bar portion and the first side surface faces the peripheral surface of the bar portion. The rod-shaped portion receives light from the first light source from the first end, and emits light from the first light source from the peripheral surface to the first side surface of each plate-shaped portion while guiding the light inside. Each plate-shaped portion emits light from the main surface by the light diffusing material while guiding the light of the first light source incident from the first side surface inside. According to this aspect, the light use efficiency of the vehicle lamp can be improved.

  In the above aspect, the plurality of plate-like portions may be arranged so as to radially spread around the rod-like portion. Further, in the above aspect, the plurality of plate-shaped portions may be evenly arranged in the circumferential direction of the rod-shaped portion. Further, in any one of the above-described embodiments, the rod-shaped portion may further include a second light source, and the rod-shaped portion may receive light of the second light source from a second end opposite to the first end and transmit light of the second light source to the inside. The light is emitted from the peripheral surface to the first side surface of each plate-shaped portion while guiding the light, and each plate-shaped portion is guided by the light diffusing material while the light of the second light source incident from the first side surface is internally guided. May be emitted. Further, in any of the above aspects, the light guide may have a connecting portion for connecting the respective plate portions.

  Note that any combination of the above-described components and any conversion of the expression of the present invention among methods, apparatuses, systems, and the like are also effective as embodiments of the present invention.

  ADVANTAGE OF THE INVENTION According to this invention, the utilization efficiency of the light in a vehicle lamp can be improved.

FIG. 2 is a vertical sectional view of the vehicular lamp according to the first embodiment. FIG. 2 is a perspective view of a light source and a light guide included in the vehicle lamp. FIGS. 3A and 3B are schematic diagrams for explaining a method of measuring the light emission efficiency of the plate-like portion. FIG. 9 is a plan view of a light guide included in a vehicle lamp according to a second embodiment. FIG. 10 is a perspective view of a light source and a light guide included in a vehicle lamp according to a third embodiment.

  Hereinafter, the present invention will be described based on preferred embodiments with reference to the drawings. The embodiments are illustrative and do not limit the invention, and all features and combinations thereof described in the embodiments are not necessarily essential to the invention. The same or equivalent components, members, and processes shown in each drawing are denoted by the same reference numerals, and the repeated description will be omitted as appropriate. Further, the scale and shape of each part shown in each figure are set for convenience in order to facilitate the description, and are not to be construed as being limited unless otherwise noted. In addition, when terms such as “first” and “second” are used in the present specification or claims, the terms do not indicate any order or importance unless otherwise specified, and a certain configuration may be used. It is for distinguishing from the other configuration. In each of the drawings, some of the members that are not important for describing the embodiments are omitted.

(Embodiment 1)
FIG. 1 is a vertical sectional view of the vehicular lamp according to the first embodiment. FIG. 2 is a perspective view of a light source and a light guide included in the vehicle lamp. FIG. 1 illustrates the light guide in a side view for convenience of explanation. The vehicle lamp 1 is, for example, a rear combination lamp arranged behind the vehicle.

  The vehicular lamp 1 includes a lamp body 2 and a translucent outer cover 4 that covers the front side of the lamp body 2 with respect to the lamp. A first light source 8, a second light source 10, and a light guide 12 are accommodated in a lamp chamber 6 formed by the lamp body 2 and the outer cover 4. The first light source 8, the second light source 10, and the light guide 12 are fixed to the lamp body 2 via the support mechanism 14.

  The first light source 8 and the second light source 10 are, for example, LEDs (light emitting diodes). The first light source 8 and the second light source 10 may be other semiconductor light emitting elements such as an LD (laser diode), an organic or inorganic EL (electroluminescence), an incandescent bulb, a halogen lamp, a discharge bulb, or the like. Good.

  The light guide 12 is a resin member having translucency. Examples of the resin used for the light guide 12 include a transparent thermoplastic resin or a thermosetting resin such as a polycarbonate resin and an acrylic resin. The light guide 12 has a rod-shaped portion 16 and a plurality of plate-shaped portions 18. The light guide 12 of the present embodiment has four plate-like portions 18.

  The rod-shaped portion 16 is a columnar portion extending in any one direction. The rod portion 16 of the present embodiment extends in a substantially vertical direction. In addition, the rod-shaped part 16 may be prismatic. The rod-shaped portion 16 has a first end 16a and a second end 16b opposite to the first end 16a.

