JP6349689B2 - Vehicle lighting - Google Patents

Description

  The present invention relates to a vehicular lamp using a semiconductor-type light source as a light source.

  This type of vehicular lamp is conventionally known (for example, Patent Document 1). Hereinafter, a conventional vehicle lamp will be described. A conventional vehicular lamp includes a lamp body and a cover that form a lamp chamber, and a bracket, a light source unit, and an optical unit that are arranged in the lamp chamber. The bracket is attached to the lamp body. The light source unit has a semiconductor light emitting element. The optical unit is a projector-type optical unit including a reflector and a projection lens that irradiates light from a semiconductor light emitting element in front of the lamp. The light source unit and the optical unit are separately fixed to the bracket. The light source unit is detachable through an attachment / detachment opening provided in the lamp body.

JP 2013-54834 A

  However, in the conventional vehicular lamp, since the optical unit is a projector type, the reflector of the optical unit is disposed so as to cover the upper side (light emitting surface) of the semiconductor light emitting element of the light source unit. For this reason, when the light source unit is detached from or attached to the bracket, there is a possibility that the semiconductor light emitting element contacts the edge of the lower surface opening of the reflector. When the semiconductor light emitting element of the light source unit to be newly replaced comes into contact with the edge of the lower surface opening of the reflector, the semiconductor light emitting element may be damaged (or broken). As a countermeasure, it is conceivable to open a large opening on the lower surface of the reflector. In this case, however, the reflective surface of the reflector may be reduced, and the light from the semiconductor light emitting element may not be used effectively.

  The problem to be solved by the present invention is that in a conventional vehicular lamp, the semiconductor light emitting element may be damaged when the light source unit is replaced.

The present invention (invention according to claim 1) includes a lamp housing and a lamp lens that define a lamp chamber, and a light source unit and an optical unit that are disposed in the lamp chamber. The light source unit has a semiconductor light source and a light source mounting member to which the semiconductor light source is attached, and the optical unit is opposed to the semiconductor light source. A lens that directly emits light and emits it as a predetermined light distribution pattern, and an opening through which the lens is attached and the light from the semiconductor-type light source directly enters the lens at a portion corresponding to the semiconductor-type light source An optical mounting member provided with a portion, the optical mounting member is mounted on the lamp housing side, and the light source mounting member is attached to and detached from the optical mounting member Is attached to the ability, the light source mounting member has a recess on the mounting surface of the optical mounting member side, the semiconductor-type light source is attached to the bottom surface of the recess of the light source mounting member via the light source holder, a semiconductor-type The light source and the light source holder are arranged inside the opening.

  In this invention (the invention according to claim 2), the optical mounting member is mounted on the lamp housing side in the direction of the reference optical axis of the vehicle lamp, and the light source mounting member is mounted on the optical mounting member on the reference light of the vehicle lamp. The light-emitting surface of the semiconductor-type light source is detachably attached in the axial direction, and is arranged to be perpendicular or substantially perpendicular to the reference optical axis of the vehicular lamp.

  According to the present invention (the invention according to claim 3), at least one of the light source mounting member and the optical mounting member is provided with a storage portion that stores a power supply member that supplies power to the semiconductor-type light source. And

  In this invention (invention according to claim 4), the mounting portion of the peripheral portion of the semiconductor light source of the light source mounting member is detachably mounted to the mounting portion of the edge portion of the opening of the optical mounting member. It is characterized by that.

  In the vehicular lamp according to the present invention, since the optical unit is a direct lens type, the lens of the optical unit faces the semiconductor light source of the light source unit, and the semiconductor light source of the light source unit opens the optical attachment member of the optical unit. Located in the department. For this reason, when the mounting portion of the peripheral portion of the semiconductor light source of the light source mounting member of the light source unit is removed from or attached to the mounting portion of the edge portion of the opening of the optical mounting member, the semiconductor light source of the optical mounting member Very unlikely to touch the edge of the opening. As a result, the semiconductor-type light source of the light source unit to be newly replaced is rarely damaged (or broken) by contacting the edge of the opening of the optical mounting member. In addition, even if the opening of the optical mounting member is opened widely, there is no effect on the light from the semiconductor-type light source being directly incident on the lens. That is, there is no influence on the effective use of light from the semiconductor light source. On the contrary, the light from the semiconductor light source can easily enter the lens directly, and the effective use of the light from the semiconductor light source can be further improved.

