JP2023022420A - vehicle lamp - Google Patents

Abstract

To improve a self-vehicle display function of a vehicle lamp.SOLUTION: A vehicle lamp 1 comprises a plurality of first light sources, a plurality of second light sources 4, and an optical member 6 having a plurality of diffusion parts 10 and a plurality of opening parts 12. Each diffusion part 10 covers one or more first light sources to diffuse light of the first light sources. Each opening part 12 exposes one or more second light sources 4. The vehicle lamp 1 has a plurality of first light emitting parts 24 and a plurality of second light emitting parts 26. Each first light emitting part 24 is formed of one or more sets of the first light source and the diffusion part 10. Each second light emitting part 26 is formed by one or more sets of the second light source 4 and the opening part 12. At least some of the first light emitting parts 24 and at least some of the second light emitting parts 26 are arranged alternately.SELECTED DRAWING: Figure 1

Description

The present invention relates to a vehicle lamp.

A vehicle lamp has an own vehicle display function that allows other vehicles and pedestrians to recognize the existence and state of the own vehicle (see, for example, Patent Document 1).

JP 2006-216455 A

There is a constant demand to improve vehicle driving safety. In order to meet this demand, it is desirable to enhance the self-vehicle display function of the vehicle lamp to alert other vehicles and pedestrians.

SUMMARY OF THE INVENTION The present invention has been made in view of such circumstances, and one of its purposes is to provide a technique for improving the self-vehicle display function of a vehicle lamp.

One aspect of the present invention is a vehicle lamp. This vehicular lamp includes a plurality of first light sources, a plurality of second light sources, and a plurality of diffusion sections, each diffusion section covering one or more first light sources and emitting light from the first light sources. and a plate-like optical member having a plurality of openings, each opening exposing one or more second light sources. The vehicular lamp includes a plurality of first light emitting portions, each of which is formed by one or more sets of a first light source and a diffusion portion, and a plurality of second light emitting portions. and a plurality of second light emitters, each of which is formed by one or more pairs of the second light source and the aperture. At least some of the plurality of first light emitting units and at least some of the plurality of second light emitting units are alternately arranged.

Any combination of the above constituent elements, and conversion of expressions of the present invention between methods, devices, systems, etc. are also effective as aspects of the present invention.

According to the present invention, it is possible to improve the own vehicle display function of the vehicle lamp.

1 is a perspective view of a vehicle lamp according to an embodiment; FIG. 1 is an exploded perspective view of a vehicle lamp; FIG. FIG. 3A is a photograph of a vehicle lamp in which both the first light source and the second light source are in a non-lighting state. FIG. 3B is a photograph of the vehicle lamp with only the first light source turned on. FIG. 3C is a photograph of the vehicle lamp in which both the first light source and the second light source are lit. FIG. 10 is a perspective view of an optical member according to Modification 1; FIG. 5A is a perspective view of an optical member according to Modification 2. FIG. 5B is a perspective view of an optical member according to Modification 3. FIG. FIG. 5C is a perspective view of an optical member according to Modification 4. FIG. FIG. 6A is an exploded perspective view of a vehicle lamp according to Modification 5. FIG. FIG. 6B is an exploded perspective view of the vehicle lamp according to the embodiment. FIG. 6C is a photograph of the vehicle lamp according to Modification 5 in which only the first light source is lit. FIG. 6D is a photograph of the vehicle lamp according to the embodiment in which only the first light source is lit. FIG. 6E is a photograph of the vehicle lamp according to Modification 5 in which both the first light source and the second light source are turned on. FIG. 6F is a photograph of the vehicle lamp according to the embodiment in which both the first light source and the second light source are lit.

BEST MODE FOR CARRYING OUT THE INVENTION The present invention will be described below based on preferred embodiments with reference to the drawings. The embodiments are illustrative rather than limiting the invention, and not all features and combinations thereof described in the embodiments are necessarily essential to the invention. The same or equivalent constituent elements, members, and processes shown in each drawing are denoted by the same reference numerals, and duplication of description will be omitted as appropriate. In addition, the scale and shape of each part shown in each drawing are set for convenience in order to facilitate the explanation, and should not be construed as limiting unless otherwise mentioned. In addition, when terms such as "first" and "second" are used in this specification or claims, unless otherwise specified, these terms do not represent any order or degree of importance. and other configurations. Also, in each drawing, some of the members that are not important for explaining the embodiments are omitted.

