JP6430717B2 - Vehicle lamp - Google Patents

Description

  The present invention relates to a technical field of a vehicular lamp in which a plurality of planar light emitters are used as a light source.

JP 2013-45523 A

  In some vehicle lamps, a planar light emitter having, for example, a self-luminous organic EL (Electro Luminescence) layer is disposed as a light source inside a lamp outer casing constituted by a cover and a lamp housing ( For example, see Patent Document 1).

  The vehicular lamp described in Patent Document 1 is configured such that a planar light-emitting body is bent so as to have a waveform, and light is irradiated rearward and laterally.

  However, when the planar light emitter is bent as in the vehicular lamp described in Patent Document 1, the bending angle is limited in order to maintain a certain strength, and accordingly, the degree of freedom in design is small. There is an inconvenience to say.

  In the vehicular lamp, it is desirable to secure a desired irradiation state of light emitted from the planar light emitter while ensuring a high degree of design freedom.

  Therefore, the present invention has an object of overcoming the above-described problems, improving the degree of freedom of design, and ensuring a desired irradiation state of light.

First, a vehicular lamp according to the present invention includes a lamp housing having a lamp housing having an opening on at least one side, a cover attached to the lamp housing and closing the opening, and an interior of the lamp outer casing. A lamp unit having a plurality of planar light emitters, wherein the plurality of planar light emitters are respectively located on different planes or curved surfaces, and at least two of the plurality of planar light emitters The brightness of the light emitted from the planar light emitter is made different, the area of the light emitting layer of one planar light emitter among the plurality of planar light emitters is maximized, and the other planar light emitter is the light emitting layer The total area of the light-emitting layers of the planar light emitter is made smaller than the area of the light-emitting layer of the one planar light emitter .

As a result, light having different luminance is emitted from at least two planar light emitters among the plurality of planar light emitters positioned on different planes or curved surfaces. In addition, by changing the size of each light-emitting layer of the plurality of planar light emitters and making the luminance of light in the planar light emitters different, it is not necessary to control the planar light emitters separately, and a single power supply circuit is provided. Therefore, it is possible to facilitate control and simplify the structure.

Secondly, in the vehicle lamp according to the present invention described above, it is desirable that the current values for the light emitting layers of the plurality of planar light emitters be the same .

Third , in the above-described vehicular lamp according to the present invention, the plurality of planar light emitters are separated or contacted in the thickness direction, and at least a part thereof is overlapped in the thickness direction, and the plurality of surfaces of the light source It is desirable that at least a part of the light emitter is transparent, and light emitted from another planar light emitter is transmitted through the transparent part and irradiated.

Fourth, in the vehicle lamp according to the present invention described above, the light emitting layer for emitting light of different colors by forming a plurality of kinds of light-emitting layers of the plurality of planar light-emitting is formed, it is emitted It is desirable that the planar light emitters that are partially different in color are formed, the light emitted to the side is amber light, and the light emitted backward is red light.

Fifth , in the vehicle lamp according to the present invention described above, it is desirable that power is supplied to the plurality of planar light emitters by non-contact power transmission.

  This eliminates the need for wiring for supplying power to the planar light emitter.

  According to the present invention, light having different luminance is emitted from at least two planar light emitters out of a plurality of planar light emitters located on different planes or curved surfaces. It is possible to ensure the desired irradiation state of light.

2 to 11 show an embodiment of a vehicular lamp according to the present invention, and this figure is a schematic perspective view of the vehicular lamp. It is a schematic longitudinal cross-sectional view of the vehicle lamp. It is a schematic rear view which shows the structure of each planar light-emitting body. It is a schematic perspective view which shows the 2nd example of a light source. It is a schematic perspective view which shows the 3rd example of a light source. It is a schematic perspective view which shows the 4th example of a light source. It is a schematic perspective view which shows the 5th example of a light source. It is a schematic perspective view which shows the 6th example of a light source. It is a schematic perspective view which shows the 7th example of a light source. It is a schematic perspective view which shows the 8th example of a light source. It is a schematic rear view which shows the example of wireless electric power feeding.

  EMBODIMENT OF THE INVENTION Below, the form for implementing the vehicle lamp of this invention is demonstrated with reference to an accompanying drawing.

  In the embodiment shown below, the vehicular lamp of the present invention is applied to a tail lamp that irradiates illumination light backward. The present invention includes various types of head lamps, tail lamps, clearance lamps, turn signal lamps, stop lamps, daytime running lamps, cornering lamps, hazard lamps, position lamps, back lamps, fog lamps, or combination lamps that are combinations thereof. It can be widely applied to vehicle lamps.