FIG. 1 is a longitudinal sectional view (vertical sectional view) showing Embodiment 1 of a vehicular lamp according to the present invention. FIG. 2 is a longitudinal sectional view (vertical sectional view) showing a state in which the light source unit is detached from the optical unit. FIG. 3 is a perspective view of the light source unit and the optical unit as seen from obliquely above the front (front surface, front surface) side in the exploded state. FIG. 4 is a front view showing a state in which the light source unit is attached to the optical unit. 5 is a cross-sectional view taken along line VV in FIG. FIG. 6 is a cross-sectional view (horizontal cross-sectional view) of a light source unit and an optical unit showing Embodiment 2 of the vehicular lamp according to the present invention. FIG. 7: is the perspective view seen from the front (surface, front) side diagonally upper side of the decomposition | disassembly state of the light source unit and optical unit which show Embodiment 3 of the vehicle lamp concerning this invention.

  Hereinafter, three examples (embodiments) of a vehicular lamp according to the present invention will be described in detail with reference to the drawings. In addition, this invention is not limited by this embodiment. In this specification, front, rear, upper, lower, left, and right are front, rear, upper, lower, left, and right when the vehicular lamp according to the present invention is mounted on a vehicle.

(Description of Configuration of Embodiment 1)
1 to 5 show Embodiment 1 of a vehicular lamp according to the present invention. Hereinafter, the configuration of the vehicular lamp according to the first embodiment will be described. In FIG. 1, reference numeral 1 denotes a vehicular lamp according to the first embodiment (for example, a vehicular headlamp such as a headlamp). The vehicular lamp 1 is mounted on both left and right ends of the front portion of the vehicle.

(Description of vehicle lamp 1)
As shown in FIGS. 1 and 2, the vehicular lamp 1 includes a lamp housing 10, a lamp lens (for example, a transparent outer cover, an outer lens, etc.) 11, a light source unit 2, and an optical unit 3. It is to be prepared. The vehicular lamp 1 has a reference optical axis (reference axis) Z.

  The lamp housing 10 is made of, for example, a light impermeable member, for example, a resin member. The lamp housing 10 has a hollow shape in which one (front side) is open and the other (rear side) is closed. The lamp lens 11 is made of, for example, a light transmissive member such as a transparent resin member or a glass member. The lamp lens 11 has a hollow shape in which one (rear side) is open and the other (front side) is closed. The longitudinal sectional shape (vertical sectional shape) of the lamp lens 11 extends from the upper side of the vehicle to the lower side of the vehicle along the longitudinal sectional shape (vertical sectional shape) of the left and right ends of the front portion of the vehicle. From the front to the front, it has a curved slope (slant).

  The peripheral edge of the opening of the lamp lens 11 and the peripheral edge of the opening of the lamp housing 10 are fixed in a watertight manner. A lamp chamber 12 is defined by the lamp housing 10 and the lamp lens 11. At the center of the rear closed portion of the lamp housing 10, a detachable opening 13 is provided perpendicularly or substantially perpendicularly to the reference optical axis Z. A lid 14 is detachably and watertightly attached to the edge of the detachable opening 13.

  The light source unit 2 and the optical unit 3 constitute a lamp unit. The lamp units 2 and 3 are disposed in the lamp chamber 12 and are attached to the lamp housing 10 via an optical axis adjusting mechanism. The optical axis adjustment mechanism includes a bracket 15, a pivot mechanism 16, a vertical optical axis adjustment mechanism 17, and a horizontal optical axis adjustment mechanism (not shown). The pivot mechanism 16, the up / down direction optical axis adjustment mechanism 17, and the left / right direction optical axis adjustment mechanism are provided between a peripheral portion of the attachment / detachment opening 13 of the lamp housing 10 and a peripheral portion of the bracket 15. Each is provided.

  A window 18 is provided at the center of the bracket 15. The lamp units 2 and 3 are disposed in the window portion 18 of the bracket 15, and are attached to the peripheral portion of the window portion 18 of the bracket 15 by bolts and nuts 19. As a result, the lamp units 2 and 3 are attached to the lamp housing 10 via the optical axis adjusting mechanisms 15, 16 and 17.