FIG. 1 is a perspective view of a vehicle lamp 1 according to an embodiment. FIG. 2 is an exploded perspective view of the vehicle lamp 1. FIG. The vehicle lamp 1 is, for example, a rear lamp arranged at the rear of the vehicle. In the figure, "front" indicates the front of the lamp (rear of the vehicle), "rear" indicates the rear of the lamp (front of the vehicle), "inner" indicates the inner side of the vehicle, "outer" indicates the outer side of the vehicle, and "upper". means vertically upward, and "bottom" means vertically downward. Note that the posture of the vehicle lamp 1 is not limited to the illustrated state.

A vehicle lamp 1 includes a plurality of first light sources 2 , a plurality of second light sources 4 , and an optical member 6 . The vehicle lamp 1 also includes a lamp body and a light-transmitting cover (outer lens) (not shown). A plurality of first light sources 2, a plurality of second light sources 4, and an optical member 6 are housed in a lamp chamber composed of a lamp body and a translucent cover.

Each first light source 2 and each second light source 4 are composed of LEDs (light emitting diodes), for example. Each first light source 2 and each second light source 4 may be semiconductor light-emitting elements other than LEDs, such as LDs (laser diodes) and organic or inorganic ELs (electroluminescence). Also, each first light source 2 and each second light source 4 may be an incandescent bulb, a halogen lamp, a discharge bulb, or the like.

The plurality of first light sources 2 and the plurality of second light sources 4 are mounted on a common control board 8 as an example. The control board 8 of this embodiment is long in the vehicle width direction. The control board 8 controls turning on/off the first light sources 2 and the second light sources 4 . The control board 8 has a hardware configuration (not shown) such as elements and circuits including a computer CPU and memory. It also has a software configuration implemented by a computer program or the like. The control board 8 is mounted on the lamp body.

The optical member 6 has a plate shape and is fixed to the light source mounting surface of the control board 8 . The optical member 6 has a plurality of diffusers 10 and a plurality of openings 12 . The optical member 6 is made of resin such as polycarbonate, polypropylene, acryl, ASA (acrylonitrile-styrene-acrylate), ABS (acrylonitrile-butadiene-styrene), or the like. Further, the optical member 6 of this embodiment is composed of an inner lens portion 14 and a reflector portion 16 . The inner lens portion 14 is arranged on the front side of the lamp with respect to the reflector portion 16 and attached to the surface of the reflector portion 16 facing the front side of the lamp.

The inner lens section 14 has a plurality of diffusion sections 10 and a support frame 18 . Each diffuser 10 has a box shape with an opening on the rear side of the lamp. When viewed from the front of the lamp, each diffuser 10 has a rectangular shape elongated in the vehicle width direction. The support frame 18 is a rod-shaped body extending in the vehicle width direction. Each diffusion section 10 is connected to each other by being connected to a support frame 18 . In this embodiment, the plurality of diffusion portions 10 are integrally molded products. That is, the plurality of diffusion portions 10 and the support frame 18 are integrally molded.

The term “integrally molded” in the present disclosure does not mean that each diffusion section 10 and the support frame 18, which are originally separate bodies, are fixed to each other by a known fixing method such as welding or adhesion, and are thus integrated. Rather, it means that each diffusion part 10 and the support frame 18 are built into one member by a known molding process such as injection molding.

Each diffusion part 10 is arranged so as to cover the first light source 2 when viewed from the front of the lamp. In the present embodiment, each first light source 2 and each diffusion section 10 are associated on a one-to-one basis, and each diffusion section 10 covers one first light source 2 . Note that each diffusion section 10 may cover a plurality of first light sources 2 . That is, each diffuser 10 covers one or more first light sources 2 . Also, the number of first light sources 2 covered by each diffusion section 10 may be different from each other.

