JP2016021313A - Vehicular lighting fixture - Google Patents

Abstract

PROBLEM TO BE SOLVED: To secure a sufficient lateral visibility angle, in a vehicular lighting fixture in which a light guide body is arranged on the front side of a light source.SOLUTION: A light guide body 40 is configured by including: an incident part 42; a first light guide part 44; and a second light guide part 46. At that time, at the second light guide part 46, not only an emission surface 46a for emitting reflection light from a second reflection surface 44b of the first light guide part 44 frontward but also a third reflection surface 46b for internally reflecting the reflection light from the second reflection surface 44b and emitting it toward the lateral side from the second light guide part 46 is formed. Thereby, as emission light from the light guide body 40, not only the light emitting frontward from the emission surface 46a of the second light guide part 46 but also lateral irradiation light emitting in the direction forming a large angle with respect to a lighting fixture front and back direction by the reflection light from the third reflection surface 46b can be acquired.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a vehicular lamp in which a light guide is disposed on the front side of a light source.

  Conventionally, a vehicular lamp in which a light guide is disposed in front of a light source is known.

  In “Patent Document 1”, in such a vehicular lamp, the light guide includes an incident portion where light from a light source is incident, and a first guide extending from the incident portion in a required direction intersecting the front-and-rear direction of the lamp. The structure provided with the optical part and the 2nd light guide part extended toward the front from the edge part of the required direction in this 1st light guide part is described.

  In the light guide described in “Patent Document 1”, a first reflection surface that internally reflects light from a light source incident on an incident portion toward a required direction on the first light guide portion, and the first light guide portion. A second reflecting surface for internally reflecting reflected light from the first reflecting surface toward the second light guide unit; and the reflected light from the second reflecting surface is reflected on the second light guide unit. An exit surface that emits light forward is formed.

JP 2012-212673 A

  In the vehicular lamp described in the above-mentioned “Patent Document 1”, the light emitted forward from the exit surface of the light guide can be changed to a certain degree of diffusion around the front and rear direction of the lamp. However, it is difficult to emit light in a direction that forms a large angle with respect to the front-rear direction of the lamp. For this reason, there exists a problem that the side viewing angle (namely, the maximum angle which can visually recognize the lamp in a lighting state) from the side cannot fully be secured.

  The present invention has been made in view of such circumstances, and in a vehicular lamp in which a light guide is disposed on the front side of a light source, a sufficient lateral viewing angle can be secured. The purpose is to provide a lamp.

  The present invention is intended to achieve the above object by devising the structure of the light guide.

That is, the vehicular lamp according to the present invention is
In a vehicular lamp comprising a light source and a light guide disposed on the front side of the light source,
The light guide includes an incident portion where light from the light source is incident, a first light guide portion extending from the incident portion in a required direction intersecting with the front-rear direction of the lamp, and the required direction in the first light guide portion. A second light guide portion extending forward from the end portion,
A first reflecting surface for reflecting the light from the light source incident on the incident portion toward the required direction on the first light guiding portion, and the reflected light from the first reflecting surface on the second light guiding portion. A second reflecting surface that reflects the inner surface toward the part is formed,
The second light guide unit causes the reflected light from the second reflective surface to be emitted forward, and the reflected light from the second reflective surface is internally reflected so that the light is reflected from the second light guide unit. And a third reflecting surface for emitting light toward the direction.

  The “front-and-rear direction of the lamp” means a direction connecting the lamp and a position where the lighting state of the lamp can be observed from the outside, and the specific direction is not particularly limited.

  The type of the “light source” is not particularly limited, and for example, a light emitting diode or a laser diode can be employed.

  The specific formation position in the 2nd light guide part of the said "output surface" and "3rd reflective surface" is not specifically limited.

  The “side” means a direction that forms an angle of 45 ° or more with respect to the front-rear direction of the lamp, and the specific direction is not particularly limited.

  In the vehicular lamp according to the present invention, the second light guide part of the light guide body is not only the emission surface that emits the reflected light from the second reflection surface of the first light guide part to the front side, but also the second light guide part. Since the third reflection surface that reflects the reflected light from the reflection surface to the inner surface and emits the light from the second light guide portion to the side is formed, the following operational effects can be obtained.