  An inner panel (inner housing) 9 is disposed in the lamp chamber 12. A window 90 is provided at the center of the inner panel 9. The lamp units 2 and 3 are arranged in the window 90. The inner panel 9 covers the optical axis adjusting mechanisms 15, 16, 17 and the bolts and nuts 19.

(Description of light source unit 2)
The light source unit 2 includes a semiconductor-type light source 4 and a light source mounting member (hereinafter referred to as “heat sink member”) 5 that also serves as a heat sink member.

  As shown in FIGS. 3 and 5, the semiconductor-type light source 4 is a self-luminous semiconductor-type light source such as an LED, an OEL, or an OLED (organic EL) in this example. The semiconductor light source 4 includes a light emitting chip (LED chip) having a light emitting surface, a package (LED package) 40 in which the light emitting chip is sealed with a sealing resin member, and a substrate 41 on which the package 40 is mounted. It is configured.

  The semiconductor light source 4 is positioned and attached to the light source attachment portion 50 of the heat sink member 5 via the light source holder 42. The light emitting surface of the semiconductor light source 4 faces the front side of the reference optical axis Z. The center of the light emitting surface of the semiconductor light source 4 is located on or near the reference optical axis Z.

  The light source holder 42 is positioned and attached to the light source holder attaching portion 51 of the heat sink member 5 by, for example, a screw (not shown). The light source holder 42 is provided with a power supply member 43 that supplies power to the semiconductor light source 4. The power feeding member 43 is housed in a housing portion (housing recess) 56 of the heat sink member 5. The power supply member 43 includes, for example, a socket provided in the light source holder 42, a harness that is electrically connected to a power source, and a connector that is electrically connected to the harness. . The socket and the connector are electrically and detachably attached.

  The heat sink member 5 radiates heat generated by the semiconductor light source 4 to the outside. The heat sink member 5 is made of, for example, an aluminum die casting or a resin member having thermal conductivity. As shown in FIGS. 3 and 5, the heat sink member 5 includes a vertical plate portion 52 and a plurality of vertical plate-shaped fin portions 53 integrally provided on one surface (back surface) of the vertical plate portion 52. It is configured.

  A substantially cross-shaped recess 54 is provided at the center of the mounting surface (planar or substantially flat) of the other surface (front surface) of the vertical plate portion 52 of the heat sink member 5. The light source mounting portion 50 is provided at the center of the bottom surface of the recess 54. The light source holder mounting portion 51 is provided on the bottom surface of the recess 54 and around the light source mounting portion 50. A mounting portion 55 is provided in the peripheral portion of the vertical plate portion 52, that is, in the peripheral portion of the semiconductor light source 4. The storage portion 56 is provided on one side of the concave portion 54 and between the semiconductor light source 4 and the mounting portion 55.

(Description of optical unit 3)
The optical unit 3 includes a lens 6, a lens holder 7, and an optical mounting member (hereinafter referred to as “mounting bracket”) 8.

  The lens 6 is made of, for example, a resin member. As shown in FIGS. 1 to 5, the lens 6 includes an incident surface 60 on the back surface (rear surface) and an exit surface 61 on the front surface (front surface). A flange 62 is integrally provided around the lens 6. The lens 6 directly enters the light from the semiconductor-type light source 4 through the incident surface 60 and emits the light from the emission surface 61 to the front outside of the vehicle as a predetermined light distribution pattern. The front view shape of the lens 6 is a non-circular shape. That is, the lens 6 is a deformed lens.

  The lens holder 7 is made of an elastic member, for example, a resin member. As shown in FIGS. 1 to 5, the lens holder 7 includes a holding cylinder portion 70, a holding flange portion 71, and a mounting plate portion 72. The holding flange portion 71 is integrally provided at the edge of the opening on the front side of the holding cylinder portion 70. The mounting plate portion 72 is integrally provided at the edge of the opening on the rear side of the holding cylinder portion 70.

  The mounting bracket 8 is made of an aluminum die casting or a resin member having thermal conductivity, like the heat sink member 5. The mounting bracket 8 has a plate shape as shown in FIGS. An opening 80 for allowing light from the semiconductor-type light source 4 to directly enter the incident surface 60 of the lens 6 is provided at a portion corresponding to the semiconductor-type light source 4 in the central portion of the mounting bracket 8. It has been. A mounting portion 81 is provided at the edge portion of the opening 80 of the mounting bracket 8. At the four corners of the mounting bracket 8, mounting pieces 82 are provided.