  The first light source 8 is disposed at the first end 16a. The first light source 8 is arranged such that its light emitting surface faces the end surface of the first end 16a. Therefore, the light from the first light source 8 enters the rod 16 from the end face of the first end 16a. Further, the second light source 10 is disposed at the second end 16b. The second light source 10 is arranged such that its light emitting surface faces the end surface of the second end 16b. Accordingly, the light of the second light source 10 enters the rod 16 from the end face of the second end 16b. The end face is a surface extending in a direction intersecting with the stretching axis at the end of the rod-shaped member.

  Each of the plurality of plate portions 18 is a flat plate-shaped portion having a first main surface 18a and a second main surface 18b facing each other and a plurality of side surfaces connecting the first main surface 18a and the second main surface 18b. is there. The plurality of side surfaces include a first side surface 18c. Each of the plate portions 18 is arranged such that the first side surface 18c extends along the bar portion 16 and the first side surface 18c faces the peripheral surface 16c of the bar portion 16. The peripheral surface 16c is a surface extending along the extension axis of the rod-shaped member and connecting the two end surfaces.

  That is, the plurality of plate-like portions 18 are arranged such that the respective first side surfaces 18c extend in the same direction and gather around the rod-like portion 16. In the present embodiment, each plate portion 18 protrudes from the peripheral surface 16c of the rod portion 16. Therefore, the bar 16 extends along the first side surface 18 c of each plate 18, and the peripheral surface 16 c is connected to the first side 18 c of each plate 18.

  Further, the plurality of plate-shaped portions 18 are arranged so as to radially spread around the rod-shaped portion 16. Further, the plurality of plate portions 18 are evenly arranged in the circumferential direction of the rod portion 16. In the present embodiment, the four plate-like portions 18 are arranged with a shift of 90 ° C. about the rod-like portion 16.

  As shown in the enlarged sectional view R of the plate portion 18 in FIG. 1, the plate portion 18 contains a light diffusing material 19 inside. Examples of the light diffusing material 19 include metal oxide particles, for example, titanium dioxide particles. The average particle size of the titanium dioxide particles is, for example, 150 to 500 nm, preferably 160 to 450 nm, more preferably 170 to 450 nm, further preferably 200 to 400 nm, and particularly preferably 220 to 400 nm. The content of the light diffusing material 19 is, for example, 0.1 to 100 ppm by mass, preferably 0.1 to 50 ppm by mass, more preferably 0.1 to 10 ppm by mass with respect to the whole mass of the plate-shaped portion 18. .

  The titanium dioxide particles have a rutile transformation ratio of, for example, 50% by mass or more, preferably 60% by mass or more, more preferably 70% by mass or more, and further preferably 90% by mass or more. The plate-like portion 18 includes other monomers copolymerizable with the main monomer of the resin used, an antistatic agent, an antioxidant, a release agent, a flame retardant, a lubricant, a fluidity improver, a filler, General additives such as stabilizers may be included. Note that the content of the light diffusing material 19 in the rod portion 16 is smaller than the content in the plate portion 18, and the rod portion 16 of the present embodiment does not contain the light diffusing material 19.

  The material constituting the plate portion 18 has a haze value in a thickness direction of at least a part of more than 7% and 30% or less when measured as a flat plate having a thickness of 4 mm. The material constituting the rod-shaped portion 16 has a haze value of 7% or less when measured under the same conditions. The material constituting the plate-like portion 18 is, when measured as a flat plate having a thickness of 4 mm, the transmittance of visible light in at least a part of the plate thickness direction (in the normal direction of one main surface, the main surface is not included). (The ratio of the amount of light emitted in all directions from the other main surface to the amount of light incident from the other main surface) is 60% or more and 92% or less.

  The haze value of the plate portion 18 and the bar portion 16 can be measured using a haze meter HZ-2 (manufactured by Suga Test Instruments Co., Ltd.) in accordance with JIS K7136. The visible light transmittance of the plate portion 18 can be measured according to JIS K7361-1 using a haze meter HZ-2 (manufactured by Suga Test Instruments Co., Ltd.).

