JP2010140810A - Side marker lamp built-in headlamp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a side marker lamp built-in headlamp capable of satisfying its light distribution specification, as for the side marker lamp built-in headlamp in which the side marker lamp light source is positioned in rear side of the vehicle and which cannot satisfy light distribution specification of the outside of the visibility angle range in horizontal direction of the side marker lamp by the direct light from the side marker lamp light source. <P>SOLUTION: The side marker lamp built-in headlamp 10 has a plurality of divided reflection surfaces 24A at the left side end part 20A on the reflector 14 side of an extension 20 which is arranged on the vehicle front side of the side marker lamp light source 18, and by these reflection surfaces 24A, the direct light from the side marker lamp light source 18 is reflected to the side part in horizontal direction against the optical axis Ax of the main light source 16, thereby, the light distribution specification in the visibility angle range in horizontal direction of the side marker lamp is obtained. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a headlamp with built-in vehicle width lamp, and in particular, a main light source and a light source for vehicle width lamp are provided in a reflector of the headlamp, and the light source for vehicle width lamp is used when the main light source is turned off at night. The present invention relates to a headlamp with built-in vehicle width lamp that is turned on and functions as a vehicle width lamp.

  A headlamp 100 with a built-in vehicle width lamp shown in FIG. 4 includes a housing 102 whose front surface is open and a lens 104 that covers the opening of the housing 102, and a lamp chamber 106 defined by the housing 102 and the lens 104. The reflector 108 is disposed, and the main light source 110 is fixed to the reflector 108. Further, a light source 112 for the vehicle width lamp is disposed in the reflector 108, and the light source 112 for the vehicle width lamp is fixed to the housing 102, and an opening for inserting the light source for the vehicle width lamp formed in the reflector 108. It is arranged in the reflector 108 via 114. Further, in order to hide the gap between the housing 102 and the reflector 108, or to make the discontinuity between the opening of the housing 102 and the opening edge of the reflector 108 inconspicuous, the opening of the housing 102 and the opening of the reflector 108 are used. An extension 116 is disposed between the edges. This built-in headlamp 100 has a reflector 108 disposed on the front side of the vehicle with respect to the lens 104, and the light distribution standard of the viewing angle range of the widthlight is set by direct light A from the light source 112 for the widthlight. Satisfied.

  Here, the light distribution standard of the viewing angle range of the vehicle width lamp will be described.

  The light distribution standard in the viewing angle range A of the vehicle width lamp shown in FIG. 5 is the light distribution standard for left-hand traffic in Europe. As shown in the figure, the light distribution standard of the viewing angle range A of the vehicle lamp is 80 degrees outward in the horizontal direction and 45 degrees inward, and the light distribution range is 15 degrees in the vertical direction. . In addition, the light distribution range B shown to the figure has shown the passing light distribution range by a main light source.

  By the way, as shown in FIG. 6, the recent external shape of the built-in headlight built-in headlamp has a large horizontal (and vertical) inclination angle, as shown in FIG. Tend to be. Due to such an outer shape, the reflector 122 of the headlamp 120 with built-in vehicle width lamp is recessed from the position of the lens 124 of the headlamp 120 with built-in vehicle width lamp to the rear side of the vehicle in order to secure the required size. Is arranged.

  The vehicle width light source 126 is fixed to the housing 128 and is disposed in the reflector 122 through an opening 134 formed in the reflector 122. Since the reflector 122 has a base end 122A supported by the housing 128 so as to be tiltable, the opening 134 formed in the reflector 122 has a size that does not collide with the light source 126 for the width lamp even when the reflector 122 is tilted. Is formed.

  According to the built-in headlamp 120 of the vehicle width lamp configured as described above, when the vehicle light source 126 is directly viewed from the outside from the position of 80 degrees outside the light distribution standard of the viewing angle range of the vehicle width lamp, If the vehicle lamp light source 126 is in a position where it is directly viewed, the above-mentioned 80-degree light distribution standard can be satisfied.

  However, since the light source 126 for the vehicle width lamp shown in FIG. 6 is arranged at a position deep behind the vehicle, it cannot be seen by being hidden by the extension 130 when directly viewed from the position of 80 degrees outside, Therefore, the light distribution standard of 80 degrees outside cannot be satisfied.