  The flange portion 60 of the lens 6 is positioned and held by the holding cylinder portion 70 and the holding flange portion 71 of the lens holder 7. The mounting plate portion 72 of the lens holder 7 is positioned and attached to the mounting bracket 8. As a result, the lens 6 is positioned and attached to the mounting bracket 8 via the lens holder 7. In this example, the means for holding the lens 6 and the lens holder 7 and the means for attaching the lens holder 7 and the mounting bracket 8 are fitted without using a fitting such as a bolt nut or a screw. The lens 6 and the lens holder 7 are held by elastic contact such as engagement and locking, and the lens holder 7 and the mounting bracket 8 are attached. When the lens holder 7 is made of a resin member and the mounting bracket 8 is made of aluminum die casting, a heat insulating sheet member is interposed between the lens holder 7 and the mounting bracket 8. It may be interposed.

(Description of assembly of vehicle lamp 1)
The attachment piece 82 of the attachment bracket 8 is attached to the bracket 15 by the bolt nut 19 in the reference optical axis Z direction. That is, a bolt is inserted into the through hole of the mounting piece 82 and the through hole of the bracket 15, and a nut is fastened to the bolt. As a result, the mounting bracket 8 is mounted on the lamp housing 10 side via the optical axis adjusting mechanisms 15, 16, and 17. Thereby, the optical unit 3 is attached to the lamp housing 10. Note that the attachment of the attachment piece 82 and the bracket 15 may be a screw other than the bolt and nut 19.

  The attachment portion 55 of the heat sink member 5 is detachably attached to the attachment portion 81 of the attachment bracket 8 with a screw 83 in the reference optical axis Z direction. That is, the screw 83 is screwed into the boss portion of the mounting portion 55 of the heat sink member 5 through the through hole of the mounting portion 81 of the mounting bracket 8. As a result, the light source unit 2 is detachably attached to the optical unit 3. The attachment portion 81 and the attachment portion 55 may be attached by bolts and nuts in addition to the screw 83. Further, when the mounting bracket 8 is made of a resin member and the heat sink member 5 is made of aluminum die casting, a heat insulating sheet member is provided between the mounting bracket 8 and the heat sink member 5. It may be interposed.

  The mounting bracket 8 is mounted in the reference optical axis Z direction on the lamp housing 10 side via the bracket 15 by the bolt nut 19. The heat sink member 5 is detachably attached to the mounting bracket 8 in the reference optical axis Z direction by the screw 83. As a result, the light emitting surface of the semiconductor-type light source 4 is arranged perpendicular or substantially perpendicular to the reference optical axis Z. Further, the mounting direction by the bolt and nut 19 and the mounting direction by the screw 83 coincide with the reference optical axis Z direction. The attachment / detachment opening 13 of the lamp housing 10 is provided perpendicular or substantially perpendicular to the reference optical axis Z. The attachment / detachment opening 13 is provided corresponding to the screw 83 of the heat sink member 5 and the bolt nut 19 of the mounting bracket 8.

(Description of the operation of the first embodiment)
The vehicular lamp 1 according to the first embodiment is configured as described above, and the operation thereof will be described below.

  The light emitting chip of the semiconductor-type light source 4 is turned on. Then, the light emitted from the light emitting chip directly enters the lens 6 from the incident surface 60 of the lens 6. At this time, the light distribution of the incident light is controlled on the incident surface 60. Incident light that has entered the lens 6 exits from the exit surface 61 of the lens 6. At this time, the light distribution of the outgoing light is controlled on the outgoing surface 61. The light emitted from the lens 6 is irradiated in front of the vehicle as a predetermined light distribution pattern, for example, a low beam light distribution pattern or a high beam light distribution pattern.

  Further, heat generated in the light emitting chip of the semiconductor light source 4 is radiated to the outside through the heat sink member 5.

