JP2010160925A - Projector type vehicular headlamp and headlamp - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To allow a reflector 2 to be seen shining from the outside when a light source 1 is lit. <P>SOLUTION: A projector type vehicular headlamp 10 is configured as follows. The light source 1 is arranged on or near a first focal point F1 of an elliptical reflecting surface 2a of the reflector 2. A focal point of a projector lens 4 is arranged on or near a second focal point F2 of the elliptical reflecting surface 2a. The reflector 2 and the projector lens 4 are connected to each other via a lens holder 5. The reflector 2, the projector lens 4, and the lens holder 5 are made of a translucent material. Vapor-deposited films 2a1, 5a1 are respectively formed on each inside surface of the reflector 2 and the lens holder 5 so as to form each reflecting surface 2a, 5a. The reflector 2 can be seen shining from the outside by light transmitting through the vapor-deposited film 2a1 of the reflector 2 when the light source 1 is lit. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a projector-type vehicle headlamp and a headlamp in which a reflector and a projection lens are connected via a lens holder, and in particular, the reflector can be seen from the outside when the light source is turned on. The present invention relates to a projector-type vehicle headlamp and a headlamp.

  Conventionally, a light source, a reflector having an elliptical reflecting surface for reflecting light from the light source, and a projection lens for projecting light from the elliptical reflecting surface of the reflector are provided. A light source is arranged on or near the first focal point, the focal point of the projection lens is arranged on or near the second focal point of the elliptical reflecting surface, and the reflector and the projection lens are connected via a lens holder (cylindrical body). Connected projector-type vehicle headlamps are known. As an example of this type of projector-type vehicle headlamp, for example, there is one described in FIG. 1 of JP-A-2006-202600.

  In the projector type vehicle headlamp described in FIG. 1 of JP-A-2006-202600, a projection lens and a lens holder (cylindrical body) are integrally formed of a resin material such as polycarbonate or acrylic. ing. Further, the reflector is formed of a resin material such as polycarbonate or acrylic. Further, an integrated product of the projection lens and the lens holder (cylindrical body) and the reflector are joined.

  Furthermore, in the projector type vehicle headlamp described in FIG. 1 of JP-A-2006-202600, an elliptical reflecting surface is formed by forming a vapor deposition film on the inner surface of the reflector. On the other hand, no vapor deposition film is formed on the inner surface of the lens holder (tubular body).

  Therefore, in the projector type vehicle headlamp described in FIG. 1 of Japanese Patent Application Laid-Open No. 2006-202600, when the light source is turned on, the lens holder (cylindrical body) appears to shine from the outside by the light from the light source.

  By the way, in the projector type vehicle headlamp described in FIG. 1 of Japanese Patent Application Laid-Open No. 2006-202600, the vapor deposition film is formed on the inner surface of the reflector, so that the light from the light source is reflected when the light source is turned on. The light is totally reflected by the vapor deposition film on the inner surface of the light source, or a part of light from the light source is absorbed by the vapor deposition film on the inner surface of the reflector. As a result, in the projector-type vehicle headlamp described in FIG. 1 of Japanese Patent Application Laid-Open No. 2006-202600, when the light source is turned on, the reflector cannot be seen from the outside by the light from the light source.

FIG. 1 of JP-A-2006-202600

  In view of the above problems, as a result of intensive research conducted by the present inventors, when setting the film thickness of the vapor deposition film formed on the inner surface of the reflector and the lens holder formed of the translucent material to a predetermined thickness, Most of the light from the light source is reflected by the deposited film on the inner surface of the reflector and lens holder, so that a sufficient amount of light is emitted from the projection lens and a part of the light from the light source is reflected by the reflector and the lens. It has been found that the vapor deposition film on the inner surface of the holder is allowed to pass through, so that the reflector and the lens holder become visible from the outside when the light source is turned on.

  That is, an object of the present invention is to provide a projector-type vehicle headlamp and a headlamp that can make the reflector appear to shine from the outside when the light source is turned on.

  According to the first aspect of the present invention, the light source (1), the reflector (2) having the elliptical reflecting surface (2a) for reflecting the light from the light source (1), and the ellipse of the reflector (2) A projection lens (4) for projecting light from the system reflection surface (2a), and a light source (1) is disposed on or near the first focal point (F1) of the elliptical reflection surface (2a). The focal point of the projection lens (4) is arranged on or near the second focal point (F2) of the elliptical reflecting surface (2a), and the reflector (2) and the projection lens (4) are connected via the lens holder (5). In the projector type vehicle headlamp (10) connected to the reflector (2), the reflector (2), the projection lens (4), and the lens holder (5) are formed of a translucent material, and the reflector (2) and the lens holder (5 ) On the inner surface of the film (2a1, 5a1) Thus, the reflecting surfaces (2a, 5a) for reflecting the light from the light source (1) to enter the projection lens (4) are formed, and the vapor deposition film of the reflector (2) is turned on when the light source (1) is turned on. There is provided a projector-type vehicle headlamp (10) characterized in that the reflector (2) appears to shine from the outside by light transmitted through (2a1).

