JP6082225B2 - Vehicle lighting - Google Patents

Description

  The present invention relates to a vehicular lamp.

  2. Description of the Related Art Conventionally, various types of vehicle lamps mounted on a vehicle are known in which light emitted from an LED (light emitting diode) is reflected by a reflector (reflecting surface), then transmitted through a lens and irradiated forward. (For example, refer to Patent Document 1). In this type of vehicle lamp, when the light emitting surface is intended to emit light in a long line shape, a plurality of LEDs and a plurality of reflective surfaces corresponding thereto are arranged in a line, respectively, and a plurality of reflective surfaces The long lens disposed in front of the lens is configured to emit light.

JP 2008-146977 A

  However, since the light emitted from the LED is highly directional, if the light reflected by each reflecting surface is simply transmitted through the lens, the portion of this lens located in front of each reflecting surface is It is difficult to realize a uniform light emitting mode without uneven brightness because the light shines stronger than the portion located in front of the two adjacent reflecting surfaces.

  The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a vehicular lamp that can realize a uniform line-like light emission mode with less luminance unevenness than conventional ones.

In order to solve the above problems, the present invention is a vehicle lamp,
A plurality of LEDs arranged along an array direction inclined obliquely with respect to the front-rear direction and emitting light individually in a direction substantially orthogonal to the array direction and different from the front-rear direction;
A plurality of reflecting surfaces arranged in the orthogonal direction of the plurality of LEDs while being juxtaposed along the arrangement direction corresponding to the plurality of LEDs, and individually reflecting light emitted from the plurality of LEDs forward When,
Other reflective surfaces arranged adjacent to one reflective surface located at the rearmost among the plurality of reflective surfaces;
A long lens disposed in front of the plurality of reflective surfaces and the other reflective surface and extending along the arrangement direction;
With
The lens is
While having two side plate portions on both sides in the second orthogonal direction orthogonal to both the front-rear direction and the arrangement direction, and a front plate portion connecting the front ends of the two side plate portions,
The rear surface of the front plate portion is a diffusion surface that transmits the light reflected by the plurality of reflection surfaces and the other reflection surfaces while transmitting the light forward .
The plurality of reflective surfaces are:
Side walls along each of the front-rear direction and the orthogonal direction and the reflecting surfaces are alternately connected in the arrangement direction, and are connected in a staircase pattern.
Each reflection surface is orthogonal to both the front-rear direction and the second orthogonal direction before the light incident from the LED corresponding to the reflection surface is incident on the lens in a cross section orthogonal to the second orthogonal direction. Reflecting forward while crossing in the third orthogonal direction,
The other reflective surface is disposed on the one side in the third orthogonal direction with respect to the one reflective surface that is the rearmost among the plurality of reflective surfaces and is located on one side in the third orthogonal direction. A part of the light emitted from the LED corresponding to the reflecting surface is reflected forward .

  According to the present invention, light emitted from a plurality of LEDs is individually reflected forward by a plurality of reflecting surfaces corresponding to the plurality of LEDs, and then transmitted through the front plate portion of the lens and irradiated forward. The At this time, since the light reflected by the plurality of reflecting surfaces is transmitted forward while being diffused by the rear surface of the front plate portion of the lens, compared to the conventional case where the reflected light from the reflecting surface is simply transmitted to the lens, The front plate portion of the long lens can emit light with a light emitting mode with less luminance unevenness. Therefore, it is possible to realize a uniform line-like light emission mode with less luminance unevenness than in the past.

Further, since the rear surface of the front plate portion of the lens is a diffusing surface, when the front plate portion at the time of light emission is viewed from the front, the back side is more shining. Therefore, the appearance at the time of lighting can be given a sense of depth (three-dimensional effect).
Furthermore, since the lens is formed in a forward convex shape having two side plate portions on both sides in the second orthogonal direction and a front plate portion connecting the front ends of the two side plate portions, The appearance can also have a sense of depth (three-dimensional effect).

It is a front view of the vehicular lamp in an embodiment. It is sectional drawing in the II-II line of FIG. It is sectional drawing in the III-III line of FIG. It is a cross-sectional view which shows the modification of the vehicle lamp in embodiment.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a front view of a vehicular lamp 1 according to this embodiment, and FIGS. 2 and 3 are cross-sectional views taken along lines II-II and III-III in FIG.
In the following description, “front”, “rear”, “left”, “right”, “upper”, and “lower” refer to the direction viewed from the vehicular lamp 1 unless otherwise specified. .