  Such a problem can be solved by shifting the position of the light source 126 for the vehicle width lamp from the base end 122A of the reflector 122 to the vehicle front side. However, in this case, the tilting range of the reflector 122 at that position is increased, and the size of the opening 134 for inserting the light source for vehicle width lamps formed in the reflector 122 is unnecessarily increased. Since this opening 134 can be seen from the outside of the headlamp 120 with built-in vehicle width lamp, it looks unpleasant and is not preferable in design.

  Recently, many reflectors 122 themselves are provided with a reflective surface (such as a composite reflective surface or a free-form curved reflective surface) that forms a light distribution characteristic for the main light source (headlamp) 132. Since it is substantially transparent with no lens cut, diffusion of the light source 126 for the vehicle width lamp due to the lens cut cannot be expected, and it has become increasingly difficult to satisfy the light distribution standard.

On the other hand, Patent Document 1 discloses a vehicle lamp built-in headlamp in which an auxiliary reflecting surface is provided on a reflector. According to the headlamp with built-in vehicle width lamp, the light from the light source for the vehicle width lamp is reflected by the auxiliary reflecting surface in a direction inclined downward or upward with respect to the optical axis of the main light source. The viewing angle range in the vertical direction of the lamp can be expanded.
JP 2002-231016 A

  However, the vehicle width lamp built-in type headlamp of Patent Document 1 is configured to satisfy the light distribution standard of the viewing angle range in the vertical direction of the vehicle width lamp, and the arrangement of the viewing angle range in the horizontal direction of the vehicle width lamp. It is not a configuration for satisfying the optical standard.

  The present invention has been made in view of such circumstances, and the light source for the vehicle width lamp is positioned on the rear side of the vehicle with respect to the lens. In the direct light of the light source for the vehicle width lamp, the horizontal direction of the vehicle width lamp is An object of the present invention is to provide a built-in vehicle width lamp headlamp that cannot satisfy the light distribution standard outside the viewing angle range in the vehicle, and that can satisfy the light distribution standard. .

  In order to achieve the above object, the present invention provides a housing having an open front surface, a reflector disposed in the housing, a main light source and a light source for a vehicle width lamp disposed in the reflector, In the vehicle width lamp built-in headlamp provided with an opening and an extension provided between the opening edge of the reflector, an end of the extension on the reflector side has a viewing angle range in a horizontal direction of the vehicle width lamp. In order to obtain the light distribution standard of the vehicle, the vehicle width lamp is provided with a reflecting surface that reflects the light from the light source for the vehicle width lamp in the horizontal direction with respect to the optical axis of the main light source. Provide built-in headlamps.

  According to the present invention, the reflection surface is provided on the end of the extension light beam disposed on the vehicle front side of the light source for the vehicle width lamp, and the light from the light source for the vehicle width light is transmitted by the reflection surface to the main light source. The light distribution standard in the viewing angle range in the horizontal direction of the vehicle width lamp is obtained by reflecting the light horizontally to the optical axis. Thus, according to the present invention, the light source for the vehicle width lamp is positioned on the rear side of the vehicle with respect to the lens, and the direct light of the light source for the vehicle width lamp is arranged outside the viewing angle range in the horizontal direction of the vehicle width lamp. Even a headlamp with built-in vehicle width lamp that cannot satisfy the light standard can satisfy the light distribution standard. Further, even if a lens that is substantially free of lens cut is used as the lens, the light distribution standard can be satisfied.

  According to the present invention, it is preferable that the reflection surface of the extension is divided into a plurality of portions, and the light from the light source for the vehicle width lamp is reflected by the plurality of divided reflection surfaces.

  The extension is generally configured in a substantially ring shape, and the reflection surface is formed at the end that is the inner peripheral edge of the extension. The inner peripheral edge of the extension has an arc-shaped or substantially quadrangular outline. If it is just one continuous reflecting surface, it will be reflected by the reflecting surface, depending on the position of the light source for the vehicle lamp. The light from the light source for the vehicle width lamp may not be reflected outside in the horizontal direction, but may be reflected obliquely downward even outside, satisfying the above-mentioned light distribution standard on the outside in the horizontal direction. There are cases where it is not possible.

