Priority is claimed on Japanese Patent Application No. 2016-61933, filed on Mar. 25, 2016, the contents of which are incorporated herein by reference.
Field of the Invention
The present invention relates to a vehicle lighting apparatus.
Background
For example, a vehicle lighting apparatus such as a vehicle headlamp includes a light source, a reflector that reflects light emitted from the light source toward a vehicle travel direction, a shade that blocks (cuts) part of the light reflected by the reflector, and a projection lens that projects the light of which part is cut by the shade toward the vehicle travel direction. In such a vehicle lighting apparatus, a light source image that is defined by a front end of the shade is reversely projected by the projection lens, and thereby, a low beam light distribution pattern that has an upper end including a cutoff line is formed (for example, refer to Japanese Patent No. 5678777).
Light that is cut by the shade of the light emitted from the light source is not projected toward the vehicle travel direction but is absorbed in the vehicle lighting apparatus. Therefore, the light that is cut by the shade is not used and becomes a loss.
An object of an aspect of the present invention is to provide a vehicle lighting apparatus capable of further enhancing a usage efficiency of light emitted from a light source.
(1) A vehicle lighting apparatus according to an aspect of the present invention includes: a light source; a reflector that reflects light emitted from the light source toward a vehicle travel direction; a light distribution control unit that controls light distribution of light reflected by the reflector; and a projection lens that projects the light of which the light distribution is controlled by the light distribution control unit toward the vehicle travel direction, wherein the light distribution control unit has a structure in which a plurality of reflection elements are provided to be aligned in a vehicle width direction, and wherein light that is incident on the projection lens from an upper direction of the plurality of reflection elements of the light reflected by the reflector forms a light distribution pattern that includes a cutoff line which is defined by an upper end of the plurality of reflection elements, and light that is incident on the plurality of reflection elements is reflected toward the projection lens to thereby form a complementary light distribution pattern that is different from the light distribution pattern.
(2) In the above-described vehicle lighting apparatus, the reflection element may include a first reflection surface and a second reflection surface, and wherein light that is incident on the first reflection surface may be reflected toward the second reflection surface, and then light that is incident on the second reflection surface may be reflected toward the projection lens.
(3) In the above-described vehicle lighting apparatus, the plurality of reflection elements may be a plurality of mirrors that are arranged in a slanted state with respect to an optical axis of the light emitted from the light source, wherein the plurality of mirrors may include a first mirror and a second mirror that are adjacent to each other, and wherein the first reflection surface may be formed of a slanted surface, which faces the second minor, of the first mirror, and the second reflection surface may be formed of a slanted surface, which faces the first mirror, of the second mirror.
(4) In the above-described vehicle lighting apparatus, the plurality of reflection elements may be a plurality of prisms including an incidence surface, the first reflection surface, the second reflection surface, and an emission surface, and light that is incident on the incidence surface to enter an inside of the prism may be reflected by the first reflection surface and the second reflection surface and may be then emitted outside the prism from the emission surface.
(5) In the above-described vehicle lighting apparatus, the plurality of reflection elements may be arranged to be symmetrically aligned so as to interpose an optical axis of the light emitted from the light source.
(6) In the above-described vehicle lighting apparatus, the complementary light distribution pattern may be an overhead light distribution pattern that is formed above the cutoff line.
As described above, according to an aspect of the present invention, it is possible to provide a vehicle lighting apparatus capable of further enhancing a usage efficiency of light emitted from a light source.
Hereinafter, an embodiment of the present invention is described in detail with reference to the drawings.
In the drawings used in the following description, there may be a case in which, for ease of understanding the components, the components are shown using different dimension reduction scales depending on the component, and the dimension ratio of each component or the like is not always the same as an actual one.
As an embodiment of the present invention, for example, a vehicle lighting apparatus 1 shown in
The vehicle lighting apparatus 1 of the present embodiment fowls, for example, a vehicle headlamp (headlight) as shown in
The light source 2 is an LED module in which an LED is mounted in a package. An LED that emits white light (hereinafter, simply referred to as “light”) L is used for the LED module. A high-output-type LED for vehicle illumination is used for the LED. The light source 2 is mounted on a circuit board 7 and radially emits the light L emitted by the LED module toward the upward direction (+Z direction).
A light-emitting device such as a laser diode (LD) other than the above-described LED can be used for the light source 12. The type of the light source 2 is not specifically limited. A light source other than the above-described light-emitting device may be used. The number of the light source 2 is not limited to one. The number of the light source 2 may be two or more.
The reflector 3 is formed of, for example, a reflection member such as an aluminum die-cast. The reflector 3 is positioned above the light source 2 and is formed to be curved so as to form a parabola of which the focal point is the center (light emission point) of the light source 2 from a base end (rear end) part toward a tip end (front end) part of the reflector 3 in a cross-section along the front-to-rear direction (X-axis direction) of the vehicle. In the reflector 3, a surface (inner surface), which faces the light source 2, of the reflector 3 is a reflection surface 3a. The reflector 3 reflects the light L emitted from the light source 2 toward a vehicle travel direction (+X-axis direction) by the reflection surface 3a.
The light distribution control unit 4 controls light distribution of the light L reflected by the reflector 3. The light distribution control unit 4 has, for example, a configuration as shown in
Specifically, the light distribution control unit 4 has a configuration in which a plurality of mirrors 9 are provided to be aligned in a vehicle width direction (Y-axis direction) on a shade 8 as shown in
The shade 8 is a member (light shield member) that blocks (cuts) part of the light L reflected by the reflector 3. The shade 8 is arranged at a more front position than the light source 2 such that light that is incident on a lower part of the projection lens 5 is cut of the light L reflected by the reflector 3.