Each diffusion part 10 can diffuse the light emitted from the first light source 2 that covers it. For example, each diffusing section 10 is made of a resin material that is translucent to the light from the first light source 2 , that is, that allows part of the light from the first light source 2 to pass therethrough. This resin material is composed of, for example, a transparent resin base material and particles dispersed in the resin base material and having a different refractive index from that of the resin base material. The light transmittance of the translucent resin can be appropriately set based on experiments and simulations by a designer. When the plurality of diffusion portions 10 are integrally molded products, the entire inner lens portion 14 is made of translucent resin.

The light emitted from the first light source 2 is incident on at least the surface of the diffuser 10 facing the front side of the lamp, is transmitted through the surface while being reflected by the particles, and is emitted to the front of the lamp. Therefore, the surface of each diffusing portion 10 facing the front side of the lamp constitutes a light diffusing surface. It should be noted that the light from the first light source 2 can also be obtained by subjecting the surface of each diffusion section 10 made of a transparent resin to a roughening treatment such as texturing instead of forming each diffusion section 10 with a translucent resin. can be diffused.

The reflector portion 16 is a plate-like body extending in a direction intersecting the longitudinal direction of the lamp. The reflector portion 16 is elongated in the vehicle width direction and has an inclined edge portion 16a at the outer end in the vehicle width direction that is inclined upward in the vertical direction toward the outer side in the vehicle width direction. Also, the reflector section 16 has a plurality of openings 12 . The plurality of openings 12 are provided so as to pass through the reflector portion 16 in the longitudinal direction of the lamp. Each opening 12 is arranged to expose the second light source 4 when viewed from the front of the lamp. In the present embodiment, each second light source 4 and each opening 12 are associated on a one-to-one basis, and each opening 12 exposes one second light source 4 . Each opening 12 may expose a plurality of second light sources 4 . That is, each opening 12 exposes one or more secondary light sources 4 . Also, the number of second light sources 4 exposed by each opening 12 may be different from each other.

Each second light source 4 can directly irradiate light forward of the lamp via each opening 12 . Further, the reflector section 16 of the present embodiment has a reflecting surface 20 around each opening 12 that reflects the light from the second light source 4 . A part of the light emitted from each second light source 4 is reflected by the reflecting surface 20 and radiated forward of the lamp. For example, the reflector section 16 is made of the translucent resin or transparent resin described above, and has a metal film around each opening 12 . This metal film constitutes the reflecting surface 20 . The metal film can be formed by vapor deposition of metal such as aluminum. Alternatively, the reflector section 16 may be made of an opaque resin, and the surface around each opening 12 may form the reflecting surface 20 as it is. A metal film forming the reflecting surface 20 may be provided on the reflector section 16 made of an opaque resin. If the inner lens portion 14 and the reflector portion 16 are made of the same resin material, the entire optical member 6 may be integrally molded.

The reflector section 16 also has a plurality of first light source openings 22 overlapping the first light sources 2 when viewed from the front of the lamp. The plurality of first light source openings 22 are holes that do not hinder the passage of light from each first light source 2 to each diffusing portion 10 . Each first light source opening 22 is covered with each diffusing portion 10 in a state in which the inner lens portion 14 and the reflector portion 16 are assembled with each other. Light emitted from each first light source 2 passes through the reflector section 16 via the first light source opening 22 and enters each diffusion section 10 .

The vehicle lamp 1 has a plurality of first light emitting portions 24 and a plurality of second light emitting portions 26 . Each first light emitting section 24 is formed by a combination of the first light source 2 and the diffusion section 10 . In the present embodiment, one set of first light source 2 and diffusion section 10 forms one first light emitting section 24 . A set of the first light source 2 and the diffusion section 10 is composed of one or more first light sources 2 and one diffusion section 10 . A plurality of sets of the first light source 2 and the diffusion section 10 may be assembled to form one first light emitting section 24 . That is, each first light emitting section 24 is formed by one or more sets of the first light source 2 and the diffusion section 10 .