  Therefore, according to the present invention, the reflecting surface is divided into a plurality of parts, and the light from the light source for the vehicle width lamp is reflected outward in the horizontal direction by the plurality of divided reflecting surfaces. That is, each of the divided reflecting surfaces is formed in a direction in which light from the light source for vehicle width lamps is reflected outward in the horizontal direction.

  In this case, the light source for the vehicle width lamp is disposed at an upper position on the inner side (vehicle center side) of the main light source when viewed from the front side of the vehicle. The reflection surface for satisfying the light distribution standard of 80 degrees outside is provided at the end of the inner edge of the extension (the edge on the vehicle center side) when viewed from the front side of the vehicle. In addition, if a plurality of reflective surfaces are seen when viewed from the front side of the vehicle, the appearance will deteriorate and the design will deteriorate.Therefore, the reflective surface formed on the extension will be on the surface of the end facing the light source for the vehicle width lamp. It is preferable to form. Furthermore, it is preferable that the end surface is an inclined surface inclined in the vehicle outer direction, and a reflecting surface is formed on the inclined surface, from the viewpoint that the above-mentioned light distribution standard can be satisfactorily satisfied.

  According to the present invention, it is preferable that the main light source is fixed to the reflector supported to be tiltable on the housing, and the light source for vehicle width lamp and the extension are fixed to the housing.

  According to the present invention, the main light source is fixed to the reflector that is tiltably supported by the housing, but the light source for the vehicle width lamp and the extension are fixed to the stationary housing. Thus, according to the present invention, even if the reflector is tilted, the relative position between the light source for the vehicle width lamp and the extension does not move, so that the light distribution of the vehicle width lamp can be obtained stably.

  As described above, according to the headlamp with built-in vehicle width lamp of the present invention, the reflection surface is provided at the reflector-side end portion of the extension disposed on the vehicle front side of the light source for the vehicle width lamp, and this reflection surface By reflecting the direct light from the light source for the vehicle width lamp in the horizontal direction with respect to the optical axis of the main light source, so as to obtain the light distribution standard of the viewing angle range in the horizontal direction of the vehicle width light, A vehicle in which the light source for the vehicle width lamp is positioned on the rear side of the vehicle with respect to the lens, and the direct light of the light source for the vehicle width light cannot satisfy the light distribution standard outside the viewing angle range in the horizontal direction of the vehicle width light. Even the headlamp built-in type headlamp can satisfy the light distribution standard.

  A preferred embodiment of a headlamp with built-in vehicle width lamp according to the present invention will be described below in detail with reference to the accompanying drawings.

  FIG. 1 is a horizontal sectional view showing a configuration of a headlamp 10 with a built-in vehicle width lamp according to an embodiment.

  A headlamp 10 with a built-in vehicle width lamp shown in FIG. 1 includes a housing 12 whose front surface is open, a reflector 14 fixed in the housing 12, a main light source 16 and a light source for a vehicle width light arranged in the reflector 14. 18 and an extension 20 provided between the opening of the housing 12 and the opening edge of the reflector 14, and a lens 22 is attached to the opening of the housing 12. The reflector 14 has a parabolic reflecting surface, and the main light source 16 is disposed at a substantially focal position of the reflecting surface.

  In the vehicle width lamp built-in type headlamp 10, the vehicle width light source 18 is positioned on the rear side of the vehicle with respect to the lens 22. The light distribution standard of 80 degrees outside the viewing angle range in the direction cannot be satisfied. This is the same as the headlamp 120 with built-in vehicle width lamp shown in FIG.

  That is, the external shape of the built-in vehicle width lamp type headlamp 10 shown in FIG. 1 has a large horizontal inclination angle for the purpose of revision of the Road Traffic Act and alignment with automobile design, etc. In order to secure the necessary size, the light source 18 for the vehicle width lamp is also disposed at a position recessed from the position of the lens 22 toward the rear side of the vehicle. Yes. Further, the reflecting surface of the reflector 14 is a composite reflecting surface, and the reflector 14 itself forms a light distribution characteristic as a headlamp. Therefore, the lens 22 has a through shape that is not subjected to lens cutting. Therefore, diffusion by lens cut is not performed, and it is difficult to form a light distribution standard as a vehicle width lamp.