  That is, as the light emitted from the light guide, not only the light emitted forward from the emission surface of the second light guide unit but also the reflected light from the third reflection surface makes a large angle with respect to the front-rear direction of the lamp. Side irradiation light emitted in the direction can also be obtained, and thereby a sufficient side viewing angle can be secured.

  As described above, according to the present invention, in the vehicular lamp in which the light guide is disposed on the front side of the light source, it is possible to ensure a sufficient side viewing angle.

  In the above configuration, the first reflecting surface has a surface shape formed so as to reflect light from the light source incident on the incident portion radially within a plane including the required direction and intersecting the lamp front-rear direction. With this configuration, it is possible to cause the light from the light source to reach the second reflecting surface with high accuracy.

  In the above configuration, the specific formation positions of the emission surface and the third reflection surface are not particularly limited, as described above, but the emission surface at the front end of the second light guide unit and the front side of the emission surface. If it is set as the structure by which the protrusion part which protrudes was formed, and it was set as the structure by which the 3rd reflective surface was formed in the protrusion part, the emission position of side irradiation light will be the position of the foremost end of a 2nd light guide part Can be set to As a result, it is possible to easily prevent the side irradiation light from being blocked by other lamp components or the vehicle body.

  In the above configuration, if the configuration of the second reflecting surface is divided into a plurality of reflecting elements in the direction intersecting both the lamp front-rear direction and the required direction, the reflected light from the second reflecting surface is converted into parallel light or Light close to this can be easily achieved. As a result, the light from the light source can reach the exit surface and the third reflecting surface with high accuracy.

  In the above configuration, if a diffusion member that diffuses light from the light source leaking from the first light guide unit is disposed in front of the first light guide unit, the leaked light from the first light guide unit It is possible to prevent it from being seen directly from the front of the lamp. As a result, the appearance of the lamp can be improved. In this case, the specific configuration of the “diffusing member” is not particularly limited. For example, a configuration in which a diffusing material is mixed in the translucent member, or a surface, a knurling or a lens on the translucent member A configuration in which an element is formed can be employed.

Plan sectional drawing which shows the vehicle lamp which concerns on one Embodiment of this invention II direction view of FIG. III-III sectional view of FIG. Detail view of section IV in Fig. 1 Detailed view of part V in FIG. The same figure as FIG. 5 which shows the 1st modification of the said embodiment. The same figure as FIG. 5 which shows the 2nd modification of the said embodiment.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

  FIG. 1 is a plan sectional view showing a vehicular lamp 10 according to an embodiment of the present invention.

  As shown in the figure, a vehicular lamp 10 according to the present embodiment is a tail lamp disposed at a left rear end of a vehicle, and the lamp is provided in a lamp chamber formed by a lamp body 12 and a transparent outer cover 14. The unit 20 is accommodated.

  In FIG. 1, the direction indicated by X is “front” as the vehicular lamp 10 (“rear” as a vehicle), and the direction indicated by Y is “right direction” orthogonal to “front”.

  The outer cover 14 is formed to be inclined and extend toward the rear side of the lamp from the inner side in the vehicle width direction toward the outer side in the vehicle width direction.

  FIG. 2 is a partial cross-sectional front view showing the lamp unit 20 taken out from the vehicular lamp 10 as viewed in the direction of the arrow II in FIG.

  As shown in the figure, the lamp unit 20 includes two light emitting elements 30 as light sources arranged in parallel toward the front of the lamp, and a light guide disposed on the front side of the two light emitting elements 30. 40, and direct light from each light emitting element 30 is guided by the light guide 40 and emitted forward of the lamp.

  Each of the two light emitting elements 30 is a red light emitting diode, and is arranged forward with a certain interval in the vertical direction. These two light emitting elements 30 are mounted on a common substrate 32 arranged so as to extend along a vertical plane perpendicular to the lamp front-rear direction.

  The light guide 40 is a transparent synthetic resin molded product, and includes two incident portions 42 into which light from each of the two light emitting elements 30 is incident, and a vehicle width direction (that is, front and rear of the lamp) from the two incident portions 42. A first light guide portion 44 extending in a required direction intersecting the direction), and a second light guide portion 46 extending forward from both ends of the first light guide portion 44 in the vehicle width direction.