  According to the second aspect of the present invention, when the light source (1) is turned on, the lens holder (5) can be seen from the outside by the light transmitted through the vapor deposition film (5a1) of the lens holder (5). A projector-type vehicle headlamp (10) according to claim 1 is provided.

  According to the third aspect of the present invention, the reflector (2) and the lens holder (5) serve as a light guide path for guiding the light incident inside the reflector (2) and the lens holder (5). The projector-type vehicle headlamp (10) according to claim 1 or 2, wherein the projector-type vehicle headlamp (10) is provided.

  According to the invention described in claim 4, the vapor deposition film (2a1) is formed on the inner surface of the reflector (2) so that a part of the light from the light source (1) is transmitted through the vapor deposition film (2a1) of the reflector (2). ) And a reflection cut portion (2c) for internally reflecting light transmitted through the vapor deposition film (2a1) on the inner surface of the reflector (2) is formed on the outer surface of the reflector (2). A projector-type vehicle headlamp (10) according to claim 3 is provided.

  According to the fifth aspect of the present invention, the auxiliary light for reflecting the light emitted backward from the light source (1) and allowing the light to enter the reflector (2) from the rear end (2b) of the reflector (2). The projector-type vehicle headlamp (10) according to claim 3, wherein the reflecting mirror (9) is arranged on the rear side of the light source (1).

  According to invention of Claim 6, the shade (3) which has the edge part (3a) for forming a cut-off line in a light distribution pattern is provided, and a reflector (2) and a lens holder (5) are made into one member. The lens holder (5) and the projection lens (4) are joined so that the light inside the lens holder (5) is incident on the projection lens (4), and the reflector (2) Light for entering the inside and reflecting the light emitted backward from the lower part (4b) of the projection lens (4) through the lens holder (5) to enter the inside of the projection lens (4) The projector-type vehicle headlamp (10) according to any one of claims 3 to 5, wherein the reflecting surface is formed on the front surface (3c) of the shade (3).

  According to the seventh aspect of the present invention, in the lamp chamber (20c) defined by the cover lens (20a) and the housing (20b) arranged so as to wrap around from the front surface of the vehicle body to the upper surface, The projector-type vehicle headlamp (10) according to any one of claims 6 is disposed, and a blade-like portion (6) extending rearward from a boundary portion between the lens holder (5) and the reflector (2) is provided. The projection lens (4) and the lens holder (5) can be visually recognized from the outside of the headlamp (20) through the cover lens (20a). The extensions (20d, 20e) are placed in the lamp chamber (20c) so that the reflector (2) can be seen from the outside through the cover lens (20a) and the blade-like portion (6). Headlamp (20) is provided, wherein.

  In the projector type vehicle headlamp (10) according to claim 1, a light source (1) and a reflector (2) having an elliptical reflecting surface (2a) for reflecting light from the light source (1); And a projection lens (4) for projecting light from the elliptical reflecting surface (2a) of the reflector (2).

  In the projector type vehicle headlamp (10) according to claim 1, the light source (1) is disposed on or near the first focal point (F1) of the elliptical reflecting surface (2a). Further, the focal point of the projection lens (4) is disposed on or near the second focal point (F2) of the elliptical reflecting surface (2a). Further, the reflector (2) and the projection lens (4) are connected via the lens holder (5).

  Specifically, in the projector type vehicle headlamp (10) according to the first aspect, the reflector (2), the projection lens (4), and the lens holder (5) are formed of a translucent material. Further, by forming the deposited films (2a1, 5a1) on the inner surfaces of the reflector (2) and the lens holder (5), the light from the light source (1) is reflected and incident on the projection lens (4). Reflective surfaces (2a, 5a) are formed.

  As a result, in the projector type vehicle headlamp (10) according to claim 1, when the light source (1) is turned on, the reflector (2) is exposed to the outside by the light transmitted through the vapor deposition film (2a1) of the reflector (2). It seems to shine from.