  Therefore, the built-in vehicle width lamp headlamp 10 according to the embodiment is provided with a reflecting surface 24 on the left end 20A on the reflector 14 side of the extension 20 disposed on the vehicle front side of the light source 18 for the vehicle width lamp. By reflecting the direct light B from the light source 18 for the vehicle lamp in the horizontal direction with respect to the optical axis Ax of the main light source 16 by the reflecting surface 24, the light distribution standard of the viewing angle range in the horizontal direction of the vehicle lamp. To get.

  Thereby, according to the headlamp 10 with a built-in vehicle width lamp of the embodiment, the light source 18 for the vehicle width lamp is positioned on the vehicle rear side with respect to the lens 22, and the direct light A of the light source 18 for the vehicle width lamp Even the headlamp 10 with built-in vehicle width lamp that cannot satisfy the light distribution standard outside the viewing angle range in the horizontal direction of the vehicle width lamp can satisfy the light distribution standard. Further, even if a lens 22 that is substantially free of lens cut is used as the lens 22, the light distribution standard can be satisfied. In the embodiment, the direct light A irradiates a range up to 45 degrees outside and the range from 45 degrees to 80 degrees is radiated by the reflecting surface 24. However, the shape and layout of the light source 18 for the width lamp The irradiation range that can be supplemented by the direct light A varies depending on the above, and is not limited to 45 degrees. Further, the position of the light source 18 for the vehicle width lamp is not limited to the position illustrated in the drawings as long as it can irradiate the reflection surface 24 with light.

  The extension 20 is formed of a resin such as plastic, and the reflecting surface 24 is provided by attaching a reflecting member such as aluminum by vapor deposition or the like.

  As shown in FIG. 2, the reflection surface 24 formed on the extension 20 is divided into a plurality of reflection surfaces 24A, 24A... From the vehicle light source 18 by the divided reflection surfaces 24A, 24A. The light is reflected.

  As shown in FIG. 2, the extension 20 is formed in a substantially ring shape with an opening at the substantially central portion thereof, and a stair-shaped reflecting surface 24A, 24A... Formed along.

  The inner peripheral edge of the extension 20 has an arcuate or substantially quadrangular outline. Here, if the reflecting surface 24 formed on the inner peripheral edge 25 of the extension 20 as shown in FIG. 3 is a simple continuous reflecting surface, the reflecting surface 24 is reflected depending on the arrangement position of the light source 18 for the vehicle lamp. The light from the vehicle light source 18 reflected by the surface 24 may not be reflected outside in the horizontal direction, but may be reflected obliquely downward, even outside, as indicated by the arrow C. In some cases, it is not possible to satisfy the light distribution standard of 80 degrees outside.

  Therefore, the headlamp 10 with built-in vehicle width lamp according to the embodiment divides the reflecting surface 24 into a plurality of reflecting surfaces 24A, 24A... As shown in FIG. The light from the light source 18 is reflected outward in the horizontal direction as indicated by an arrow D. That is, each of the divided reflecting surfaces 24A, 24A... Is formed in a direction that reflects the light from the vehicle lamp light source 18 outward in the horizontal direction. The shape of the reflecting surface 24A is not limited to a multiple paraboloid as long as it can emit parallel light, and may be a free-form surface, an elliptical reflecting surface, or the like.

  In this case, the vehicle width light source 18 is disposed at an upper position on the inner side (vehicle center side) of the main light source 16 when viewed from the front side of the vehicle. Further, the reflecting surfaces 24A, 24A,... For satisfying the light distribution standard of 80 degrees outside are provided at the end of the left side edge portion (edge portion on the vehicle center side) 20A of the extension 20 when viewed from the vehicle front side. ing. Further, when the plurality of reflecting surfaces 24A, 24A,... Are seen from the front side of the vehicle, the appearance is deteriorated and the design is deteriorated. Therefore, the reflecting surfaces 24A, 24A,. Preferably, it is formed on the surface of the left end 20 </ b> A facing the light source 18 for use. Thereby, reflection surface 24A, 24A ... is not visible from the vehicle front, and design nature improves.

