JP6932499B2 - Vehicle headlights - Google Patents

Description

The present invention relates to vehicle headlights.

Vehicle headlights typified by automobile headlights are known to be equipped with a light source for a low beam that illuminates the front at night, a light source for a high beam that illuminates a distance farther than the low beam, and the like. The light from the light source for the high beam includes the light emitted above the low beam.

For example, Patent Document 1 below discloses a headlight for a vehicle including a light source and a plurality of lamp units having a reflector for reflecting light from the light source toward the front.

Japanese Unexamined Patent Publication No. 2014-229588

In the vehicle headlight described in Patent Document 1, a high beam light distribution is formed by light emitted from a plurality of lighting fixture units. As described above, a plurality of lamp units may be used to form a desired light distribution. Further, not only the direction in which the light is irradiated but also the shape and the brightness distribution of the range in which the light is irradiated are different between the low beam light distribution and the high beam light distribution. Therefore, the low beam lamp unit and the high beam lamp unit are often provided separately. As described above, the conventional headlight for a vehicle may require a large number of lamp units in order to form a desired light distribution.

Therefore, an object of the present invention is to provide a vehicle headlight capable of forming a desired low beam light distribution and high beam light distribution with a small number of lamp units.

In order to solve the above problems, the vehicle headlight of the present invention includes a high beam light emitting element that emits light that forms at least a part of the high beam light distribution and light that forms at least a part of the low beam light distribution. The low beam light emitting element that emits light, the first reflection region that reflects the direct light emitted by the low beam light emitting element, and the low beam light emitting element that reflects the direct light emitted by the high beam light emitting element and emits the low beam light emitting element. It is characterized by including a reflector having a second reflection region formed at a position where direct light is not incident.

In the vehicle headlight, at least a part of the low beam light distribution can be formed by the light from the low beam light emitting element, and at least a part of the high beam light distribution can be formed by the light from the high beam light emitting element. .. When it is desired to brighten the low beam light distribution or the high beam light distribution, the light from the low beam light emitting element or the light from the high beam light emitting element complements the light distribution by the light from the other lamp unit. Can form the desired low beam light distribution and high beam light distribution. For example, the light from another lamp unit can form a rough portion of the low beam light distribution, and the light from the low beam light emitting element can complement the low beam light distribution. Further, the light distribution of the light from the high beam light emitting element can be formed on the upper part of the light distribution formed by the light from the other lamp unit to complement the light distribution of the high beam. When forming a bright low-beam light distribution and a high-beam light distribution, a conventional vehicle headlight is provided with a plurality of lamp units to form a low-beam light distribution, and further forms a high-beam light distribution. May require a separate lighting unit. However, in the above-mentioned vehicle headlights, since one lamp unit can complement the low beam light distribution and the high beam light distribution, a desired low beam light distribution and high beam light distribution can be formed with a small number of lamp units. Further, since the second reflection region is formed at a position where the direct light emitted by the high beam light emitting element is reflected and the direct light emitted by the low beam light emitting element is not incident, the light from the low beam light emitting element is formed when the low beam is lit. Can be prevented from being incident on the second reflection region and irradiating unintended light above the desired low beam light distribution.

Further, it is preferable that the first reflection region is formed above the second reflection region and the high beam light emitting element is arranged in front of the low beam light emitting element.

By forming the first reflection region above the second reflection region and arranging the high beam light emitting element in front of the low beam light emitting element, the direct light emitted by the high beam light emitting element is reflected and the low beam light is emitted. It becomes easy to form the second reflection region at a position where the direct light emitted by the element does not enter.

Further, it is preferable to further include a lamp unit that emits light emitted by the low beam light emitting element to form a left or right end portion of the low beam light distribution and forms a central portion of the low beam light distribution. ..

It may be difficult to form a bright low beam light distribution with only the light from one lamp unit. As described above, a part of the low beam light distribution is formed by the light from one lamp unit, and the light emitted by the low beam light emitting element complements the light distribution to obtain the low beam light distribution. It can form a low beam light distribution.