Each second light emitting portion 26 is formed by a set of the second light source 4 and the aperture 12 . In this embodiment, one set of the second light source 4 and the opening 12 forms one second light emitting section 26 . A set of second light sources 4 and apertures 12 consists of one or more second light sources 4 and one aperture 12 . A plurality of sets of the second light sources 4 and the openings 12 may be assembled to form one second light emitting section 26 . That is, each second light-emitting portion 26 is formed by one or more sets of the second light source 4 and the aperture 12 . Moreover, in the present embodiment, the optical member 6 has a reflecting surface 20 . Therefore, each second light emitting part 26 is formed by the second light source 4 , the opening 12 and the reflecting surface 20 .

At least some of the multiple first light emitting units 24 and at least some of the multiple second light emitting units 26 are arranged alternately. In the present embodiment, the plurality of first light emitting portions 24 are arranged in a zigzag pattern within a plane that intersects with the longitudinal direction of the lamp. Similarly, the plurality of second light-emitting portions 26 are also arranged in a zigzag pattern within a plane that intersects with the longitudinal direction of the lamp. In addition, a plurality of first light emitting units 24 arranged in a zigzag pattern and a plurality of second light emitting units 26 arranged in a zigzag pattern are combined. In other words, the second light emitting section 26 is arranged between the adjacent first light emitting sections 24 . Alternatively, the first light emitting section 24 is arranged between the second light emitting sections 26 adjacent to each other. Therefore, the multiple first light emitting units 24 and the multiple second light emitting units 26 are arranged in a checkered pattern.

From a different point of view, the vehicle lamp 1 of the present embodiment has a structure in which a plurality of horizontally long light emitting lines in which the first light emitting portions 24 and the second light emitting portions 26 are alternately arranged in the vehicle width direction are vertically stacked. . Adjacent horizontally long light emitting lines are arranged such that the first light emitting portion 24 of one horizontally long light emitting line and the second light emitting portion 26 of the other horizontally long light emitting line are arranged side by side. Alternatively, the vehicle lamp 1 has a structure in which a plurality of vertically elongated light emitting lines in which the first light emitting portions 24 and the second light emitting portions 26 are alternately arranged in the vertical direction are arranged in the vehicle width direction. Adjacent vertically long light emitting lines are arranged so that the first light emitting portion 24 of one vertically long light emitting line and the second light emitting portion 26 of the other vertically long light emitting line are arranged side by side.

Note that the numbers of the horizontally long light emitting lines and the number of the vertically long light emitting lines can be set as appropriate. For example, the vehicle lamp 1 may have only one horizontally elongated light emitting line, or may have only one vertically elongated light emitting line. Also, the number of the first light emitting units 24 and the second light emitting units 26 included in each horizontally long light emitting line and the number of the first light emitting units 24 and the second light emitting units 26 included in each vertically long light emitting line can be set as appropriate. can be done.

FIG. 3A is a photograph of the vehicle lamp 1 in which both the first light source 2 and the second light source 4 are in a non-lighting state. FIG. 3B is a photograph of the vehicle lamp 1 with only the first light source 2 turned on. FIG. 3C is a photograph of the vehicle lamp 1 in which both the first light source 2 and the second light source 4 are lit. In the vehicle lamp 1 shown in FIGS. 3A to 3C, as an example, the light diffusion surfaces of the left two rows of diffusion portions 10 are made of white translucent resin, and the remaining diffusion portions 10 are made of white translucent resin. The light diffusing surface of is composed of a textured surface. Also, the numbers of the first light-emitting portions 24 and the second light-emitting portions 26 are slightly different from those shown in FIGS.

As shown in FIG. 3A, when both the first light source 2 and the second light source 4 are off, a checkerboard pattern composed of a plurality of diffusers 10 and a plurality of openings 12 is visually recognized. As shown in FIG. 3B, when only the first light source 2 is turned on, the zigzag pattern of light emitted by the plurality of first light emitting units 24 is visually recognized. As shown in FIG. 3C, when both the first light source 2 and the second light source 4 are turned on, the light emitted from the entire lamp by the plurality of first light emitting units 24 and the plurality of second light emitting units 26 is visible. .