  As shown in FIGS. 1 to 3, a vehicular lamp 1 is a headlamp mounted on a front portion of a vehicle (not shown), and includes a housing (not shown) having a front opening and a transparent outer covering the front opening of the housing. And a lens 2. The outer lens 2 is formed in a shape inclined obliquely rearward toward the left, and a plurality of LEDs (light emission) are provided inside the lamp chamber covered with the outer lens 2 in the vehicle lamp 1. The diodes 3,..., The reflector 4, and the inner lens 5 are accommodated.

  The plurality of LEDs 3,... Are arranged substantially along a direction X (hereinafter referred to as an arrangement direction) inclined obliquely rearward toward the left, following the outer lens 2. The plurality of LEDs 3,... Are mounted on the lower surface of the common substrate 31 with their heights aligned in the vertical direction with each light emitting surface facing downward so as to individually emit light downward. ing.

  The reflector 4 is disposed below the plurality of LEDs 3,..., And reflects light emitted downward from the plurality of LEDs 3,. Specifically, the reflector 4 has a flat plate-like upper plate portion 40 that is substantially orthogonal to the vertical direction. In the upper plate portion 40, a plurality of through holes 40a,... Penetrating in the vertical direction corresponding to the plurality of LEDs 3,... Are formed directly below the plurality of LEDs 3,. .. Are provided so as to cover the lower side of the upper plate portion 40 from the rear portion of the lower surface of the upper plate portion 40 to the lower diagonally forward direction.

  The plurality of reflecting portions 41,... Are arranged side by side substantially along the arrangement direction X corresponding to the plurality of LEDs 3,... Are alternately connected in the arrangement direction X, so that the right ones are connected in a stepped manner in a stepwise position. Each of the plurality of reflecting portions 41,... Is formed in a concave plate shape that is disposed below the corresponding LED 3 and opens upward and obliquely forward so as to cover the lower side of the LED 3, and the inner surface of each opening ( The front surface is a reflective surface 410 that reflects light emitted from the corresponding LED 3 forward.

Further, the plurality of reflecting portions 41,... Are constituted by a plurality of first reflecting portions 41a,... Excluding the one located at the rearmost and a second reflecting portion 41b located at the rearmost.
Among these, as for several 1st reflection parts 41a, ..., each opening inner surface (front surface) is the 1st reflection surface 410a. The first reflecting surface 410a has a vertical cross-sectional shape orthogonal to the left-right direction formed in a parabolic shape with a focus on the vicinity of the corresponding LED 3, while a cross-sectional shape orthogonal to the vertical direction is A position near the corresponding LED 3 is the first focal point, and a predetermined position in front of the first focal point is the second focal point f2. Therefore, the first reflecting surface 410a crosses the light emitted from the corresponding LED 3 in the left-right direction by reflecting it forward while making it substantially parallel light in the longitudinal section and condensing it at the second focal point f2 in the transverse section. And let it reflect forward. Here, the first reflection surface 410a reflects light forward while intersecting in the left-right direction in the cross section so that the reflected light is not blocked by the side wall portion 42 connected to the right end of the first reflection surface 410a. Because.

  On the other hand, the second reflecting portion 41b is formed to be slightly larger in the left-right direction than the first reflecting portion 41a, and the inner surface (front surface) of the opening is the second reflecting surface 410b. In the longitudinal section, the second reflecting surface 410b is formed in a parabolic shape having a focus in the vicinity of the corresponding LED 3 in the same manner as the first reflecting surface 410a, and the light emitted from the LED 3 is substantially omitted. Reflected forward while using parallel light. On the other hand, in the cross section, the second reflecting surface 410b reflects the light emitted from the corresponding LED 3 diagonally left forward while widely diffusing in the left-right direction. A plurality of bowl-shaped flute cuts (not shown) along the longitudinal section are arranged in the left-right direction on the second reflecting surface 410b, and the flute cuts diffuse the light widely in the left-right direction. However, also in the second reflecting surface 410b, in the same manner as the first reflecting surface 410a, in order to prevent the reflected light from being blocked by the side wall portion 42 connected to the right end of the second reflecting surface 410b, The light is reflected forward while intersecting in the left-right direction.