  Each incident portion 42 is formed so as to protrude rearward from the first light guide portion 44 at a front position of each light emitting element 30.

  The first light guide 44 is formed so as to extend not only in the vehicle width direction but also in the vertical direction along a vertical plane perpendicular to the lamp front-rear direction, and has a rectangular outer shape when viewed from the front of the lamp. Yes.

  The second light guide 46 extends forward not only from both ends in the vehicle width direction of the first light guide 44 but also from both ends in the vertical direction. It is formed over the circumference. In other words, the second light guide portion 46 is formed in a rectangular ring shape when viewed from the front of the lamp, and extends obliquely so as to extend slightly to both the left and right sides and the upper and lower sides toward the front of the lamp.

  3 is a cross-sectional view taken along the line III-III in FIG. 1, and FIG. 4 is a detailed view of a portion IV in FIG.

  As shown in these drawings, each incident portion 42 of the light guide 40 has an incident surface 42a extending along a vertical plane orthogonal to the front-rear direction of the lamp, and from each light emitting element 30 on the incident surface 42a. The outgoing light is made incident.

  The first light guide 44 has a first reflecting surface 44a that internally reflects the light from each light emitting element 30 incident on each incident portion 42 in the direction perpendicular to the lamp front-rear direction by total reflection. It is formed in two places.

  Each of the first reflecting surfaces 44a is formed as a rotating curved surface that approximates a conical surface centered on an axis extending in the front-rear direction of the lamp so as to pass through the light emission center of each light emitting element 30, and is incident on each incident portion 42. The light from each light emitting element 30 is internally reflected radially over the entire circumference. At that time, each of the first reflecting surfaces 44a has a curved surface shape so that light from the light emission center of each light emitting element 30 incident on each incident portion 42 is internally reflected as parallel light in a plane including the axis. Has been.

  As shown in FIG. 4, the apex portion 44 a 1 of each first reflecting surface 44 a is inevitably formed with a slight roundness when the light guide 40 is formed, so that it enters each incident portion 42. A part of the light from each light emitting element 30 leaks forward from the apex portion 44a1.

  A pair of left and right bosses 44 c are formed on the rear surface of the first light guide 44 between the pair of upper and lower incident portions 42. The substrate 32 is fixed to the pair of left and right bosses 44c by screws 34.

  A second reflecting surface 44b that reflects the light reflected from each first reflecting surface 44a toward the second light guiding portion 46 by internal reflection is formed on the outer peripheral edge of the first light guiding portion 44 over the entire circumference. Has been.

  A plurality of reflective elements 44b1 are formed on the entire circumference of the second reflective surface 44b. Each of these reflective elements 44b1 has a planar shape or a curved surface shape close to this. And each reflective element 44b1 which comprises the upper half part of the 2nd reflective surface 44b directs the reflected light from the 1st reflective surface 44a located on the upper side to the 2nd light guide part 46 as light near parallel light. Each of the reflecting elements 44b1 constituting the lower half of the reflecting member 44b1 reflects the reflected light from the first reflecting surface 44a positioned on the lower side as light close to parallel light. Internal reflection is performed toward the portion 46.

  As shown in FIGS. 1 and 2, the second light guide 46 is formed to extend from the outer peripheral edge of the first light guide 44 to the vicinity of the outer cover 14. The front end portions 46A and 46B of the second light guide 46 are formed with an emission surface 46a for emitting the reflected light from the second reflection surface 44b forward.

  The emission surface 46a extends along the outer cover 14 so as to incline toward the rear side of the lamp from the inner side in the vehicle width direction toward the outer side in the vehicle width direction. A plurality of diffusing elements 46a1 for diffusing and emitting the reflected light from the second reflecting surface 44b reaching the emitting surface 46a in the left-right direction are formed on the emitting surface 46a in the form of vertical stripes.

  A transparent resin diffusing member 50 is disposed in front of the first light guide portion 44 so as to be positioned on the inner peripheral side of the front end portions 46 </ b> A and 46 </ b> B of the second light guide portion 46.

  The diffusion member 50 is a plate-like member having an outer peripheral edge formed in a flange shape, and extends so as to incline toward the rear side of the lamp along the outer cover 14 from the inner side in the vehicle width direction toward the outer side in the vehicle width direction. The front surface of the second light guide 46 is substantially flush with the light exit surface 46a.