Further, it is preferable that the low beam light emitting element is turned off when the high beam light emitting element is turned on.

When the high beam is lit, there is a desire to make the lower part (the front side of the vehicle when viewed from the driver) darker than when the low beam is lit. By turning off the low beam light emitting element when the high beam is turned on, the amount of light below the high beam light distribution can be reduced as compared with the low beam light distribution, and it becomes easier to form a desired high beam light distribution. Further, since the low beam light emitting element is turned off when the high beam light emitting element is turned on, the number of light emitting elements emitted when the low beam is turned on and when the high beam is turned on can be made the same. The difference in the amount of heat generated by the light emitting element can be reduced. For example, when the amount of heat generated by each light emitting element at the time of light emission is the same, the amount of heat generated by the light emitting element can be substantially the same when the low beam is lit and when the high beam is lit. By reducing the difference in the amount of heat generated by the light emitting elements between when the low beam is lit and when the high beam is lit in this way, it is easy to optimize the design of the heat sink or the like for releasing the heat generated by each light emitting element. Therefore, it is possible to prevent the heat sink and the like from becoming large in size.

As described above, according to the present invention, there is provided a vehicle headlight capable of forming a desired low beam light distribution and high beam light distribution with a small number of lighting fixture units.

It is a front view which shows the outline of the vehicle provided with the headlight for a vehicle in embodiment of this invention. FIG. 5 is a cross-sectional view taken along the line II-II of FIG. FIG. 3 is a cross-sectional view taken along the line III-III of FIG. FIG. 4A shows a low beam light distribution, FIG. 4B shows a high beam light distribution, and FIG. 4C shows a daytime illumination light distribution.

Hereinafter, a mode for carrying out the vehicle headlight according to the present invention will be illustrated together with the attached drawings. The embodiments illustrated below are for facilitating the understanding of the present invention, and are not for limiting the interpretation of the present invention. The present invention can be modified or improved from the following embodiments without departing from the spirit of the present invention.

FIG. 1 is a front view showing an outline of a vehicle provided with a vehicle headlight according to the present embodiment. As shown in FIG. 1, the vehicle 100 includes a pair of vehicle headlights 1 in each of the front left and right directions. The pair of vehicle headlights 1 provided in the vehicle 100 have a shape symmetrical to each other in the left-right direction. In the vehicle headlight 1 of the present embodiment, the lamp 1a and the lamp 1b are arranged side by side with each other, the lamp 1a is arranged outside the vehicle 100, and the lamp 1b is arranged on the center side of the vehicle 100.

<Lighting fixture 1a>
First, the lamp 1a will be described. FIG. 2 is a cross-sectional view taken along the line II-II of FIG. That is, FIG. 2 is a cross-sectional view of the lamp 1a in the vertical direction. As shown in FIG. 2, the lamp 1a, which is a part of the vehicle headlight 1, includes a housing 10 and a lamp unit LUa housed in the housing 10.

The housing 10 includes a lamp housing 11, a front cover 12, and a back cover 13 as main components. The front of the lamp housing 11 has an opening, and the front cover 12 is fixed to the lamp housing 11 so as to close the opening. Further, an opening smaller than the front is formed behind the lamp housing 11, and the back cover 13 is fixed to the lamp housing 11 so as to close the opening.

The space formed by the lamp housing 11, the front cover 12 that closes the front opening of the lamp housing 11, and the back cover 13 that closes the rear opening of the lamp housing 11 is the light room LR. The lamp unit LUa is housed inside.

The lamp unit LUa includes a support member 30, a reflector 20, a low beam light emitting element 41, and a high beam light emitting element 42 as main components.