  The inner lens 5 is formed in a long shape extending along the arrangement direction X, and is disposed in front of the plurality of reflecting portions 41 of the reflector 4. However, the inner lens 5 is provided over the left side of the second reflecting surface 410a so as to be able to transmit light reflected diagonally left frontward by the second reflecting portion 41b (second reflecting surface 410a). ing. The inner lens 5 has a forward convex shape having an upper plate portion 51 and a lower plate portion 52 on both sides in the vertical direction, and a front plate portion 53 that connects the front ends of the upper plate portion 51 and the lower plate portion 52. Of these, the front plate portion 53 is positioned in front of the plurality of reflecting surfaces 410,... (That is, the plurality of first reflecting surfaces 410a,... And the second reflecting surface 410b). More specifically, the front plate portion 53 is located in front of the second focal point f2 in the cross section of the plurality of first reflection surfaces 410a,. Further, the rear surface 53a of the front plate portion 53 is a textured surface (diffusion surface) that has been textured, and diffuses light reflected by the plurality of reflective surfaces 410,. Permeate forward.

  As described above, according to the vehicular lamp 1 of the present embodiment, the light emitted from the plurality of LEDs 3,... Individually forwards on the plurality of reflecting surfaces 410,. After being reflected, the light passes through the front plate portion 53 of the inner lens 5 and is irradiated forward. At this time, the light reflected by the plurality of reflecting surfaces 410,... Is transmitted forward while being diffused by the rear surface 53a of the front plate portion 53 of the inner lens 5, so that the reflected light from the reflecting surface is simply transmitted to the lens. The front plate portion 53 of the long inner lens 5 can be made to emit light in a light emitting mode with less luminance unevenness than in the conventional case. Therefore, it is possible to realize a uniform line-like light emission mode with less luminance unevenness than in the past.

Further, since the rear surface 53a of the front plate portion 53 of the inner lens 5 is a textured surface (diffusion surface), when the front plate portion 53 at the time of light emission is viewed from the front, the back side is more shining. Become. Therefore, the appearance at the time of lighting can be given a sense of depth (three-dimensional effect).
Further, the inner lens 5 has a forward convex shape having an upper plate portion 51 and a lower plate portion 52 on both sides in the vertical direction and a front plate portion 53 connecting the front ends of the upper plate portion 51 and the lower plate portion 52. Therefore, the appearance when not lit can be given a sense of depth (three-dimensional effect).

  In addition, each reflecting surface 410 reflects light emitted from the LED 3 corresponding to the reflecting surface 410 to the front while crossing in the left-right direction in the cross section, so that it directly spreads from the reflecting surface 410 in the left-right direction. Unlike the case of reflecting light, the reflected light can be reflected so as to spread in the left-right direction without being blocked by the side wall portion 42 connected to the right end of each reflecting surface 410.

  The second reflective surface 410b located at the rearmost and leftmost side of the plurality of reflective surfaces 410,..., Emits light emitted from the LED 3 corresponding to the second reflective surface 410b, and is diagonally left forward in the cross section. Therefore, it is possible to emit light widely up to the left end portion (rear end portion) where the reflective surface 410 is not provided behind the front plate portion 53 of the inner lens 5. That is, the inner lens 5 can emit light in a longer line shape.

  The embodiments to which the present invention can be applied are not limited to the above-described embodiments, and can be appropriately changed without departing from the spirit of the present invention.

  For example, in the above embodiment, the vehicular lamp 1 that is a headlamp is described as an example of the vehicular lamp according to the present invention. However, the present invention can be suitably applied to a vehicular lamp other than the headlamp. It is.