  Further, in a flat plate made of a material constituting the plate-like portion 18 (hereinafter, for convenience, this flat plate is referred to as the plate-like portion 18), light incident from a side surface connecting two main surfaces is emitted from the main surface. In this case, the following conditions are satisfied for the emission efficiency. FIGS. 3A and 3B are schematic diagrams for explaining a method of measuring the light emission efficiency of the plate-like portion. FIG. 3A shows the dimensions of the plate portion 18 and the arrangement of the LEDs. FIG. 3B shows a state where the plate-shaped portion 18 to which the fixed frame B is attached is viewed from the light emitting surface C side.

  As shown in FIG. 3A, a rectangular parallelepiped plate-shaped portion 18 having a length of 100 mm in the vertical direction, a length of 190 mm in the horizontal direction, and a thickness of 3.2 mm is prepared. The side surface A of the plate portion 18 is defined as a light source light incident surface. Then, the LEDs are arranged in the normal direction of the side surface A. The LEDs are arranged such that the focal point P faces the side A and the distance from the focal point P to the side A is 1.85 mm. Light is diffused from the light emitting surface of the LED in a range of 180 °.

  In addition, as shown in FIG. 3B, the periphery of the prepared plate-shaped portion 18 is covered with a fixed frame B. In the state covered with the fixed frame B, the light emitting surface C of the plate portion 18 has a length in the vertical direction of 90 mm and a length in the horizontal direction of 160 mm. The fixed frame B does not reflect light on both the front surface and the back surface. Further, a light receiving surface (not shown) is disposed at a distance of $ 10 from the light emitting surface C in a direction normal to the light emitting surface C.

  In this state, light is emitted from the LED. Then, the luminous flux of the light applied to a rectangular area of 15 ° vertically and 25 ° left and right on the light receiving surface is measured around the intersection of the normal passing through the center of the light emitting surface C and the light receiving surface. In the case of the plate-like portion 18, the luminous flux of the light applied to the rectangular area is 0.3% or more when the luminous flux of the light emitted from the LED is 1.

  Further, when light is incident from the side surface, the plate-shaped portion 18 emits light per unit area from the main surface more than output light per unit area from the side opposite to the light incident side. When light is incident from one main surface, the amount of emitted light per unit area from the other main surface is greater than the amount of emitted light per unit area from the side surface. In addition, it has a main surface large enough for the side surface on which light is incident.

  That is, the ratio of the light emitted from the main surface is emitted from the side surface regardless of whether the light is incident from the side surface or the case where the light is incident from the main surface. Higher than the percentage of light. However, the plate-shaped portion 18 emits a predetermined amount of light also from the side surface. Therefore, when any one side surface of the plate portion 18 is used as the light incident surface, the two main surfaces and the other side surface are visually recognized as the light emitting portion.

  The light guide 12 of the present embodiment includes, for example, a plurality of plate-shaped portions 18 formed of a resin material mixed with a light diffusing material 19, and a rod-shaped portion formed of a resin material mixed with the light diffusing material 19. 16 by a known method.

  Light from the first light source 8 is incident on the rod-shaped portion 16 from the first end 16a. The rod 16 emits light from the peripheral surface 16c to the first side surface 18c of each plate 18 while guiding the light of the first light source 8 inside. That is, the light of the first light source 8 travels inside the rod 16 from the first end 16a toward the second end 16b while repeating internal reflection on the peripheral surface 16c of the rod 16. In this process, light leaks from the peripheral surface 16c to each plate-like portion 18 side in a region where the peripheral surface 16c of the rod-like portion 16 and the first side surface 18c of each plate-like portion 18 are in contact, and enters each plate-like portion 18. . Each plate portion 18 emits light from the first main surface 18a and the second main surface 18b by the light diffusing material 19 while guiding the light of the first light source 8 incident from the first side surface 18c inside.

  The rod-shaped portion 16 receives light from the second light source 10 from the second end 16b. The rod-shaped portion 16 emits light from the peripheral surface 16c to the first side surface 18c of each plate-shaped portion 18 while guiding the light of the second light source 10 inside. That is, like the light of the first light source 8, the light of the second light source 10 repeats internal reflection inside the rod-shaped portion 16 and travels from the second end 16b toward the first end 16a in the course of traveling. It enters each plate-shaped portion 18 side from the surface 16c. Each plate-shaped portion 18 emits light from the first main surface 18a and the second main surface 18b by the light diffusing material 19 while guiding the light of the second light source 10 incident from the first side surface 18c inside. The light of the first light source 8 and the light of the second light source 10 are also emitted from the side surfaces other than the first side surface 18c.