  Further, when the vertical optical axis adjustment mechanism 17 is operated, the lamp units 2 and 3 are connected via the bracket 15 to the horizontal axis (which connects the rotation center of the pivot mechanism 16 and the rotation center of the horizontal optical axis adjustment mechanism). The optical axis in the vertical direction is adjusted by rotating in the vertical direction around (not shown). When the left / right optical axis adjustment mechanism is operated, the lamp units 2 and 3 are connected via the bracket 15 to a vertical axis (not shown) that connects the rotation center of the pivot mechanism 16 and the rotation center of the vertical optical axis adjustment mechanism 17. The optical axis in the horizontal direction is adjusted by rotating in the horizontal direction. Note that the vertical optical axis of the lamp units 2 and 3 may be automatically adjusted using an auto leveling mechanism (not shown).

  Furthermore, when replacing the light source unit 2, first, the lid 14 is removed from the edge of the opening / removal opening 13 of the lamp housing 10. Next, the screw 83 is removed from the boss portion of the mounting portion 55 of the heat sink member 5 through the through hole of the mounting portion 81 of the mounting bracket 8. Subsequently, the light source unit 2 is detached from the optical unit 3 and taken out of the lamp chamber 12 from the lamp chamber 12 through the attachment / detachment opening 13. Then, a new optical unit is accommodated in the lamp chamber 12 through the opening / removal opening 13 and set in the optical unit 3. Then, the screw 83 is inserted through the through hole of the mounting portion 81 of the mounting bracket 8 and screwed into the boss portion of the mounting portion 55 of the heat sink member 5. As a result, the light source unit 2 is detachably attached to the optical unit 3 and the replacement is completed.

(Description of the effect of Embodiment 1)
The vehicular lamp 1 according to the first embodiment is configured and operated as described above, and the effects thereof will be described below.

  In the vehicular lamp 1 according to the first embodiment, since the optical unit 3 is of a direct lens type, the lens 6 of the optical unit 3 faces the semiconductor light source 4 of the light source unit 2 and the semiconductor type of the light source unit 2 The light source 4 is located in the opening 80 of the mounting bracket 8 of the optical unit 3. Therefore, when the mounting portion 55 of the peripheral portion of the semiconductor light source 4 of the heat sink member 5 of the light source unit 2 is removed from or attached to the mounting portion 81 of the edge portion of the opening 80 of the mounting bracket 8, the semiconductor light source There is very little possibility that 4 contacts the edge of the opening 80 of the mounting bracket 8. As a result, the semiconductor light source 4 of the light source unit 2 to be newly replaced is rarely damaged (or broken) by contacting the edge of the opening 80 of the mounting bracket 8. Moreover, even if the opening 80 of the mounting bracket 8 is opened widely, there is no influence on the light from the semiconductor-type light source 4 entering the lens 6 directly. That is, there is no influence on the effective use of the light of the semiconductor light source 4. Conversely, the light from the semiconductor-type light source 4 is easily incident directly on the lens 6, and the effective use of the light from the semiconductor-type light source 4 can be further improved.

  In the vehicular lamp 1 according to the first embodiment, the mounting bracket 8 is attached to the bracket 15 by the bolt nut 19 in the reference optical axis Z direction, and the heat sink member 5 is attached to the mounting bracket 8 by the screw 83 in the reference optical axis Z direction. Is detachably attached. As a result, the light emitting surface of the semiconductor-type light source 4 is arranged perpendicularly or substantially perpendicular to the reference optical axis Z, and the mounting direction by the bolt nut 19 and the mounting direction by the screw 83 coincide with the reference optical axis Z direction. To do. Thereby, attachment and removal of the attachment bracket 8 and attachment and removal of the heat sink member 5 can be easily performed. Moreover, the attachment / detachment opening 13 of the lamp housing 10 is provided perpendicularly or substantially perpendicularly to the reference optical axis Z, and the attachment / detachment opening 13 is formed in the screw 83 of the heat sink member 5 and the bolt nut 19 of the mounting bracket 8. Correspondingly provided. For this reason, the mounting bracket 8 and the heat sink member 5 can be mounted and removed more easily.

  In the vehicular lamp 1 according to the first embodiment, a storage portion 56 is provided between the semiconductor light source 4 of the heat sink member 5 and the mounting portion 55, and the semiconductor light source 4 is provided in the storage portion 56. A power supply member 43 for supplying power is accommodated. For this reason, when the heat sink member 5 of the light source unit 2 and the mounting bracket 8 of the optical unit 3 are detachably mounted, the power feeding member 43 may be sandwiched between the heat sink member 5 and the mounting bracket 8. Absent. Thereby, attachment of the light source unit 2 and the optical unit 3 becomes easy.