  In FIG. 2, in order to describe the reflecting surfaces 24A, 24A, etc., the reflecting surfaces 24A, 24A,... Are shown for convenience as being formed inside the left side edge portion 20A of the extension 20. It is not limited to. Further, as shown in FIG. 1, the end surface of the left end portion 20A of the extension 20 on which the reflecting surface 24 is formed is an inclined surface inclined in the vehicle outer direction, and the reflecting surfaces 24A, 24A... Are formed on the inclined surface. However, it is preferable in that the light distribution standard described above can be satisfactorily satisfied. Further, the headlamp 10 with built-in vehicle width lamp according to the embodiment has a reflecting surface 24 formed on the left edge 20A of the extension 20 as shown in FIG. 2, and satisfies the light distribution standard of 80 degrees outside. The same reflecting surfaces 24A and 24A may be formed on the right end 20B of the extension 20 so as to satisfy the light distribution standard of 45 degrees inside.

  By the way, according to the headlamp 10 with a built-in vehicle width lamp of the embodiment, the main light source 16 is fixed to the reflector 14 that is tiltably supported by the housing 12, and the light source 18 for the vehicle width light and the extension 20 are stationary. The direct light B from the vehicle lamp light source 18 is fixed by the housing 12 and is reflected by the reflection surfaces 24A, 24A.

  That is, according to the headlamp 10 with a built-in vehicle width lamp of the embodiment, the main light source 16 is fixed to the tilting reflector 14, but the vehicle width light source 18 and the extension 20 are fixed to the stationary housing 12. Therefore, even if the reflector 14 is tilted with respect to the housing 12, the relative position of the vehicle light source 18 and the extension 20 fixed to the stationary housing 12 does not move. It can be obtained stably.

  In the embodiment, the reflection surface 24A is formed on the extension 20. However, a reflection surface that satisfies the light distribution standard of the width lamp may be formed on a member other than the extension 20, for example, the reflector 14.

Horizontal sectional view showing the configuration of the headlight built-in type headlamp of the embodiment Front view of the extension as seen from the front side of the vehicle Front view of the extension, as seen from the front side of the vehicle, with an extension with one continuous reflecting surface Horizontal sectional view showing the structure of a conventional headlamp with built-in vehicle width lamp Explanatory drawing showing the required light distribution range of vehicle width lights and headlamps in left-hand traffic in Europe Horizontal sectional view showing the configuration of a conventional headlamp with built-in vehicle width lamp that is greatly inclined in the horizontal direction

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Headlamp with built-in vehicle width light, 12 ... Housing, 14 ... Reflector, 16 ... Main light source, 18 ... Light source for vehicle width light, 20 ... Extension, 20A ... Left end part, 20B ... Right end part, 22 ... Lens 24 ... Reflective surface, 24A ... Divided reflective surface, 100 ... Headlamp with built-in vehicle width lamp, 102 ... Housing, 104 ... Lens, 106 ... Light chamber, 108 ... Reflector, 110 ... Main light source, 112 ... Vehicle width Light source for lamp 114, opening for inserting light source for vehicle width lamp, 120 ... head lamp with built-in vehicle width lamp, 122 ... reflector, 124 ... lens, 126 ... light source for vehicle width lamp, 128 ... housing, 130 ... extension , 132 ... main light source, 134 ... opening for inserting light source for vehicle width lamp

Claims (3)

Provided between a housing having an open front surface, a reflector disposed in the housing, a main light source and a vehicle light source disposed in the reflector, and an opening of the housing and an opening edge of the reflector In the headlight with built-in vehicle width lamp with the specified extension,
At the end of the extension on the reflector side, the light from the light source for the vehicle width light is directed to the optical axis of the main light source so as to obtain a light distribution standard in the viewing angle range in the horizontal direction of the vehicle light. A headlamp with a built-in vehicle width lamp, characterized in that a reflecting surface for reflecting horizontally is provided.   The headlamp with built-in vehicle width light according to claim 1, wherein the reflection surface of the extension is divided into a plurality of portions, and light from the light source for the vehicle width light is reflected by the plurality of divided reflection surfaces. The main light source is fixed to the reflector supported tiltably on the housing,
The vehicle width lamp built-in type headlamp according to claim 1 or 2, wherein the vehicle width light source and the extension are fixed to the housing.

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