  The vehicle lamp 1 emits light from the plurality of plate-shaped portions 18 by turning on the first light source 8 and the second light source 10, for example, a stop lamp, a tail lamp, a turn signal lamp, a clearance lamp, a daytime running lamp, and the like. Can function as Further, the vehicle lamp 1 can exhibit the first lamp function by turning on the first light source 8, and can exhibit the second lamp function by turning on the second light source 10. In addition, the vehicle lamp 1 may be arranged in front of the vehicle.

  As described above, the vehicular lamp 1 according to the present embodiment includes the light guide 12 having the first light source 8, the bar-shaped portion 16, and the plurality of plate-shaped portions 18 containing the light diffusing material 19 therein. And. Each of the plate portions 18 is arranged such that the first side surface 18c extends along the rod portion 16 and the first side surface 18c faces the peripheral surface 16c of the rod portion 16. The rod-like portion 16 receives the light of the first light source 8 from the first end 16a and emits the light of the first light source 8 from the peripheral surface 16c to the first side surface 18c of each plate-like portion 18 while guiding the light inside. I do. Each plate-shaped portion 18 emits light from the first main surface 18a and the second main surface 18b by the light diffusing material 19 while guiding the light of the first light source 8 incident from the first side surface 18c inside.

  In a conventional vehicle lighting device, one plate-shaped light guide is connected to one rod-shaped light guide. Light incident from one end of the rod-shaped light guide enters the plate-shaped light guide in the process of traveling toward the other end while being internally reflected by the peripheral surface of the rod-shaped light guide. However, only a part of the light enters the plate-like portion 18 and most of the light escapes from the other end to the outside without entering the plate-like light guide. On the other hand, in the present embodiment, a plurality of plate portions 18 are provided for one bar portion 16. Thereby, the light which escapes from the bar-shaped portion 16 without being emitted from the plate-shaped portion 18 can be reduced.

  Therefore, according to the present embodiment, the light use efficiency of the vehicle lamp 1 can be increased. Further, since more light can be emitted from the plate portion 18, the visibility of the vehicle lamp 1 can be improved. Thereby, the safety of the driver, the pedestrian, and the like can be improved.

  Further, the light of the first light source 8 travels while being internally reflected inside the rod-shaped portion 16, leaks from the peripheral surface 16 c to the first side surface 18 c side, and enters the plate-shaped portion 18 in the process. That is, the light of the first light source 8 gradually enters the plate-like portion 18 while traveling in the rod-like portion 16. Thereby, the uniformity of light emission of the plate portion 18 can be improved. The light incident on the plate portion 18 is emitted from the first main surface 18a and the second main surface 18b by the light diffusing material 19 dispersed in the plate portion 18. This also makes it possible to enhance the uniformity of light emission of the plate-like portion 18. As a result, the visibility of the vehicular lamp 1 can be further improved.

  Further, the rod-shaped portion 16 and each plate-shaped portion 18 have high transparency. Further, each plate-shaped portion 18 is transparent and can uniformly emit light incident from the first side surface 18c from the first main surface 18a and the second main surface 18b. Light is also emitted from side surfaces other than the first side surface 18c. That is, when the first light source 8 is not turned on, the light guide 12 looks transparent. On the other hand, when the first light source 8 is turned on, the entire plate portion 18 appears to emit light. As a result, the design and appearance of the vehicle lamp 1 can be improved.

  Further, in the present embodiment, the plurality of plate portions 18 are arranged so as to radially spread around the plate portion 18. By emitting light from the radially extending plate-shaped portion 18, light emission of the light guide 12 can be visually recognized from more directions than when light is emitted from a flat light guide. Therefore, the visibility of the vehicle lamp 1 can be improved. Moreover, three-dimensional light emission can be realized, and the design and appearance of the vehicle lamp 1 can be improved.

  Further, in the present embodiment, the plurality of plate-like portions 18 are evenly arranged in the circumferential direction of the rod-like portion 16. Thereby, the light emission of the light guide 12 can be more reliably viewed from multiple directions. Therefore, the visibility of the vehicular lamp 1 can be more reliably increased. In addition, the design and appearance of the vehicle lamp 1 can be improved.