  The rear surface of the diffusing member 50 is configured as a light diffusing surface 50a that has been textured. The diffusing member 50 greatly diffuses the light from each light emitting element 30 leaking forward from the apex portion 44a1 of each first reflecting surface 44a of the first light guide 44 on the light diffusing surface 50a. It is like that.

  FIG. 5 is a detailed view of a portion V in FIG.

  As shown in the drawing, a front end portion 46A of a portion located on the inner side in the vehicle width direction (that is, the right side) of the second light guide portion 46 formed in a rectangular ring shape has the emission on the inner side in the vehicle width direction of the emission surface 46a. A protruding portion 46A1 that protrudes further forward than the surface 46a is formed.

  The protrusion 46A1 has a wedge-shaped horizontal cross section and extends in the vertical direction. At this time, the protrusion 46A1 is configured as a third reflection surface 46b whose inner surface in the vehicle width direction reflects the reflected light from the second reflection surface 44b toward the outer side in the vehicle width direction by total reflection. The surface on the outer side in the vehicle width direction is configured as a side emission surface 46c that emits the reflected light from the third reflection surface 46b toward the outer side in the vehicle width direction without being refracted.

  At this time, the third reflecting surface 46b emits the reflected light from the second reflecting surface 44b in a direction that forms an angle of 70 ° or more (for example, about 80 °) with respect to the vehicle longitudinal direction from the side emitting surface 46c. The inclination angle is set in

  Next, the effect of this embodiment is demonstrated.

  In the vehicular lamp 10 according to the present embodiment, the second light guide 46 of the light guide 40 emits the reflected light from the second reflective surface 44b of the first light guide 44 forward. In addition to 46a, a third reflecting surface 46b is formed which reflects the reflected light from the second reflecting surface 44b to the inner side and emits the light from the second light guide 46 to the side. An effect can be obtained.

  That is, as the light emitted from the light guide 40, not only the light emitted forward from the light emission surface 46a of the second light guide 46 but also the light reflected from the third reflection surface 46b with respect to the longitudinal direction of the lamp. Side irradiation light that is emitted in a direction that forms a large angle can also be obtained, whereby a sufficient side viewing angle can be ensured.

  As described above, according to the present embodiment, in the vehicular lamp 10 in which the light guide 40 is disposed on the front side of the two light emitting elements 30 (that is, the light sources), a sufficient side viewing angle can be ensured. .

  At this time, in the present embodiment, each first reflecting surface 44a that internally reflects the light from each light emitting element 30 incident on each incident portion 42 is a vertical surface (that is, includes a required direction and a direction perpendicular to the lamp front-rear direction). The light from each light emitting element 30 can be made to reach the second reflecting surface 44b with high accuracy.

  Moreover, in the present embodiment, the front light-guiding portion 46A of the second light guide portion 46 located on the inner side in the vehicle width direction protrudes forward from the emission surface 46a on the inner side in the vehicle width direction of the emission surface 46a. 46A1 is formed, and the third reflection surface 46b is formed on the protrusion 46A1. Therefore, the emission position of the side irradiation light can be set to the position of the foremost end of the second light guide 46. As a result, the side illumination light can be easily prevented from being blocked by other lamp components (for example, the diffusing member 50) or the vehicle body.

  In the present embodiment, the second reflecting surface 44b is divided into a plurality of reflecting elements 44b1 in the circumferential direction of the outer peripheral edge of the first light guide 44 (that is, the direction intersecting both the lamp front-rear direction and the required direction). Therefore, the reflected light from the second reflecting surface 44b can be parallel light or light close thereto. As a result, the light from each light emitting element 30 can reach the exit surface 46a and the third reflecting surface 46b with high accuracy.

  Further, in the present embodiment, the diffusion member 50 that diffuses the light from each light emitting element 30 leaking from the first light guide 44 is disposed in front of the first light guide 44, so that the light guide It is possible to prevent leakage light from 44 from being directly seen from the front of the lamp. As a result, the appearance of the lamp can be improved.