The plurality of mirrors 9 are reflection elements that include a first reflection surface 9a and a second reflection surface 9b. For example, a reflection member such as aluminum can be used for the plurality of mirrors 9. The configuration of the plurality of mirrors 9 is not limited to a configuration in which the plurality of mirrors 9 are attached to the shade 8. The plurality of mirrors 9 can be also formed integrally with the shade 8.
The plurality of mirrors 9 are arranged in a slanted state in the same direction with respect to an optical axis of the light L emitted from the light source 2. The plurality of mirrors 9 are arranged to be symmetrically aligned so as to interpose the optical axis of the light L emitted from the light source 2.
A mirror 9A, which is positioned at the center of the light distribution control unit 4, of the plurality of mirrors 9 has a configuration in which the first reflection surfaces 9a that are slanted in the opposite direction to each other are integrated, and thereby, the second reflection surface 9b is omitted. The configuration of the mirror 9A is not limited to such an integrated configuration, and the mirror 9A may be formed of two mirrors 9 that are slanted in the opposite direction to each other similarly to other mirrors 9.
With respect to one mirror 9 (a first mirror) and the other mirror 9 (a second mirror) that are adjacent to each other, the first reflection surface 9a is formed of a slanted surface, which faces the other mirror 9 (the second mirror), of one mirror 9 (the first mirror), and the second reflection surface 9b is formed of a slanted surface, which faces one mirror 9 (the first mirror), of the other mirror 9 (the second mirror).
In the light distribution control unit 4, light L that is incident on the first reflection surface 9a is reflected toward the second reflection surface 9b, and then the light L that is incident on the second reflection surface 9b is reflected toward the projection lens 5.
The projection lens 5 is a convex lens arranged at a more front position than the light distribution control unit 4. The projection lens 5 enlarges and projects light L of which the light distribution is controlled by the light distribution control unit 4 toward the vehicle travel direction (+X-axis direction).
The light distribution control according to the light distribution control unit 4 of the vehicle lighting apparatus 1 having the above-described configuration is described with reference to
In the vehicle lighting apparatus 1 of the present embodiment, part (not shown) of the light L reflected by the reflector 3 is blocked (cut) by the shade 8. As shown in
That is, in the vehicle lighting apparatus 1 of the present embodiment, a light source image that is defined by the upper end of the plurality of mirrors 9 is reversely projected by the projection lens 5, and thereby, the low beam light distribution pattern LP that has an upper end including the cutoff line is foil led.
On the other hand, as shown in
Thereby, the complementary light distribution pattern CP for complementing the low beam light distribution pattern LP can be formed. That is, the complementary light distribution pattern CP is foamed by utilizing part of the light that is cut by the shade in the related art.
In the vehicle lighting apparatus 1 of the present embodiment, by adjusting each of the shape of each mirror 9, the angle of the first reflection surface 9a and the second reflection surface 9b described above, and the like, the light distribution (shape, luminosity distribution, and the like) of the complementary light distribution pattern CP can be easily controlled.
Accordingly, in the vehicle lighting apparatus 1 of the present embodiment, by superposing the light L2 that is incident on the plurality of mirrors 9, that is, the light L2 that forms the complementary light distribution pattern CP on the light L1 that forms the low beam light distribution pattern LP, it is possible to allow the low beam light distribution pattern LP to have a further optimum shape, luminosity distribution, and the like.
In the vehicle lighting apparatus 1 of the present embodiment, as shown in
As described above, in the vehicle lighting apparatus 1 of the present embodiment, by utilizing part of the light that is cut by the shade in the related art, it is possible to further enhance a usage efficiency of the light L emitted from the light source 2. In the vehicle lighting apparatus 1 of the present embodiment, it is possible to easily control the light distribution of the light emitted by the vehicle lighting apparatus 1 according to each mirror 9 that forms the light distribution control unit 4.
The present invention is not limited to the above-described embodiment, and a variety of changes can be made without departing from the scope of the invention.
Specifically, the vehicle lighting apparatus 1 of the present embodiment may be formed of, for example, a plurality of mirrors 9A, 9B, 9C as shown in
In the configuration shown in
In the vehicle lighting apparatus 1, a light source image that is defined by the upper end of the plurality of mirrors 9A, 9B, 9C is reversely projected by the projection lens 5, and thereby, the above-described cutoff line can be formed in a step shape.
The vehicle lighting apparatus 1 of the present embodiment may have, for example, a configuration that includes a light distribution control unit 4A as shown in
As shown in
The plurality of prisms 10 are reflection elements that include an incidence surface 10a, a first reflection surface 10b, a second reflection surface 10c, and an emission surface 10d. A material that has a higher refractive index than air which is, for example a transparent plastic such as polycarbonate and acrylic, glass, or the like can be used for the prism 10.
The incidence surface 10a and the emission surface 10d are arranged in parallel with each other in the vehicle width direction (Y-axis direction). The first reflection surface 10b and the second reflection surface 10c are arranged in a slanted state in the same direction with respect to the optical axis of the light L emitted from the light source 2. The plurality of prisms 10 are arranged to be symmetrically aligned so as to interpose the optical axis of the light L emitted from the light source 2 similarly to the plurality of mirrors 9 described above (not shown in the drawings).
As shown in
The configuration of the first reflection surface 10b and the second reflection surface 10c is not limited to a configuration in which light is totally reflected in the prism 10. A configuration may be used in which a reflection film (for example, an aluminum evaporated film and the like) is provided on the reflection surfaces 10b, 10c to thereby reflect the light L by the reflection film A light shielding film or the like may be provided on an upper surface 10e of the prism 10.
Number | Date | Country | Kind |
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2016-061933 | Mar 2016 | JP | national |