In the vehicle lamp 1, the plurality of first light emitting portions 24 perform the first lamp function, and the plurality of first light emitting portions 24 and the plurality of second light emitting portions 26 perform the second lamp function different from the first lamp function. can demonstrate. As an example, the first lamp function is a tail lamp function, and the second lamp function is a stop lamp function. Therefore, the vehicle lamp 1 emits light in a zigzag pattern to exhibit a tail lamp function, and the entire lamp emits light to exhibit a stop lamp function.

Note that known lighting functions such as a tail lamp, a stop lamp, a turn lamp, a clearance lamp, and a rear fog lamp can be appropriately assigned to the first lamp function and the second lamp function. The vehicle lamp 1 may also be used as a headlamp. In this case, known lighting functions such as low beam, high beam, turn lamp, positioning lamp, daytime running lamp, fog lamp, etc. can be appropriately assigned to the first lamp function and the second lamp function. In addition, the types of the first light source 2 and the second light source 4 (the amount and color of emitted light) can be appropriately selected according to the first lamp function and the second lamp function.

Further, the vehicle lamp 1 can be configured such that the plurality of first light emitting portions 24 perform the first lamp function and the plurality of second light emitting portions 26 perform the second lamp function. In this case, the vehicular lamp 1 emits light in a zigzag pattern to perform the first lamp function, and emits light in a zigzag pattern at a position shifted from the light emitting position when the first lamp function is performed to perform the second lamp function. can be demonstrated.

As described above, the vehicle lamp 1 according to the present embodiment has the plurality of first light emitting portions 24 and the plurality of second light emitting portions 26 . Each first light emitting unit 24 is formed by one or more sets of the first light source 2 and the diffusion unit 10, and each second light emitting unit 26 is formed by one or more sets of the second light source 4 and the opening 12. be done. At least some of the plurality of first light emitting sections 24 and at least some of the plurality of second light emitting sections 26 are arranged alternately.

In each first light emitting unit 24, the light from the first light source 2 is diffused by the diffusion unit 10 and emitted forward of the lamp. On the other hand, in each second light emitting section 26, the light from the second light source 4 is directly emitted from the opening 12 toward the front of the lamp. Further, when the optical member 6 has the reflecting surface 20, part of the light from the second light source 4 is reflected by the reflecting surface 20 and radiated forward of the lamp. For this reason, drivers of other vehicles, pedestrians, etc. will visually recognize the light-emitting portions that shine differently when the first light source 2 is lit and when the second light source 4 is lit. In addition, the state in which the light-emitting portions that emit light in different ways are arranged alternately is visually recognized. Furthermore, while the first light source 2 and the second light source 4 are turned off, drivers of other vehicles, pedestrians, and the like can visually recognize the pattern in which the plurality of diffusion portions 10 and the plurality of openings 12 are alternately arranged. Become. As a result, the eye-catching property of the vehicle lamp 1 can be enhanced, and the own vehicle display function can be improved.

Further, in the present embodiment, the multiple first light emitting units 24 and the multiple second light emitting units 26 are arranged in a checkered pattern. As a result, while the first light source 2 and the second light source 4 are turned off, drivers of other vehicles, pedestrians, and the like can see the checkered pattern of the diffuser 10 and the opening 12 . In addition, when only the first light source 2 is lit and when only the second light source 4 is lit, zigzag pattern light emission can be achieved. As a result, the eye-catching property of the vehicle lamp 1 is further enhanced, so that the own vehicle display function can be further improved.

Further, in the vehicle lamp 1 of the present embodiment, only the plurality of first light emitting portions 24 perform the first lamp function, and the plurality of first light emitting portions 24 and the plurality of second light emitting portions 26 perform the first lamp function. It exhibits a second lamp function that is different from the In this case, the luminescence shape can be made different between when the vehicle lamp 1 exhibits the first lamp function and when the vehicle lamp 1 exhibits the second lamp function. As a result, the eye-catching property of the vehicle lamp 1 is further enhanced, so that the own vehicle display function of the vehicle lamp 1 can be further enhanced. In addition, by having the plurality of first light emitting portions 24 and the plurality of second light emitting portions 26 exhibit the second lamp function, the light emitting area when exhibiting the second lamp function can be increased. This also makes it possible to enhance the vehicle display function of the vehicle lamp 1 .