The support member 30 is a metal member and has a top plate 31, a back plate 32, and a locking portion 33. The top plate 31 is a plate-shaped metal member extending substantially horizontally, and the back plate 32 is a plate-shaped metal member extending substantially vertically. The rear end of the top plate 31 and the upper end of the back plate 32 are connected to each other. Further, a locking portion 33 is connected near the upper end of the back plate 32. The locking portion 33 extends rearward from the back plate 32, and the locking portion 33 is formed with a screw hole that opens to the rear side. A screw 35 is screwed into the screw hole from the outside of the lamp housing 11, and the locking portion 33 is fixed to the lamp housing 11. Further, a screw hole is also formed on the lower side of the back plate 32, and a screw 34 is screwed into the screw hole from the outside of the lamp housing 11 to fix the back plate 32 to the lamp housing 11. In this way, the back plate 32 is fixed in the light room LR in a substantially vertical state, and the top plate 31 connected to the back plate 32 is also fixed in the light room LR. By adjusting these screws 34 and 35, the angle of the back plate 32 can be finely adjusted, and the angle of the top plate 31 can be finely adjusted accordingly.

The reflector 20 is fixed to the lower surface of the top plate 31. The reflector 20 has a reflector main body portion 24 and a plating portion 23. The reflector main body 24 is made of resin. The plating portion 23 is a thin film composed of a metal such as aluminum or a metal oxide on the front side (front cover 12 side) surface of the reflector main body portion 24. The surface of the plated portion 23 is a light reflecting surface 23r.

The reflection surface 23r has a first reflection region 21r and a second reflection region 22r, which are different regions from each other, and a horizontal region 25r extending in a substantially horizontal direction between the first reflection region 21r and the second reflection region 22r. Has. The first reflection region 21r is formed at a position where the direct light emitted by the low beam light emitting element 41 can be reflected. The second reflection region 22r is formed at a position where the direct light emitted by the high beam light emitting element 42 is reflected and the direct light emitted by the low beam light emitting element 41 is not incident. In the present embodiment, the first reflection region 21r is formed at a position recessed rearward above the second reflection region 22r.

The first reflection region 21r has, for example, a concave shape formed of a free curved surface based on a parabola whose opening direction is on the front side. More specifically, the shape of the first reflection region 21r in the vertical cross section is generally the shape below the apex when the central axis of the parabola is horizontal, and the shape of the first reflection region 21r in the horizontal direction. The shape in the cross section is generally a shape including the apex of the parabola. However, the parabola in the vertical cross section of the first reflection region 21r and the parabola in the horizontal cross section may be different from each other. Further, the shape of the first reflection region 21r in the cross section in the horizontal direction does not have to be based on a parabola, and may be, for example, a shape based on a part of an ellipse or another concave shape.

The second reflection region 22r has, for example, a concave shape formed of a free curved surface based on a parabola whose opening direction is on the front side. More specifically, the shape of the second reflection region 22r in the vertical cross section is generally the shape below the apex when the central axis of the parabola is horizontal, and the shape of the second reflection region 22r in the horizontal direction. The shape in the cross section is generally a shape including the apex of the parabola. However, the parabola in the vertical cross section of the second reflection region 22r and the parabola in the horizontal cross section may be different from each other. Further, the shape of the second reflection region 22r in the cross section in the horizontal direction does not have to be based on a parabola, and may be, for example, a shape based on a part of an ellipse or another concave shape.

Further, a low beam light emitting element 41 and a high beam light emitting element 42 are arranged on the lower surface of the top plate 31. The low beam light emitting element 41 emits light that forms at least a part of the low beam light distribution. The direct light emitted from the low beam light emitting element 41 is reflected by the first reflection region 21r and becomes at least a part of the low beam light distribution. Further, the high beam light emitting element 42 emits light that forms at least a part of the high beam light distribution. The direct light emitted from the high beam light emitting element 42 is reflected by the second reflection region 22r and becomes at least a part of the high beam light distribution.

The low beam light emitting element 41 and the high beam light emitting element 42 are, for example, LEDs (Light Emitting Diodes), respectively. The low beam light emitting element 41 and the high beam light emitting element 42 are each connected to a circuit board (not shown), and light can be emitted by feeding power from the circuit board. The low beam light emitting element 41 and the high beam light emitting element 42 may be connected to separate circuit boards or may be connected to one circuit board. However, by connecting the low beam light emitting element 41 and the high beam light emitting element 42 to one circuit board, it is possible to suppress an increase in the number of parts and it becomes easy to determine the relative positions of the respective light emitting elements.