  In the embodiment described above, a pair of upper and lower light emitting elements 30 is arranged as a light source. However, a single light emitting element 30 or three or more light emitting elements 30 may be arranged. The arrangement at that time can also be set as appropriate.

  In the above-described embodiment, the plurality of diffusion elements 46a1 that diffuse and emit the reflected light from the second reflection surface 44b in the left-right direction are described as being formed in the vertical stripes on the emission surface 46a. A configuration in which a plurality of diffusion elements are formed is also possible.

  In the said embodiment, although the light guide part 44 demonstrated as what has a rectangular-shaped external shape in lamp front view, it can also be set as the structure which has an external shape other than this.

  In the above embodiment, the projection 46A1 is described as being formed on the inner side in the vehicle width direction of the emission surface 46a in the front end portion 46A on the inner side in the vehicle width direction of the second light guide 46, but the projection 46A1 is It is also possible to adopt a configuration in which the emission surface 46a is formed on the outer side in the vehicle width direction or the center in the vehicle width direction.

  In the above embodiment, it has been described that the light internally reflected by the third reflecting surface 46b is emitted from the second light guide 46 in a direction that forms an angle of 70 ° or more with respect to the vehicle longitudinal direction. Depending on the angle, even if the angle is less than 70 °, it is possible to ensure a sufficient side viewing angle if the angle is 45 ° or more.

  In the above-described embodiment, the case where the vehicular lamp 10 is a tail lamp provided at the left rear end of the vehicle has been described. However, the same configuration as that of the above-described embodiment is adopted regardless of the location and function provided in the vehicle. By doing so, it is possible to obtain the same effect as the above-described embodiment.

  Next, a modification of the above embodiment will be described.

  First, a first modification of the above embodiment will be described.

  FIG. 6 is a view similar to FIG. 5 showing a main part of the vehicular lamp 110 according to this modification.

  As shown in the figure, the vehicular lamp 110 according to the present modification also has the same basic configuration as in the above embodiment, but the configuration of the light guide 140 is partially the same as in the above embodiment. Is different.

  That is, the light guide 140 according to the present modification is also provided from the second reflecting surface (not shown) of the first light guide portion to the front end portion 146A of the second light guide portion 146 located on the inner side in the vehicle width direction. The reflected light from the second reflection surface is internally reflected by total reflection and emitted from the second light guide unit 146 to the side, as well as the emission surface 146a that emits the reflected light forward. The configuration is such that three reflective surfaces 146b are formed.

  However, the third reflecting surface 146b is formed at a position displaced rearward from the emitting surface 146a on the inner side in the vehicle width direction of the emitting surface 146a. The light reflected by the third reflecting surface 146b is emitted from the second light guide unit 146 toward the side on the rear side of the emitting surface 146a.

  At that time, the third reflecting surface 146b makes an angle of 70 ° or more (for example, about 80 °) with respect to the vehicle longitudinal direction from the side surface in the vehicle width direction of the front end portion 146A with respect to the reflected light from the second reflecting surface. The inclination angle is set so as to emit light in the direction.

  In this modification as well, a plurality of diffusion elements 146a1 are formed in a vertical stripe pattern on the emission surface 146a of the second light guide 146.

  Also in this modification, a diffusion member 150 similar to the diffusion member 50 of the above embodiment is disposed. However, the diffusing member 150 is arranged at a position displaced slightly rearward from the emission surface 146a so as not to block the side irradiation light from the second light guide 146.

  Even when the configuration of this modification is employed, a sufficient side viewing angle can be ensured.

  Further, by adopting the configuration of this modification, the protruding portion 46A1 protruding forward from the emission surface 46a of the second light guide portion 46 can be seen through the outer cover 14 as in the above embodiment. Therefore, the design of the lamp can be improved.

  Next, a second modification of the above embodiment will be described.

  FIG. 7 is a view similar to FIG. 5, showing a main part of the vehicular lamp 210 according to this modification.

  As shown in the drawing, the basic configuration of the vehicular lamp 210 according to this modification is the same as that of the above embodiment, but the configuration of the light guide 240 is partially the same as that of the above embodiment. Is different.