(Description of the configuration and effect of the second embodiment)
FIG. 6 shows Embodiment 2 of the vehicular lamp according to the present invention. Hereinafter, the vehicular lamp according to the second embodiment will be described. In the figure, the same reference numerals as those in FIGS. 1 to 5 denote the same components.

  In the assembly of the optical unit 3, the vehicular lamp 1 according to the first embodiment does not use a fixture such as a bolt nut or a screw, but by elastic contact such as fitting, engagement, locking, etc. The lens 6 and the lens holder 7 are held, and the lens holder 7 and the mounting bracket 8 are attached. In the vehicular lamp according to the second embodiment, the screw 84 is screwed into the mounting boss portion 63 that is integrally provided in the flange portion 62 of the lens 6 through the through hole of the mounting portion 81 of the mounting bracket 8. The lens 6 and the mounting bracket 8 are assembled without using the lens holder 7. In the vehicular lamp according to the second embodiment, the screw 84 is inserted into the through hole of the mounting portion 81 of the mounting bracket 8 and the through hole of the mounting flange portion 64 provided integrally with the flange portion 62 of the lens 6. The lens 6 and the mounting bracket 8 are assembled via the lens holder 7 by screwing them into the mounting boss 73 provided integrally with the lens holder 7. The holding means for the lens 6 and the lens holder 7, and the lens holder 7, the mounting bracket 8, and the mounting means are not particularly limited.

(Description of the configuration and effect of the third embodiment)
FIG. 7 shows Embodiment 3 of the vehicular lamp according to the present invention. Hereinafter, the vehicular lamp according to the third embodiment will be described. In the figure, the same reference numerals as those in FIGS. 1 to 6 denote the same components.

  In the vehicular lamp 1 according to the first embodiment and the vehicular lamp according to the second embodiment, the power feeding member 43 is provided on the side of the semiconductor-type light source 4. In contrast, in the vehicular lamp according to the third embodiment, the power feeding member 43 is provided below the semiconductor-type light source 4. In the vehicular lamp according to the third embodiment, a storage portion 85 that stores the power supply member 43 is provided at the center of the lower edge portion of the opening 80 of the mounting bracket 8. That is, the central portion of the lower edge portion of the opening 80 of the mounting bracket 8 is cut out, and the cut out portion is used as the storage portion 85.

(Description of examples other than Embodiments 1, 2, and 3)
In the first, second, and third embodiments, the present invention is an example in which the low beam distribution pattern and the high beam distribution pattern are used for a vehicle headlamp that irradiates the front of the vehicle. However, in the present invention, vehicle lamps other than vehicle headlamps such as headlamps, for example, auxiliary headlamps such as fog lamps, additional lamps, tail lamps, stop lamps, tail lamps, etc. Can also be used.

  In the first, second, and third embodiments, the semiconductor light source 4 is used as the light source. However, in the present invention, a light source (light emitting body, light emitting element, light emitting member, light emitting device) other than the semiconductor-type light source 2 may be used as the light source.

  Further, in the first and second embodiments, the storage portion 56 is provided between the semiconductor light source 4 of the heat sink member 5 and the attachment portion 55. However, in the present invention, the storage portion 56 may be provided between the semiconductor light source 4 of the mounting bracket 8 and the mounting portion 81, or may be provided in both the heat sink member 5 and the mounting bracket 8.

  Further, in the third embodiment, the storage portion 85 is provided at the center of the lower edge portion of the opening 80 of the mounting bracket 8. However, in the present invention, the storage portion 85 may be provided in the lower portion of the recess 54 of the heat sink member 5, or may be provided in both the heat sink member 5 and the mounting bracket 8.

  Furthermore, the optical axis adjustment mechanism in the first, second, and third embodiments is configured by attaching the pivot mechanism 16, the vertical optical axis adjustment mechanism 17, and the horizontal optical axis adjustment mechanism to the bracket 15. . However, in the present invention, the pivot mechanism 16, the vertical optical axis adjustment mechanism 17, and the horizontal optical axis adjustment mechanism are attached to the mounting piece 82 of the mounting bracket 8 of the optical unit 3 to constitute the optical axis adjustment mechanism. Also good. That is, the mounting piece 82 of the mounting bracket 8 is used as a fulcrum of the optical axis adjusting mechanism. Thereby, since the mounting bracket 8 also serves as the bracket 5, the bracket 5 can be omitted, and the number of parts can be reduced.