  That is, according to the projector type vehicle headlamp (10) according to the first aspect, the reflector (2) can be seen to shine from the outside when the light source (1) is turned on.

  In the projector type vehicle headlamp (10) according to claim 2, when the light source (1) is turned on, the lens holder (5) is moved from the outside by the light transmitted through the vapor deposition film (5a1) of the lens holder (5). Looks shining.

  That is, according to the projector type vehicle headlamp (10) according to the second aspect, the lens holder (5) can be seen from the outside when the light source (1) is turned on.

  In the projector-type vehicle headlamp (10) according to claim 3, the reflector (2) and the lens holder (5) guide the light incident on the inside of the reflector (2) and the lens holder (5). It has a function as a light guide for emitting light.

  Specifically, in the projector type vehicle headlamp (10) according to claim 4, the reflector is configured such that a part of the light from the light source (1) is transmitted through the deposited film (2a1) of the reflector (2). A vapor deposition film (2a1) is formed on the inner surface of (2). Further, a reflection cut portion (2c) for internally reflecting the light transmitted through the vapor deposition film (2a1) on the inner surface of the reflector (2) is formed on the outer surface of the reflector (2).

  In other words, in the projector type vehicle headlamp (10) according to claims 3 and 4, a part of the light from the light source (1) is deposited on the inner surface of the reflector (2) at a certain position. Is incident on the inside of the reflector (2), then reflected internally by the reflective cut (2c) on the outer surface of the reflector (2), and then the reflector (2) and / or the lens holder (5). The light is guided through the inside and then emitted through the outer surface of the reflector (2) or the lens holder (5) at a position different from the incident position of the light from the light source (1).

  Therefore, according to the projector type vehicle headlamp (10) according to claims 3 and 4, the straight line connecting the viewpoint of the observer and the light source (1) of the reflector (2) or the lens holder (5). The part away from the top can be seen to shine from the outside of the reflector (2) or the lens holder (5).

  In the projector type vehicle headlamp (10) according to claim 5, the light emitted rearward from the light source (1) is reflected, and the rear end (2b) of the reflector (2) is connected to the reflector (2). An auxiliary reflecting mirror (9) for entering the inside is arranged on the rear side of the light source (1).

  That is, in the projector-type vehicle headlamp (10) according to claim 5, the light emitted backward from the light source (1) is reflected by the auxiliary reflecting mirror (9), and the rear end of the reflector (2) The light is incident on the inside of the reflector (2) from the portion (2b).

  Therefore, according to the projector type vehicle headlamp (10) according to the fifth aspect, the light emitted from the light source (1) is more effective than the case where the light emitted backward from the light source (1) is not used. Utilization efficiency can be improved.

  Furthermore, according to the projector-type vehicle headlamp (10) according to claim 5, the lens holder (5) is turned on when the light source (1) is turned on, as compared with the case where the auxiliary reflecting mirror (9) is not provided. And the reflector (2) can appear bright and shiny from the outside.

  The projector type vehicle headlamp (10) according to claim 6 is provided with a shade (3) having an edge (3a) for forming a cut-off line in the light distribution pattern. Therefore, according to the projector type vehicle headlamp (10) described in claim 6, it is possible to form a light distribution pattern for a passing beam having a cut-off line.

  Furthermore, in the projector type vehicle headlamp (10) according to claim 6, the reflector (2) and the lens holder (5) are formed by one member, and the light inside the lens holder (5) is transmitted. The lens holder (5) and the projection lens (4) are joined so as to be incident on the inside of the projection lens (4). Further, the light reflected from the auxiliary reflecting mirror (9) is incident on the inside of the reflector (2) and reflected backward from the lower part (4b) of the projection lens (4) through the lens holder (5). Thus, a reflection surface for entering the projection lens (4) is formed on the front surface (3c) of the shade (3).

  As a result, in the projector type vehicle headlamp (10) according to claim 6, the light emitted backward from the lower portion (4b) of the projection lens (4) is transmitted to the front surface ( It is reflected by the reflecting surface formed in 3c) and returned to the inside of the projection lens (4). Then, the light is returned to the lens holder (5) or the reflector (2) and used as light for making the lens holder (5) or the reflector (2) appear to shine from the outside.

  That is, according to the projector-type vehicle headlamp (10) according to claim 6, the light emitted backward from the lower portion (4b) of the projection lens (4) is generated inside the projection lens (4). The use efficiency of light from the light source (1) can be improved as compared with the case where it is not returned to step (1).

  According to the headlamp (20) of the seventh aspect, the reflector (2) can be seen to shine from the outside of the headlamp (20) when the light source (1) is turned on.