<Lighting fixture 1b>
Next, the lamp 1b will be described. FIG. 3 is a cross-sectional view taken along the line III-III of FIG. That is, FIG. 3 is a cross-sectional view of the lamp 1b in the vertical direction. In FIG. 3, components equivalent to those shown in FIG. 2 are designated by the same reference numerals, and detailed description thereof will be omitted. As shown in FIG. 3, the lamp 1b, which is a part of the vehicle headlight 1, includes a housing 10 and a lamp unit LUb housed in the housing 10.

The lamp unit LUb includes a support member 30, a reflector 60, and a low beam light emitting element 51 as main components.

The reflector 60 is fixed to the lower surface of the top plate 31. The reflector 60 has a reflector main body portion 64 and a plating portion 63. The reflector main body 64 is made of resin. The plating portion 63 is a thin film composed of a metal such as aluminum or a metal oxide on the front side (front cover 12 side) surface of the reflector main body portion 64. The surface of the plated portion 63 is a light reflecting surface 63r.

The reflecting surface 63r has, for example, a concave shape formed of a free curved surface based on a parabola whose opening direction is on the front side. More specifically, the shape of the reflecting surface 63r in the vertical cross section is generally the shape below the apex when the central axis of the parabola is horizontal, and the shape of the reflecting surface 63r in the horizontal cross section is , The shape generally includes the apex of the parabola. However, the parabola in the vertical cross section of the reflecting surface 63r and the parabola in the horizontal cross section may be different from each other. Further, the shape of the reflecting surface 63r in the cross section in the horizontal direction does not have to be based on a parabola, and may be, for example, a shape based on a part of an ellipse or another concave shape.

Further, a low beam light emitting element 51 is arranged on the lower surface of the top plate 31. The low beam light emitting element 51 emits light that forms at least a part of the low beam light distribution. The direct light emitted from the low beam light emitting element 51 is reflected by the reflecting surface 63r and becomes at least a part of the low beam light distribution. The low beam light emitting element 51 is arranged near the focal point of a parabola based on the vertical cross-sectional shape of the reflecting surface 63r.

The low beam light emitting element 51 is, for example, an LED (Light Emitting Diode). The low beam light emitting element 51 is connected to a circuit board (not shown), and can emit light by feeding power from the circuit board.

Next, the operation and the effect of the vehicle headlight 1 of the present embodiment will be described. FIG. 4A shows a low beam light distribution, FIG. 4B shows a high beam light distribution, and FIG. 4C shows a daytime illumination light distribution.

<When the low beam is lit>
In the present embodiment, the low beam is irradiated by the light from the low beam light emitting element 41 provided in the lamp 1a and the low beam light emitting element 51 provided in the lamp 1b.

As shown in FIG. 3, most of the light L51 emitted from the low beam light emitting element 51 is reflected by the reflecting surface 63r. Of the light L51, the light emitted from the most front region of the emission portion of the low beam light emitting element 51 forms the low beam cut line shown in FIG. 4 (A). Further, the low beam light emitting element 51 is arranged near the focal point of the parabola based on the vertical cross-sectional shape of the reflecting surface 63r as described above, and is emitted from the same region in the emitting portion of the low beam light emitting element 51. Regardless of which part of the reflecting surface 63r the light is reflected, the light is generally parallel to each other after the reflection. The light L51 emitted from the low beam light emitting element 51 and reflected by the reflecting surface 63r forms a hatched portion of the low beam light distribution shown in FIG. 4 (A). That is, the central portion of the low beam light distribution is formed by the light L51 from the lamp unit LUb.

Further, as shown in FIG. 2, most of the light L41 emitted from the low beam light emitting element 41 is reflected in the second reflection region 22r. The light L41 reflected in the second reflection region 22r is applied to the rightmost range A1 of the low beam light distribution shown in FIG. 5A when viewed from the driver. By providing the low beam light emitting element 41 in this way, the light distribution formed by the light from the low beam light emitting element 51 can be complemented by the light from the low beam light emitting element 41. For example, it is possible to make a predetermined region of the low beam light distribution relatively brighter than other regions, or to widen the low beam light distribution. By providing the low beam light emitting element 41 in this way, it becomes easy to form a desired low beam light distribution. The leftmost range of the low beam light distribution shown in FIG. 5A when viewed from the driver is formed by the light from the lamp 1a provided on the left side of the vehicle 100 when viewed from the driver.