Further, the vehicle lamp 1 can exhibit the first lamp function only with the plurality of first light emitting portions 24 and can exhibit the second lamp function only with the plurality of second light emitting portions 26 . In this case, when the first lamp function is exhibited and when the second lamp function is exhibited, the light emission shape can be similar and the light emission position can be shifted. As a result, the eye-catching property of the vehicle lamp 1 is further enhanced, so that the own vehicle display function of the vehicle lamp 1 can be further enhanced.

Further, the optical member 6 of this embodiment has a reflecting surface 20 around each opening 12 . Each second light emitting part 26 is formed by the second light source 4 , the opening 12 and the reflecting surface 20 . Thereby, the light emitting area of each second light emitting section 26 can be increased. Therefore, the eye-catching property of the vehicle lamp 1 is further enhanced, so that the own vehicle display function can be further improved.

As an example, the optical member 6 is made of translucent resin, the metal film laminated on the surface of the translucent resin constitutes the reflecting surface 20 , and the translucent resin itself constitutes the diffusing section 10 . The inner lens portion 14 and the reflector portion 16 can be integrally formed by forming the entire optical member 6 from a translucent resin. As a result, the number of parts of the vehicle lamp 1 can be reduced, and the manufacturing process of the vehicle lamp 1 can be simplified. Further, by providing a metal film that functions as the reflecting surface 20, the light reflectance of the reflecting surface 20 can be increased even when the optical member 6 is made of a translucent resin.

Further, by configuring the diffusion section 10 with a translucent resin, uniform surface light emission can be realized more easily than when the diffusion section 10 is subjected to roughening treatment such as texturing. In addition, since the translucent resin itself can be used as a light diffusion surface, the manufacturing process of the vehicle lamp 1 can be simplified as compared with the case where roughening treatment such as texturing is applied. Also, as an example, the plurality of diffusion portions 10 are integrally molded products. As a result, the number of parts of the vehicle lamp 1 can be reduced, and the manufacturing process of the vehicle lamp 1 can be simplified.

The embodiments of the present invention have been described in detail above. The above-described embodiments merely show specific examples for carrying out the present invention. The contents of the embodiments do not limit the technical scope of the present invention, and many design changes such as changes, additions, and deletions of constituent elements are possible without departing from the spirit of the invention defined in the claims. is possible. A new embodiment to which a design change has been added has the effects of the combined embodiment and modifications. In the above-described embodiments, the content that allows such design changes is emphasized by adding notations such as "in this embodiment" and "in this embodiment". Design changes are allowed even if there is no content. 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 of the hatched object.

(Modification 1)
4 is a perspective view of an optical member 6 according to Modification 1. FIG. In the optical member 6 of this modified example, the surface around each opening 12 and each diffusing portion 10 have different brightness. For example, the inner lens portion 14 is made of white translucent resin or transparent resin. When the inner lens portion 14 is made of transparent resin, the surface of the diffusion portion 10 is roughened. On the other hand, the reflector portion 16 is made of black resin, and the surface around the opening portion 12 is made of the black resin itself. Alternatively, the surface of the reflector section 16 around the opening 12 is painted black. As a result, the brightness of each diffusion portion 10 is higher than the brightness of the surface surrounding each opening 12 . As a result, the checkered pattern of the vehicle lamp 1 can be made clearer when both the first light source 2 and the second light source 4 are off. Therefore, the eye-catching property of the vehicle lamp 1 is further enhanced, and the own vehicle display function can be further improved.

It should be noted that, for example, by configuring the diffusion section 10 with a half-mirror deposited film and configuring the reflector section 16 with a white resin, or by applying white paint to the surface around the openings 12, the surroundings of the openings 12 are The brightness of the surface can be higher than the brightness of each diffuser 10 . The lightness difference between the surface around each opening 12 and each diffusion portion 10 may be realized by a combination of colors other than white and black. The degree of brightness difference can be appropriately set by the designer in consideration of the degree of attractiveness and the like.