1 is an exploded perspective view of a projector-type vehicle headlamp 10 according to a first embodiment. 1 is a perspective view of a projector-type vehicle headlamp 10 according to a first embodiment in an assembled state. It is sectional drawing of the projector type vehicle headlamp 10 of 1st Embodiment in the vertical plane containing the optical axis 10 'of the projector type vehicle headlamp. 1 is an optical path diagram of a projector-type vehicle headlamp 10 according to a first embodiment. 1 is an optical path diagram of a projector-type vehicle headlamp 10 according to a first embodiment. 1 is an optical path diagram of a projector-type vehicle headlamp 10 according to a first embodiment. 4 is a schematic vertical sectional view of a headlamp 20 to which the projector-type vehicle headlamp 10 according to the first embodiment shown in FIGS. 1 to 3 is applied. FIG. It is sectional drawing of the projector type vehicle headlamp 10 of 12th Embodiment in the vertical plane containing the optical axis 10 'of the projector type vehicle headlamp 10. FIG. It is sectional drawing of the projector type vehicle headlamp 10 of 13th Embodiment in the vertical plane containing the optical axis 10 'of the projector type vehicle headlamp 10. FIG. It is sectional drawing of the projector type vehicle headlamp 10 of 15th Embodiment in the vertical plane containing the optical axis 10 'of the projector type vehicle headlamp 10. FIG.

  Hereinafter, a first embodiment of a projector-type vehicle headlamp according to the present invention will be described. 1 is an exploded perspective view of the projector-type vehicle headlamp 10 according to the first embodiment, FIG. 2 is a perspective view of the projector-type vehicle headlamp 10 according to the first embodiment in an assembled state, and FIG. 1 is a cross-sectional view of the projector-type vehicle headlamp 10 according to the first embodiment in a vertical plane including an optical axis 10 ′ of the projector-type vehicle headlamp 10. FIG.

  In the projector-type vehicle headlamp 10 according to the first embodiment, as shown in FIGS. 1 to 3, for example, a semiconductor light-emitting element light source 1 such as an LED or an LD is mounted on a light source support 7. . In the projector-type vehicle headlamp 10 according to the second embodiment, a light source other than the semiconductor light emitting element light source can be used instead.

  Moreover, in the projector type vehicle headlamp 10 according to the first embodiment, as shown in FIGS. 1 to 3, a reflector 2 having an elliptical reflecting surface 2 a for reflecting light from the light source 1 is provided. ing. The elliptical reflecting surface 2a is constituted by a spheroidal surface obtained by rotating an elliptical arc around a predetermined axis, or a free-form surface based on a spheroidal surface. Furthermore, in the projector type vehicle headlamp 10 of the first embodiment, a projection lens 4 for projecting light from the elliptical reflecting surface 2a of the reflector 2 is provided.

  Furthermore, in the projector-type vehicle headlamp 10 of the first embodiment, as shown in FIG. 3, the light source 1 is arranged on or near the first focal point F1 of the elliptical reflecting surface 2a. Further, the focal point of the projection lens 4 is disposed on or near the second focal point F2 of the elliptical reflecting surface 2a.

  Moreover, in the projector type vehicle headlamp 10 according to the first embodiment, as shown in FIGS. 1 to 3, the reflector 2 and the projection lens 4 are connected via a lens holder 5. Further, the reflector 2, the projection lens 4, and the lens holder 5 are formed of a light-transmitting material such as a light-transmitting resin material or glass.

  In detail, in the projector type vehicle headlamp 10 of the first embodiment, as shown in FIG. 3, the reflector 2 and the lens holder 5 are formed by one member. Furthermore, the lens holder 5 and the projection lens 4 are joined together by, for example, adhesion or welding. In the projector-type vehicle headlamp 10 of the third embodiment, the reflector 2, the lens holder 5, and the projection lens 4 can be formed as one member instead.

  Further, in the projector-type vehicle headlamp 10 of the first embodiment, as shown in FIG. 3, a blade-like portion extending backward (rightward in FIG. 3) from the boundary portion between the reflector 2 and the lens holder 5. 6 is provided. Specifically, the reflector 2, the lens holder 5, and the blade-like portion 6 are formed as a single member. In the projector-type vehicle headlamp 10 according to the fourth embodiment, the blade-like portion 6 can be omitted instead.