  That is, the light guide body 240 of the present modification has a configuration in which the protruding portion 246B1 is formed at the front end portion 246B of the second light guide portion 246 located on the outer side in the vehicle width direction. The protrusion 246B1 is formed so as to protrude forward from the emission surface 246a on the inner side in the vehicle width direction of the emission surface 246a, like the projection 46A1 of the above embodiment.

  The protruding portion 246B1 has a wedge-shaped horizontal cross-sectional shape and extends in the vertical direction. And this protrusion part 246B1 makes the inner surface of the vehicle width direction inner surface reflect the reflected light from the 2nd reflective surface (not shown) of a 1st light guide part toward the vehicle width direction outer side by total reflection. The third reflection surface 246b is configured as a side emission surface 246c that emits the reflected light from the third reflection surface 246b outward in the vehicle width direction with almost no refracting light. It is configured.

  At this time, the third reflecting surface 246b emits the reflected light from the second reflecting surface in a direction that forms an angle of 70 ° or more (for example, about 80 °) with respect to the vehicle longitudinal direction from the side emitting surface 246c. The inclination angle is set in

  In this modification as well, a plurality of diffusion elements 246a1 are formed in a vertical stripe pattern on the emission surface 246a of the second light guide 246.

  The diffusing member 250 of this modified example is arranged in the same position with the same configuration as the diffusing member 50 of the above embodiment.

  Even when the configuration of this modification is employed, a sufficient side viewing angle can be ensured.

  Further, as in the present modified example, the third reflecting surface 246b is formed at the front end portion 246B of the second light guide portion 246 located on the outer side in the vehicle width direction, so that the side irradiation light is emitted from the other side. It becomes easier to prevent light from being blocked by a lamp component (for example, the diffusing member 250) or a vehicle body.

  In addition, the numerical value shown as a specification in the said embodiment and its modification is only an example, and of course, you may set these to a different value suitably.

  The invention of the present application is not limited to the configuration described in the above-described embodiment and its modifications, and a configuration with various other changes can be adopted.

10, 110, 210 Vehicle lamp 12 Lamp body 14 Outer cover 20 Lamp unit 30 Light emitting element 32 Substrate 34 Screw 40, 140, 240 Light guide 42 Incident part 42a Incident surface 44 First light guide 44a First reflecting surface 44a1 Vertex portion 44b Second reflective surface 44b1 Reflective element 44c Boss 46, 146, 246 Second light guide portion 46A, 46B, 146A, 246B Front end portion 46A1, 246B1 Protruding portion 46a, 146a, 246a Outgoing surface 46a1, 146a1, 246a1 Diffusing element 46b, 146b, 246b Third reflecting surface 46c, 246c Side exit surface 50, 150, 250 Diffusing member 50a Light diffusing surface

Claims (5)

In a vehicular lamp comprising a light source and a light guide disposed on the front side of the light source,
The light guide includes an incident portion where light from the light source is incident, a first light guide portion extending from the incident portion in a required direction intersecting with the front-rear direction of the lamp, and the required direction in the first light guide portion. A second light guide portion extending forward from the end portion,
A first reflecting surface for reflecting the light from the light source incident on the incident portion toward the required direction on the first light guiding portion, and the reflected light from the first reflecting surface on the second light guiding portion. A second reflecting surface that reflects the inner surface toward the part is formed,
The second light guide unit causes the reflected light from the second reflective surface to be emitted forward, and the reflected light from the second reflective surface is internally reflected so that the light is reflected from the second light guide unit. A vehicular lamp, comprising: a third reflecting surface for emitting light toward the direction.   The first reflecting surface has a surface shape formed so as to reflect light from the light source incident on the incident portion radially in a plane including the required direction and intersecting the lamp front-rear direction. The vehicular lamp according to claim 1, wherein: At the front end portion of the second light guide portion, the exit surface and a projecting portion projecting forward from the exit surface are formed,
The vehicular lamp according to claim 1, wherein the projecting portion is formed with the third reflecting surface.   The vehicular lamp according to any one of claims 1 to 3, wherein the second reflecting surface is divided into a plurality of reflecting elements in a direction intersecting both the lamp front-rear direction and the required direction.   The diffusion member which diffuses the light from the said light source leaked out from this 1st light guide part is arrange | positioned ahead of the said 1st light guide part, The any one of Claims 1-4 characterized by the above-mentioned. Vehicle lamp.

Images