(Modifications 2 to 4)
FIG. 5A is a perspective view of an optical member 6 according to Modification 2. FIG. FIG. 5B is a perspective view of the optical member 6 according to Modification 3. FIG. FIG. 5C is a perspective view of an optical member 6 according to Modification 4. FIG. The optical members 6 of modified examples 2 to 4 differ in the shape of the inner lens portion 14 from each other.

As shown in FIG. 5A, in Modification 2, diffusion portion 10 and support frame 18 protrude further forward of the lamp than in the embodiment. As shown in FIG. 5B, in Modification 3, the amount of projection of the diffusion portion 10 forward of the lamp is about the same as that of the embodiment, but the amount of projection of the support frame 18 forward of the lamp is small. . Further, each diffusion portion 10 in Modifications 2 and 3 has a substantially square shape when viewed from the front of the lamp. Further, in Modifications 2 and 3, the number of diffusion sections 10 is greater than that of the embodiment, and the size of each diffusion section 10 is smaller.

As shown in FIG. 5C, the diffusion portion 10 of Modification 4 is inclined so that the vehicle width direction outside and inside side surfaces are substantially parallel to the inclined edge portion 16a. In other words, each side surface is slanted so as to be positioned outward in the vehicle width direction as it goes upward in the vertical direction. Thus, the shape of the optical member 6 can have various variations. As a result, it is possible to easily improve the attractiveness of the vehicle lamp 1 .

(Modification 5)
FIG. 6A is an exploded perspective view of the vehicle lamp 1 according to Modification 5. FIG. FIG. 6B is an exploded perspective view of the vehicle lamp 1 according to the embodiment. FIG. 6C is a photograph of the vehicle lamp 1 according to Modification 5 in which only the first light source 2 is lit. FIG. 6D is a photograph of the vehicle lamp 1 according to the embodiment in which only the first light source 2 is lit. FIG. 6E is a photograph of the vehicle lamp 1 according to Modification 5 in which both the first light source 2 and the second light source 4 are turned on. FIG. 6F is a photograph of the vehicle lamp 1 according to the embodiment in which both the first light source 2 and the second light source 4 are lit.

As shown in FIG. 6A, in this modification, the reflector section 16, the inner lens section 14, and the control board 8 are arranged in this order from the front side of the lamp, and assembled with each other. Each diffuser 10 is inserted into each first light source opening 22 . On the other hand, as shown in FIG. 6B (see also FIG. 2), in the embodiment, the inner lens portion 14, the reflector portion 16, and the control board 8 are arranged in this order from the front side of the lamp, and assembled with each other. ing.

Therefore, in this modified example, since the support frame 18 is arranged on the rear side of the lamp with respect to the reflector portion 16, it cannot be visually recognized from the front of the lamp. On the other hand, in the embodiment, since the support frame 18 is arranged on the front side of the lamp with respect to the reflector portion 16, it can be visually recognized from the front of the lamp. Depending on the shape of the support frame 18 , at least the light from the first light source 2 can enter the support frame 18 and emit light together with the diffuser 10 .

Therefore, as shown in FIGS. 6(C) and 6(D), when only the first light source 2 is turned on, the vehicle lamp 1 of the present modified example is different from the vehicle lamp 1 of the embodiment. The outline of each first light emitting portion 24 is clearer. Therefore, clearer zigzag-patterned light emission can be visually recognized. Further, as shown in FIGS. 6(E) and 6(F), even when the first light source 2 and the second light source 4 are turned on, the vehicle lamp 1 of this modified example is similar to the vehicle lamp of the embodiment. 1, the outline of each first light emitting portion 24 is clearer. Therefore, it is possible to visually recognize more clear checkered light emission. In this way, by changing the positions of the inner lens portion 14 and the reflector portion 16 in the longitudinal direction of the lamp, different light emission modes can be realized.