  In the following description, it is assumed that the front, rear, up, down, left and right directions are shown with the light emission direction as the rear. However, the front, back, up, down, left and right directions shown below are for convenience of explanation, and the implementation of the present invention is not limited to these directions.

  The vehicular lamps 1 are respectively attached to the left and right ends of the vehicle body. The vehicular lamp 1 includes a lamp housing 2 having a recess opened rearward and a cover 3 that closes the opening of the lamp housing 2 (see FIGS. 1 and 2). The lamp housing 2 and the cover 3 constitute a lamp outer casing 4, and the inner space of the lamp outer casing 4 is formed as a lamp chamber 5.

  A lamp unit 6 is disposed in the lamp chamber 5. The lamp unit 6 has planar light emitters 7, 8, 9 and a frame (not shown) that holds the planar light emitters 7, 8, 9. The planar light emitters 7, 8, and 9 constitute a light source 50 as a first example. In the planar light emitters 7, 8, and 9, for example, the planar light emitters 7, 8, and 9 are arranged in order from the rear to the front and are positioned on different planes.

  As the planar light emitters 7, 8 and 9, for example, flat planar light emitters having an organic EL (Electro Luminescence) layer that emits light spontaneously are used. In addition, the number of planar light emitters is not limited to three, and any number may be used as long as it is plural.

  The planar light emitters 7, 8, 9 are separated or contacted in the thickness direction, and at least a part thereof is overlapped in the thickness direction. In each of the planar light emitters 7, 8 and 9, light emitting layers (fluorescent layers) 10, 10 and 10 are formed almost entirely.

  The planar light emitters 7, 8, and 9 are configured so that the brightness of the emitted light is different. For example, the brightness of the light emitted from the planar light emitter 7 is the highest, and is emitted from the planar light emitter 9. The brightness of the light is the lowest. The difference in the luminance of light in the planar light emitters 7, 8, 9 is realized, for example, by changing the current value for the light emitting layers 10, 10, 10 of the planar light emitters 7, 8, 9. Therefore, the current value for the planar light emitter 7 is the highest and the current value for the planar light emitter 9 is the lowest.

  As described above, in the planar light emitters 7, 8, and 9, the brightness of the emitted light is different, so that gradation is generated in the light emitted as the entire light source 50, and the light irradiation state is free. The degree becomes higher and the three-dimensional appearance is improved, the visibility and the design are improved, and the desired irradiation state of light can be ensured.

  Further, as described above, at least a part of the planar light emitters 7, 8, and 9 are arranged so as to overlap each other in the thickness direction, so that the vehicle lamp 1 can be reduced in size due to space saving and overlapped. Since the light is emitted from the planar light emitters 7, 8, 9 arranged in this manner, the visibility and the design can be further improved.

  Note that the difference in light luminance in the planar light-emitting bodies 7, 8, and 9 can be realized by changing the size (area) and the number of the light-emitting layers 10, 10,. 3).

For example, the light emitting layer 10 is formed almost entirely on the planar light emitter 7, and the area of the light emitting layer 10 of the planar light emitter 7 among the planar light emitters 7, 8, 9 is maximized. emitting layer 10, 10 to 8,9, the light emitting layer 10, 10 ... are interspersed formed planar emitters 8,9, the total area of ... is planar light-emitting 7 emitting The area of one light emitting layer 10 of the planar light emitter 8 is set to be smaller than the area of one light emitting layer 10 of the planar light emitter 9.

  In this way, in the case where the luminance of the light in the planar light emitters 7, 8, 9 is changed by changing the size or number of the light emitting layers 10, 10,. The current values for the light emitting layers 10, 10,... Can be made the same, and it is not necessary to control the planar light emitters 7, 8, 9 separately, and the power supply circuit can be made one. Therefore, it is possible to facilitate control and simplify the structure.

  In the configuration having a plurality of light emitting layers 10, 10,... Like the planar light emitters 8, 9, different colors can be obtained by forming the light emitting layers 10, 10,. The light emitting layers 10, 10,... That emit light are formed, and the planar light emitters 8 and 9 that are partially different in emitted color can be configured.

  By forming the planar light emitters 8 and 9 as described above, it is possible to configure a light emitter that produces gradation in one planar light emitter. In addition, a light emitting body that emits light of different colors can be configured with a simple structure without making the planar light emitting body a complicated structure having three primary colors of RGB (red, green, and blue).