Further, a part of the light L41 emitted from the low beam light emitting element 41 is reflected in the first reflection region 21r and then reflected in the horizontal region 25r. A part of the light reflected in the horizontal region 25r in this way may be irradiated in front of the front end of the top plate 31 and above the cut line of the low beam to be an overhead sine lamp. However, since the light directly emitted from the low beam light emitting element 41 to the horizontal region 25r is blocked by the top plate 31, it is suppressed that the light is emitted extremely upward.

The second reflection region 22r is formed at a position where the direct light from the low beam light emitting element 41 does not enter as described above, and the horizontal region 25r and the second reflection region of the direct light from the low beam light emitting element 41 are formed. Light passing in front of the corner 26 between the 22r and the 22r does not enter the second reflection region 22r.

<When the high beam is lit>
In the present embodiment, the high beam is irradiated by the light from the high beam light emitting element 42 in addition to the light L51 from the low beam light emitting element 51.

As shown in FIG. 2, most of the light L42 emitted from the high beam light emitting element 42 is reflected in the second reflection region 22r. At least a part of the light L42 reflected in the second reflection region 22r is irradiated above the cut line of the low beam. In this way, the light from the high beam light emitting element 42 is irradiated to the range A2 shown in FIG. 5 (B), and the high beam light distribution shown in FIG. 5 (B) is formed together with the light from the low beam light emitting element 51. .. As described above, according to the vehicle headlight 1, the light distribution formed by the light from the low beam light emitting element 51 can be complemented by the light from the high beam light emitting element 42 to obtain a desired high beam light distribution. can.

In the above description, when the high beam is lit, the light is emitted from the low beam light emitting element 51 and the high beam light emitting element 42, but the low beam light emitting element 41 may be emitted in addition to these light emitting elements. However, when the high beam is lit, there is a desire to make the lower part (the front side of the vehicle 100 when viewed from the driver) darker than when the low beam is lit. By turning off the low beam light emitting element 41 when the high beam is turned on, the amount of light below the high beam light distribution can be reduced as compared with the low beam light distribution, and a desired high beam light distribution can be easily formed. Further, by turning off the low beam light emitting element 41 when the high beam light emitting element is turned on, the number of light emitting elements that emit light when the low beam is turned on and when the high beam is turned on in the lamp 1a can be made the same, so that the number of light emitting elements can be made the same when the low beam is turned on. It is possible to reduce the difference in the amount of heat generated by the light emitting element between when the high beam is lit and when the high beam is lit. For example, when the amount of heat generated by each light emitting element at the time of light emission is the same, the amount of heat generated by the light emitting element can be substantially the same when the low beam is lit and when the high beam is lit. By reducing the difference in the amount of heat generated by the light emitting elements between when the low beam is lit and when the high beam is lit in this way, it is easy to optimize the design of the heat sink or the like for releasing the heat generated by each light emitting element. Therefore, it is possible to prevent the heat sink and the like from becoming large in size.

<When the daytime lighting is on>
Since one of the lamps 1a and 1b is used for daytime lighting, the daytime lighting distribution shown in FIG. 4C is formed when the daytime lighting is irradiated.