The invention according to the embodiment described above may be specified by the items described below.
[Item 1]
a plurality of first light sources (2);
a plurality of second light sources (4);
A plurality of diffusion parts (10), each diffusion part (10) covering one or more first light sources (2) and diffusing light emitted from the first light sources (2) ( 10), and a plate-like optical member (6) having a plurality of openings (12), each opening (12) exposing one or more second light sources (4). ) and
A plurality of first light emitting units (24) each formed of one or more sets of a first light source (2) and a diffusion unit (10) ( 24), and a plurality of second light emitting parts (26), each second light emitting part (26) being formed by one or more sets of the second light source (4) and the opening (12). 2 light emitting units (26), wherein at least a portion of the plurality of first light emitting units (24) and at least a portion of the plurality of second light emitting units (26) are arranged alternately;
Vehicle lamp (1).
[Item 2]
The plurality of first light emitting units (24) and the plurality of second light emitting units (26) are arranged in a checkered pattern,
The vehicle lamp (1) according to the first item.
[Third item]
The plurality of first light emitting parts (24) exhibit the first lamp function,
The plurality of first light emitters (24) and the plurality of second light emitters (26) exhibit a second lamp function different from the first lamp function,
A vehicle lamp (1) according to the first item or the second item.
[Item 4]
The plurality of first light emitting parts (24) exhibit the first lamp function,
The plurality of second light emitting parts (26) exhibit a second lamp function different from the first lamp function,
A vehicle lamp (1) according to the first item or the second item.
[Item 5]
In the optical member (6), the surface around each opening (12) and each diffusing portion (10) have different brightness,
A vehicle lamp (1) according to any one of items 1 to 4.
[Item 6]
The optical member (6) has a reflecting surface (20) around each opening (12) for reflecting the light of the second light source (4),
The second light emitting part (26) is formed by the second light source (4), the opening (12) and the reflective surface (20),
A vehicle lamp (1) according to any one of items 1 to 5.
[Item 7]
The optical member (6) is made of a resin material translucent to the light from the first light source (2), and has a metal film provided around each opening (12),
The reflective surface (20) is composed of a metal film,
The diffusion part (10) is made of a translucent resin material,
The vehicle lamp (1) according to the sixth item.
[Item 8]
The plurality of diffusing parts (10) are integrally molded products,
A vehicle lamp (1) according to any one of items 1 to 7.

REFERENCE SIGNS LIST 1 vehicular lamp 2 first light source 4 second light source 6 optical member 10 diffusion portion 12 opening 20 reflecting surface 22 first light source opening 24 first light emitting portion 26 second light emitting portion .

Claims (8)

a plurality of first light sources;
a plurality of second light sources;
A plurality of diffusion sections, each diffusion section covering one or more of the first light sources and diffusing light emitted from the first light sources, and a plurality of openings, each opening. a plate-shaped optical member having a plurality of openings that expose one or more of the second light sources,
A plurality of first light-emitting portions, each first light-emitting portion being formed by one or more sets of the first light source and the diffusion portion, and a plurality of second light-emitting portions, a plurality of second light emitting units, each of which is formed by one or more sets of the second light source and the opening, wherein at least some of the plurality of first light emitting units; At least some of the plurality of second light emitting units are alternately arranged,
Vehicle lighting. The plurality of first light emitting units and the plurality of second light emitting units are arranged in a checkered pattern,
The vehicle lamp according to claim 1. The plurality of first light emitting units exhibit a first lamp function,
The plurality of first light emitting units and the plurality of second light emitting units exhibit a second lamp function different from the first lamp function,
The vehicle lamp according to claim 1 or 2. The plurality of first light emitting units exhibit a first lamp function,
The plurality of second light emitting units exhibit a second lamp function different from the first lamp function,
The vehicle lamp according to claim 1 or 2. In the optical member, the surface around each opening and each diffusing portion have different brightness,
The vehicle lamp according to any one of claims 1 to 4. The optical member has a reflecting surface around each opening that reflects the light from the second light source,
The second light emitting unit is formed by the second light source, the opening and the reflecting surface,
The vehicle lamp according to any one of claims 1 to 5. The optical member is made of a resin material translucent to the light of the first light source, and has a metal film provided around each opening,
The reflective surface is composed of the metal film,
wherein the diffusion section is made of the translucent resin material,
The vehicle lamp according to claim 6. The plurality of diffusion sections are integrally molded products,
The vehicle lamp according to any one of claims 1 to 7.

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