  Hereinafter, second to eighth examples of the light source constituted by a plurality of planar light emitters will be described (see FIGS. 4 to 10).

  The light source 50A according to the second example is configured by arranging two curved surface light emitters 11 and 11 on different curved surfaces that are separated from each other in the front-rear direction (see FIG. 4). The planar light emitter 11 positioned on the rear side is bent so as to be convex backward, and the planar light emitter 11 positioned on the front side is bent so as to be convex forward. The planar light emitters 11 and 11 are configured such that the brightness of the emitted light is different, gradation is generated in the light emitted as the entire light source 50A, and a three-dimensional light emission state is formed.

  The light source 50B according to the third example is configured such that two curved surface light emitters 12 and 12 are arranged on different curved surfaces that are separated from each other in the front-rear direction (see FIG. 5). The planar light emitter 12 positioned on the rear side is bent so as to be convex rearward, and the planar light emitter 12 positioned on the front side is bent so as to be convex forward. A light emitting layer 10, 10,... Extending vertically is formed on one planar light emitter 12, and the light emitting layers 10, 10,. -Is formed to be spaced apart vertically.

  The light emitted from the light emitting layers 10, 10,... Extending vertically and the light emitted from the light emitting layers 10, 10,. A three-dimensional light emission state is formed.

  The light source 50C according to the fourth example is formed into a polyhedron, for example, a pentahedron by combining a plurality of planar light emitters 13, 13,... (See FIG. 6). The light source 50C is configured such that the luminance of light emitted from at least two planar light emitters 13, 13 among the planar light emitters 13, 13,...

  As described above, a polyhedron is formed by the plurality of planar light emitters 13, 13,... To combine the planar light emitters 13, 13,. In addition, both visibility and design can be improved.

  A light source 50D according to the fifth example is formed into a waveform by combining a plurality of planar light emitters 14, 14,... (See FIG. 7). The light source 50D is configured such that the luminance of light emitted from at least two planar light emitters 14, 14 out of the planar light emitters 14, 14,...

  The light source 50E according to the sixth example has a three-dimensional framework structure by combining a plurality of frame-like planar light emitters 15, 15,... (See FIG. 8). The light source 50E is configured such that the luminance of light emitted from at least two planar light emitters 15, 15 among the planar light emitters 15, 15,...

  The light source 50F according to the seventh example is formed in a drum shape with a plurality of elongated planar light emitters 16, 16,... Tilted (see FIG. 9). The light source 50F is configured such that the brightness of light emitted from at least two planar light emitters 16, 16 among the planar light emitters 16, 16,...

  The light source 50G according to the eighth example is configured by disposing the frame-like planar light emitters 17 and 17 spaced apart from each other (see FIG. 10). The light source 50G is configured such that the brightness of light emitted from the planar light emitters 17 and 17 is different.

  In each of the light sources 50D, 50E, 50F, and 50G, gradation is generated in the light emitted as a whole, and a three-dimensional light emission state is formed.

  The light sources 50, 50A, 50B, 50C, 50D, 50E, 50F, and 50G described above can be configured such that light is emitted from the respective planar light emitters to the side and rear of the vehicle. is there. In this case, for example, the light emitted to the side is amber light and the light emitted backward is red light, so that the vehicular lamp 1 functions as both a turn signal lamp and a tail lamp. It can be used as a combination lamp having It is also possible to make sequential light such that amber light emitted to the side blinks in order from one side to the other side.

  Further, the light sources 50, 50A, 50B, 50C, 50D, 50E, 50F, and 50G can be configured such that power is supplied to each planar light emitter by so-called wireless power feeding that is non-contact power transmission. Yes (see FIG. 11). In FIG. 11, the light sources 50, 50A, 50B, 50C, 50D, 50E, 50F, and 50G configured by a plurality of planar light emitters are shown as light sources 50X having a simple shape.

  The power receiving module 20 is incorporated in the light source 50X, and the power transmission module 40 is incorporated in a structure other than the light source 50X of the vehicular lamp 1, for example, the structure 30 such as the lamp housing 2 or the extension. The light source 50 </ b> X is wirelessly supplied with power from the power transmission module 40 to the power reception module 20.

  In this way, power is supplied to the light source 50X by non-contact power transmission, so that no wiring is required, and the space can be reduced by improving the degree of freedom of the arrangement position of the planar light emitters, and the size can be reduced. Visibility and designability can be improved. Further, the structure of the light source 50X can be simplified and reduced in weight.