  The vehicle lamp 1 of the present embodiment includes a second light source 10. The rod-shaped portion 16 receives light from the second light source 10 from a second end portion 16b opposite to the first end portion 16a, and guides the light from the second light source 10 internally to each plate from the peripheral surface 16c. The light is emitted to the first side surface 18c of the shape portion 18. Each plate-shaped portion 18 emits light from the first main surface 18a and the second main surface 18b by the light diffusing material 19 while guiding the light of the second light source 10 incident from the first side surface 18c inside. That is, the light from the first light source 8 and the second light source 10 is emitted from the plate portion 18. Thereby, since the light emission intensity of the light guide 12 can be increased, the visibility of the vehicular lamp 1 can be further increased. The light from the second light source 10 can also be emitted from the plurality of plate-shaped portions 18 to improve the utilization efficiency.

(Embodiment 2)
The vehicle lamp according to the second embodiment has the same configuration as that of the first embodiment except that the structure of the light guide is different. Hereinafter, the vehicle lamp according to the present embodiment will be described focusing on a configuration different from that of the first embodiment, and a common configuration will be briefly described or description thereof will be omitted. FIG. 4 is a plan view of a light guide included in the vehicle lamp according to the second embodiment.

  The light guide 12 of the present embodiment has a rod-shaped portion 16, a plurality of plate-shaped portions 18, and a connecting portion 20 that connects the plate-shaped portions 18. Specifically, the connecting portion 20 extends between the two plate-shaped portions 18 along the peripheral surface 16c of the rod-shaped portion 16. The connecting portion 20 has one end connected to the first main surface 18a of one plate-shaped portion 18 and the other end connected to the second main surface 18b of the other plate-shaped portion 18. In the present embodiment, four plate-shaped portions 18 and four connecting portions 20 are alternately arranged in the circumferential direction of the rod-shaped portion 16.

  Each connecting portion 20 is connected to the main surface in an end region of the main surface of each plate-shaped portion 18 on the first side surface 18c side. Therefore, the area of the peripheral surface 16 c of the rod 16 that is not covered by the first side surface 18 c of each plate 18 is covered by the connecting part 20. The plurality of plate portions 18 and the connecting portion 20 are a single member connected to each other. This single member is composed of an annular portion composed of the plurality of connecting portions 20 and the ends of the plurality of plate-like portions 18 and the remaining portion of each plate-like portion 18. A plurality of wings projecting from This single member can be integrally formed by injection molding or the like using a resin material mixed with the light diffusing material 19.

  According to the present embodiment, the plurality of plate portions 18 can be integrated by the connecting portion 20. Thus, the number of components of the light guide 12 can be reduced, so that the assembly process of the vehicle lamp 1 can be simplified. When the connecting portion 20 contains the light diffusing material 19, light can be emitted from the connecting portion 20. As a result, the light use efficiency, visibility, design, and appearance of the vehicle lamp 1 can be improved.

(Embodiment 3)
The vehicle lamp according to the third embodiment has the same configuration as that of the first embodiment except that the structure of the light guide is different. Hereinafter, the vehicle lamp according to the present embodiment will be described focusing on a configuration different from that of the first embodiment, and a common configuration will be briefly described or description thereof will be omitted. FIG. 5 is a perspective view of a light source and a light guide included in the vehicle lamp according to the third embodiment.

  The light guide 12 of the present embodiment has a rod-shaped part 16, a plurality of plate-shaped parts 18, and a plurality of second rod-shaped parts 22. The rod 16 extends along the first side surface 18 c of each plate 18, and the peripheral surface 16 c is connected to the first side 18 c of each plate 18.

  Each of the plurality of second rod portions 22 has the same shape as the rod portion 16, and is connected to each plate portion 18. Specifically, each second rod-shaped portion 22 extends along a second side surface 18d different from the first side surface 18c of each plate-shaped portion 18, and the peripheral surface 22c is connected to the second side surface 18d. In the present embodiment, the second side surface 18d is a side surface facing the first side surface 18c. Therefore, the bar portion 16 and the plurality of second bar portions 22 extend in parallel with each other.

  A third light source 24 is disposed at the first end 22a of each second rod 22. Each third light source 24 is arranged such that its light emitting surface faces the end surface of the first end 22a. Therefore, light from the third light source 24 enters the second rod 22 from the end face of the first end 22a. In addition, a fourth light source 26 is disposed at a second end 22b opposite to the first end 22a. The fourth light source 26 is arranged such that its light emitting surface faces the end surface of the second end 22b. Therefore, the light of the fourth light source 26 enters the second rod 22 from the end face of the second end 22b.