In addition, although the arrangement direction X of the plurality of LEDs 3, ... is a direction inclined obliquely rearward toward the left, the arrangement direction X is not particularly limited as long as it intersects the front-rear direction. Furthermore, the direction in which each LED 3 emits light in accordance with the arrangement direction X may be a direction substantially orthogonal to the arrangement direction X and different from the front-rear direction. For other configurations, for example, It may be as follows.
The side wall part 42 of the reflector 4 does not need to be substantially orthogonal to the left-right direction, and may be provided so as to follow both the front-rear direction and the orthogonal direction.
The upper plate portion 51 and the lower plate portion 52 of the inner lens 5 do not have to be on both sides in the up-down direction, and may be on both sides in the second orthogonal direction orthogonal to both the front-rear direction and the arrangement direction X. .
Each reflecting surface 410 does not have to reflect light emitted from the corresponding LED 3 forward while intersecting in the horizontal direction in the cross section, and in the cross section orthogonal to the second orthogonal direction, What is necessary is just to reflect to the front, making it cross | intersect the 3rd orthogonal direction orthogonal to any of the 2nd orthogonal directions.
When the second reflecting surface 410b is the rearmost one of the plurality of reflecting surfaces 410,... And located in one of the third orthogonal directions, the second reflecting surface 410b transmits the light emitted from the corresponding LED 3 to the first reflecting surface 410b. In the cross section orthogonal to the two orthogonal directions, any one may be used as long as it reflects obliquely forward on one side of the third orthogonal direction. At this time, the inner lens 5 should just be provided over the one side of the said 3rd orthogonal direction rather than the 2nd reflective surface 410b.

In addition, the innermost lens 5 emits light widely to the left end by reflecting the light obliquely forward to the left on the second reflecting surface 410b located at the rearmost side, but the second reflecting surface 410b is used as the first reflecting surface. Even in a configuration similar to 410a (a configuration that reflects light forward), the inner lens 5 can emit light to the left end by using other components.
Specifically, as shown in FIG. 4, in this case, an extension 6 is provided on the left side of the second reflecting portion 41 b and behind the left end portion of the inner lens 5. Is a parabolic reflecting surface 6a having a focal point in the vicinity of the LED 3 corresponding to the second reflecting surface 410b, and reflects light from the LED 3 forward. Further, the second reflecting portion 41b (second reflecting surface 410b) has a left end portion removed so as not to block the optical path from the corresponding LED 3 to the reflecting surface 6a of the extension 6.
According to such a configuration, even when the second reflective surface 410b is configured similarly to the first reflective surface 410a (a configuration that reflects light forward), the light is emitted from the LED 3 corresponding to the second reflective surface 410b. A part of the light can be reflected forward by the reflection surface 6 a of the extension 6, and the left end portion of the front plate portion 53 of the inner lens 5 where the reflection surface 410 is not provided behind can be emitted.

1 Vehicle lamp 3 LED
X arrangement direction 4 reflector 41 reflecting portion 410 reflecting surface 410a first reflecting surface 410b second reflecting surface (one reflecting surface)
42 Side wall (side wall)
5 Inner lens (lens)
51 Upper plate portion 52 Lower plate portion 53 Front plate portion 53a Rear surface

Claims (2)

A plurality of LEDs arranged along an array direction inclined obliquely with respect to the front-rear direction and emitting light individually in a direction substantially orthogonal to the array direction and different from the front-rear direction;
A plurality of reflecting surfaces arranged in the orthogonal direction of the plurality of LEDs while being juxtaposed along the arrangement direction corresponding to the plurality of LEDs, and individually reflecting light emitted from the plurality of LEDs forward When,
Other reflective surfaces arranged adjacent to one reflective surface located at the rearmost among the plurality of reflective surfaces;
A long lens disposed in front of the plurality of reflective surfaces and the other reflective surface and extending along the arrangement direction;
With
The lens is
While having two side plate portions on both sides in the second orthogonal direction orthogonal to both the front-rear direction and the arrangement direction, and a front plate portion connecting the front ends of the two side plate portions,
The rear surface of the front plate portion is a diffusion surface that transmits the light reflected by the plurality of reflection surfaces and the other reflection surfaces while transmitting the light forward .
The plurality of reflective surfaces are:
Side walls along each of the front-rear direction and the orthogonal direction and the reflecting surfaces are alternately connected in the arrangement direction, and are connected in a staircase pattern.
Each reflecting surface is orthogonal to both the front-rear direction and the second orthogonal direction before the light incident from the LED corresponding to the reflecting surface is incident on the lens. Reflecting forward while crossing in the third orthogonal direction,
The other reflective surface is disposed on the one side in the third orthogonal direction with respect to the one reflective surface that is the rearmost among the plurality of reflective surfaces and is located on one side in the third orthogonal direction. A vehicular lamp characterized in that a part of light emitted from an LED corresponding to a reflecting surface is reflected forward . 2. The vehicular lamp according to claim 1, wherein the lens is provided over one side in the third orthogonal direction from the one reflecting surface .

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