  Furthermore, in the first, second, and third embodiments, as the lens 6 of the optical unit 3, a deformed lens having a non-circular shape in front view is used. However, in the present invention, a lens other than the irregular lens may be used as the lens of the optical unit 3.

  Furthermore, in the first, second, and third embodiments, the power feeding member 43 is housed in the housing portion 56 between the semiconductor light source 4 and the mounting portion 55 on one side of the recess 54 of the heat sink member 5. To do. That is, the power feeding member 43 is accommodated on the left and right sides of the semiconductor light source 4. However, in the present invention, the power feeding member 43 may be housed in the recess 54 of the heat sink member 5. That is, the power supply member 43 may be stored under (directly below) the semiconductor light source 4.

  Furthermore, in the first, second, and third embodiments, the heat sink member 5 is provided with a storage portion 56 (recessed portion 54) that stores the power supply member 43. However, in the present invention, a storage portion that stores the power supply member 43 may be provided in the mounting bracket 8, or may be provided in the heat sink member 5 and the mounting bracket 8.

DESCRIPTION OF SYMBOLS 1 Vehicle lamp 9 Inner panel 10 Lamp housing 11 Lamp lens 12 Lamp chamber 13 Detachable opening part 14 Cover part 15 Bracket 16 Pivot mechanism 17 Vertical axis optical axis adjustment mechanism 18 Window part 19 Bolt nut 90 Window part 2 Light source unit 4 Semiconductor type light source 40 Package 41 Substrate 42 Light source holder 43 Power supply member 5 Heat sink member (light source mounting member)
DESCRIPTION OF SYMBOLS 50 Light source attaching part 51 Light source holder attaching part 52 Vertical board part 53 Fin part 54 Recessed part 55 Mounting part 56 Storage part 3 Optical unit 6 Lens 60 Incident surface 61 Outgoing surface 62 Flange part 63 Mounting boss part 64 Mounting flange part 7 Lens holder 70 Holding cylinder portion 71 Holding flange portion 72 Mounting plate portion 73 Mounting boss portion 8 Mounting bracket (optical mounting member)
80 Opening portion 81 Mounting portion 82 Mounting piece 83 Screw 84 Screw 85 Storage portion Z Reference optical axis

Claims (4)

A lamp housing and a lamp lens that partition the lamp chamber;
A light source unit and an optical unit disposed in the lamp chamber;
With
The lamp housing is provided with a detachable opening,
The light source unit includes a semiconductor light source, and a light source mounting member to which the semiconductor light source is mounted,
The optical unit is opposed to the semiconductor-type light source, has a lens that directly enters the light from the semiconductor-type light source and emits it as a predetermined light distribution pattern, the lens is attached, and the semiconductor An optical mounting member provided with an opening for allowing light from the semiconductor-type light source to directly enter the lens, in a portion corresponding to the mold light source,
The optical attachment member is attached to the lamp housing side,
The light source attachment member is detachably attached to the optical attachment member,
The light source mounting member has a recess in the mounting surface on the optical mounting member side,
The semiconductor-type light source is attached to the bottom surface of the concave portion of the light source attachment member via a light source holder,
The semiconductor-type light source and the light source holder are disposed inside the opening.
A vehicular lamp characterized by the above. The optical mounting member is mounted on the lamp housing side in the reference optical axis direction of the vehicle lamp,
The light source attachment member is detachably attached to the optical attachment member in a reference optical axis direction of the vehicle lamp,
The light emitting surface of the semiconductor-type light source is disposed perpendicularly or substantially perpendicular to the reference optical axis of the vehicle lamp,
The vehicular lamp according to claim 1. At least one of the light source mounting member and the optical mounting member is provided with a storage unit that stores a power supply member that supplies power to the semiconductor light source.
The vehicular lamp according to claim 1 or 2. An attachment portion of a peripheral portion of the semiconductor-type light source of the light source attachment member is detachably attached to an attachment portion of an edge portion of the opening of the optical attachment member.
The vehicular lamp according to any one of claims 1 to 3.

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