  As a method of non-contact power transmission in the vehicular lamp 1, an electromagnetic induction method for generating an electromotive force in the other coil through a magnetic flux generated when a current is passed through one of two adjacent coils, and a current as an electromagnetic wave. Either a radio wave system that converts the signal into a signal and transmits / receives it via an antenna, or an electromagnetic field resonance system that utilizes an electromagnetic field resonance phenomenon may be used.

  Further, the light source 50X may be held by the structure 30 by a holding unit (not shown), and the holding unit may be configured to be positioned in front of the light source 50X and not visually recognized from the outside, for example. With such a configuration, in addition to the wiring, there is no holding portion around the light source 50X, and the light source 50X is visually recognized in a state of floating in the air, so that the design can be improved. Can do.

  As described above, in the light sources 50, 50A, 50B, 50C, 50D, 50E, 50F, and 50G in the vehicular lamp 1, a plurality of planar light emitters are positioned on different planes or curved surfaces, respectively. It is comprised so that the brightness | luminance of the light radiate | emitted from at least 2 planar light-emitting body among several planar light-emitting bodies may differ.

  Therefore, light having different luminance is emitted from at least two planar light emitters of a plurality of planar light emitters positioned on different planes or curved surfaces, so that the degree of freedom in design can be improved. A desired irradiation state of light can be ensured.

  In addition, since a plurality of planar light emitters that emit uniform light are used as the light source, unevenness of light hardly occurs, and a three-dimensional shape can be clarified by uniformity of luminance.

  Furthermore, since it is a structure which produces a three-dimensional effect, the size in the front-rear direction can be reduced, and the vehicle lamp 1 can be made thinner and lighter.

  The light sources 50, 50A, 50B, 50C, 50D, 50E, 50F, and 50G described above are examples of a three-dimensional shape, and the light source of the vehicular lamp 1 is composed of a plurality of planar light emitters. For example, the light sources 50, 50A, 50B, 50C, 50D, 50E, 50F, and 50G may be formed in various other three-dimensional shapes.

  The planar light emitters of the light sources 50, 50A, 50B, 50C, 50D, 50E, 50F, and 50G are at least partially formed transparent, and light emitted from other planar light emitters is transmitted through the transparent portion. And may be configured to be irradiated.

DESCRIPTION OF SYMBOLS 1 ... Vehicle lamp, 2 ... Lamp housing, 3 ... Cover, 4 ... Lamp outer casing, 6 ... Lamp unit, 7 ... Planar light-emitting body, 8 ... Planar light-emitting body, 9 ... Planar light-emitting body, 10 ... Light emission layer, 11 ... surface light emitter, 12 ... surface light emitter, 13 ... surface light emitter, 14 ... surface light emitter, 15 ... surface light emitter, 16 ... surface light emitter, 17 ... surface light emitter

Claims (5)

A lamp housing comprising a lamp housing having an opening in at least one and a cover attached to the lamp housing and closing the opening;
A lamp unit having a plurality of planar light emitters disposed inside the lamp outer casing,
The plurality of planar light emitters are positioned on different planes or curved surfaces, respectively.
The luminance of light emitted from at least two of the planar light emitters is made different from each other,
Of the plurality of planar light emitters, the area of the light emitting layer of one planar light emitter is maximized, and the other planar light emitters are formed by interspersed with the light emitting layers, and the total of the light emitting layers of the planar light emitters. The vehicular lamp in which the area is smaller than the area of the light emitting layer of the one planar light emitter. The vehicular lamp according to claim 1, wherein current values for the light emitting layers of the plurality of planar light emitters are the same. The plurality of planar light emitters are spaced apart or contacted in the thickness direction and at least a portion thereof is disposed overlapping in the thickness direction,
At least a part of the plurality of planar light emitters of the light source is formed to be transparent, and light emitted from the other planar light emitters is transmitted through the transparent part and irradiated.
The vehicular lamp according to claim 1 . A light emitting layer that emits light of different colors is formed by forming light emitting layers of the plurality of planar light emitters according to a plurality of types, and constitutes a planar light emitter that is partially different in emitted color.
Light emitted to the side is amber light, and light emitted backward is red light
The vehicular lamp according to claim 1 or claim 3 . Power is supplied to the plurality of planar light emitters by non-contact power transmission.
The vehicular lamp according to claim 1, claim 2, claim 3 or claim 4 .

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