  Each second rod portion 22 emits light from the peripheral surface 22c to the second side surface 18d of each plate portion 18 while guiding the light of the third light source 24 inside. Each plate-shaped portion 18 emits light from the main surface by the light diffusing material 19 while guiding the light of the third light source 24 incident from the second side surface 18d inside. Further, each of the second rod-shaped portions 22 emits light from the peripheral surface 22c to the second side surface 18d of each of the plate-shaped portions 18 while guiding the light of the fourth light source 26 therein. Each of the plate portions 18 is emitted from the main surface by the light diffusing material 19 while guiding the light of the fourth light source 26 incident from the second side surface 18d inside. The light of the third light source 24 and the light of the fourth light source 26 are also emitted from the side surfaces excluding the first side surface 18c and the second side surface 18d.

  Therefore, the light from the first light source 8 and the light from the second light source 10 that are incident via the rod 16 are emitted from each plate 18 of the present embodiment, and are incident via the second rod 22. Light from the third light source 24 and the fourth light source 26 is emitted. Thereby, the light emission intensity of each plate portion 18 can be increased. Therefore, the visibility of the vehicular lamp 1 can be further improved.

  The embodiment of the invention has been described above in detail. The above-described embodiments are merely specific examples for implementing the present invention. The contents of the embodiments do not limit the technical scope of the present invention, and many design changes such as component changes, additions, and deletions are made without departing from the spirit of the invention defined in the claims. Is possible. The new embodiment with the design change has the effects of the combined embodiment and modification. In the above-described embodiment, such contents that can be changed in design are emphasized with notations such as “of the present embodiment” and “in the present embodiment”. The design change is allowed even for the contents without the. Any combination of the above components is also effective as an aspect of the present invention. The hatching attached to the cross section of the drawing does not limit the material to which hatching is applied.

  In each embodiment, the number of the plate portions 18 is four, but the number of the plate portions 18 is not particularly limited. Further, the plate portion 18 has a flat shape, but the plate portion 18 may have a curved shape or the like. Further, the arrangement of the plurality of plate portions 18 may be uneven. Further, only one of the first light source 8 and the second light source 10 may be provided for the rod-shaped portion 16. Further, the light of the light source may be reflected by the reflector and enter the rod portion 16. Further, the arrangement and posture of the light guide 12 are not particularly limited. Further, the plate portion 18 may emit light only from one main surface. Further, the second rod-shaped portions 22 may not be provided for all the plate-shaped portions 18. Further, only one of the third light source 24 and the fourth light source 26 may be provided for the second rod-shaped portion 22.

  Reference Signs List 1 vehicle lamp, 8 first light source, 10 second light source, 12 light guide, 16 rod-like portion, 16a first end, 16b second end, 16c peripheral surface, 18 plate-like portion, 18c first side surface, 19 light diffusing material, 20 connecting part.

Claims (5)

A first light source;
A rod-shaped portion, and a light guide having a plurality of plate-shaped portions containing a light diffusing material therein,
Each plate-shaped portion is arranged such that a first side surface extends along the rod-shaped portion and the first side surface faces a peripheral surface of the rod-shaped portion,
The rod-shaped portion is configured such that light from the first light source is incident from a first end portion, and is emitted from the peripheral surface to the first side surface of each plate-shaped portion while guiding the light from the first light source inside,
The vehicular lamp according to claim 1, wherein each plate-shaped portion emits light from the first light source, which enters from the first side surface, from a main surface by the light diffusing material while guiding the light inside.   The vehicular lamp according to claim 1, wherein the plurality of plate-shaped portions are arranged so as to radially spread around the rod-shaped portion.   The vehicular lamp according to claim 2, wherein the plurality of plate-shaped portions are arranged evenly in a circumferential direction of the rod-shaped portion. A second light source,
The rod-shaped portion receives light from the second light source from a second end opposite to the first end, and guides the light from the second light source internally to each of the plate-like portions from the peripheral surface. Outgoing to the first side of the part,
The vehicle according to any one of claims 1 to 3, wherein each plate-like portion guides light of the second light source that enters from the first side surface and emits the light from the main surface by the light diffusing material while guiding the light inside. Lighting fixtures.   The vehicular lamp according to any one of claims 1 to 4, wherein the light guide has a connecting portion that connects the plate-shaped portions.

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