As described above, in the vehicle headlight 1 of the present embodiment, at least a part of the low beam light distribution is formed by the light from the low beam light emitting element 41, and the high beam is generated by the light from the high beam light emitting element 42. At least part of the light distribution can be formed. When it is desired to brighten the low beam light distribution or the high beam light distribution, the light from the low beam light emitting element 41 or the light from the high beam light emitting element 42 complements the light distribution by the light from the lamp unit LUb. Thereby, the desired low beam light distribution and high beam light distribution can be formed. For example, as described above, the light from the lamp unit LUb can form a rough portion of the low beam light distribution, and the light from the low beam light emitting element 41 can complement the low beam light distribution. Further, as described above, the light distribution of the light from the high beam light emitting element 42 can be formed on the upper part of the light distribution formed by the light from the lamp unit LUb to complement the light distribution of the high beam. When forming a bright low-beam light distribution and a high-beam light distribution, a conventional vehicle headlight is provided with a plurality of lamp units to form a low-beam light distribution, and further forms a high-beam light distribution. May require a separate lighting unit. However, in the vehicle headlight 1, since one lamp unit LUa can complement the low beam light distribution and the high beam light distribution, a desired low beam light distribution and high beam light distribution can be formed with a small number of lamp units. Therefore, it is possible to prevent the vehicle headlight 1 from becoming large. Further, since the second reflection region 22r is formed at a position where the direct light emitted by the high beam light emitting element 42 is reflected and the direct light emitted by the low beam light emitting element 41 is not incident, the low beam light emitting element is formed when the low beam is lit. It is possible to prevent the light from 41 from entering the second reflection region 22r and irradiating unintended light above the desired low beam light distribution.

Although the present invention has been described above by taking the above-described embodiment as an example, the present invention is not limited to this embodiment.

For example, in the above embodiment, the number of lamps is not particularly limited. Further, when a plurality of lamps are provided, the position of each tool is not particularly limited. Therefore, for example, in the above embodiment, the lamp 1b may be arranged on the outside of the vehicle 100, or the lamp 1a may be arranged on the center side of the vehicle 100.

Further, the number of each of the low beam light emitting elements 41 and 51 and the high beam light emitting element 42 is not particularly limited, and the low beam light emitting element 51 is not an indispensable component.

Further, in the above embodiment, the first reflection region 21r is formed above the second reflection region 22r, and the high beam light emitting element 42 is arranged in front of the low beam light emitting element 41. The relationship is not limited to the above relationship. The reflector is formed at a position where the first reflection region that reflects the direct light emitted by the low beam light emitting element and the direct light emitted by the high beam light emitting element are reflected and the direct light emitted by the low beam light emitting element is not incident. It suffices to have a second reflection region to be formed.

The range of irradiation of the light emitted by the low beam light emitting element 41 is not particularly limited. For example, the light emitted by the low beam light emitting element 41 forms the left end of the low beam light distribution when viewed from the driver. You may.

As described above, according to the present invention, it is possible to provide a vehicle headlight capable of forming a desired low beam light distribution and high beam light distribution with a small number of lighting fixture units. The vehicle headlights can be used in the field of vehicle headlights such as automobiles.

1 ... Vehicle headlights 1a, 1b ... Lighting equipment 10 ... Housing 20 ... Reflector 21r ... First reflection area 22r ... Second reflection area 41 ... Low beam light emission Element 42 ... High beam light emitting element 51 ... Low beam light emitting element 60 ... Reflector 63r ... Reflective surface LUa, LUb ... Lamp unit

Claims (3)

A high beam light emitting element that emits light that forms at least a part of the high beam light distribution,
A low beam light emitting element that emits light that forms at least a part of the low beam light distribution.
Formed at a position where the first reflection region that reflects the direct light emitted by the low beam light emitting element and the direct light emitted by the high beam light emitting element are reflected and the direct light emitted by the low beam light emitting element is not incident. A reflector having a second reflection region, which is
With
For light-emitting element the high-beam light emitting element and the low beam are disposed on the same plane, Ri said reflector non interposed Dare between said high-beam light emitting element and the low-beam light-
The first reflection region is formed above the second reflection region,
A vehicle headlight characterized in that the high beam light emitting element is arranged in front of the low beam light emitting element. The light emitted by the low beam light emitting element forms the left or right end of the low beam light distribution.
The vehicle headlight according to claim 1 , further comprising a lamp unit that emits light forming a central portion of the low beam light distribution. The vehicle headlight according to claim 1 or 2 , wherein the low beam light emitting element is turned off when the high beam light emitting element is turned on.

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