  Furthermore, in the projector-type vehicle headlamp 10 according to the first embodiment, as shown in FIG. 3, an elliptical reflecting surface 2 a is formed by forming a vapor deposition film 2 a 1 on the inner surface of the reflector 2. Further, by forming a vapor deposition film 5 a 1 on the inner surface of the lens holder 5, a reflection surface 5 a for reflecting the light from the light source 1 and entering the projection lens 4 is formed.

  Moreover, in the projector type vehicle headlamp 10 of the first embodiment, as shown in FIGS. 1 and 3, the edge portion 3 a for forming a cut-off line in the light distribution pattern has an upper surface 3 b of the shade 3. It is formed at the boundary with the front surface 3c. Further, a reflection surface for reflecting the light from the elliptical reflection surface 2 a of the reflector 2 so as to enter the projection lens 4 is formed on the upper surface 3 b of the shade 3.

  Moreover, in the projector type vehicle headlamp 10 according to the first embodiment, as shown in FIGS. 1 to 3, the light source support 7 and the shade 3 are made of a heat conductive material such as an aluminum die cast. It is formed as one member with a good material. In the projector type vehicle headlamp 10 of the fifth embodiment, the light source support 7 and the shade 3 can be formed by separate members instead.

  4 to 6 are optical path diagrams of the projector-type vehicle headlamp 10 according to the first embodiment. Specifically, FIGS. 4A, 4B, and 6 show the projector-type vehicle headlamp according to the first embodiment in the vertical plane including the optical axis 10 ′ of the projector-type vehicle headlamp 10. FIG. 2 is an optical path diagram of the lamp 10. FIG. FIG. 5 is a schematic optical path diagram of the projector-type vehicle headlamp 10 according to the first embodiment when viewed from above.

  In the projector-type vehicle headlamp 10 of the first embodiment, as shown in FIG. 4A, the first focal point F1 (see FIG. 3) of the elliptical reflecting surface 2a of the reflector 2 in the light source 1 is included. Alternatively, the light emitted from the vicinity thereof and reflected by the elliptical reflecting surface 2a of the reflector 2 is on the second focal point F2 (the focal point of the projection lens 4) (see FIG. 3) of the elliptical reflecting surface 2a of the reflector 2 or its The light is once condensed in the vicinity, then incident on the projection lens 4, and the light L 1, L 2, L 3, L 4, L 5, L 6, L 7 is substantially parallel to the optical axis 10 ′ of the projector type vehicle headlamp 10. The light is emitted in the irradiation direction of the projector-type vehicle headlamp 10 (left side in FIG. 4A).

  In the projector-type vehicle headlamp 10 according to the first embodiment, as shown in FIG. 4A, the first focal point F1 of the elliptical reflecting surface 2a of the reflector 2 of the light source 1 (see FIG. 3). ) The light radiated from above or in the vicinity thereof and reflected by the reflecting surface 5a of the lens holder 5 is made incident on the projection lens 4, and becomes slightly downward light L8, L9, L10, L11, and the front of the projector type vehicle. Irradiation is in the irradiation direction of the lamp 10 (left side in FIG. 4A).

  Furthermore, in the projector type vehicle headlamp 10 of the first embodiment, as shown in FIG. 4A, the light L1, L2, L3, L4, L5, L6, L7, A cut-off line is formed by the edge 3a of the shade 3 in the light distribution pattern formed by L8, L9, L10, and L11.

  In the projector-type vehicle headlamp 10 according to the first embodiment, as shown in FIG. 4B, the first focal point F1 of the elliptical reflecting surface 2a of the reflector 2 of the light source 1 (see FIG. 3). ) Is reflected from the reflecting surface of the upper surface 3b of the shade 3 and is then incident on the projection lens 4 so that it can be projected into the projector-type vehicle. The light L12, L13, L14, L15, L16, and L17 substantially parallel to the optical axis 10 ′ of the headlamp 10 for the projector is used in the irradiation direction of the projector-type vehicle headlamp 10 (left side in FIG. 4B). Irradiated.

  Furthermore, in the projector-type vehicle headlamp 10 of the first embodiment, as shown in FIG. 4B, the projector-type vehicle headlamp 10 is formed by light L12, L13, L14, L15, L16, and L17 emitted from the projection lens 4. A cut-off line is formed by the edge 3a of the shade 3 in the light distribution pattern.

  Further, in the projector type vehicle headlamp 10 of the first embodiment, as shown in FIG. 5, of the light source 1, the first focal point F <b> 1 (see FIG. 3) of the elliptical reflecting surface 2 a of the reflector 2 or Light emitted from the vicinity thereof and reflected by the elliptical reflecting surface 2a of the reflector 2 is on or near the second focal point F2 (focal point of the projection lens 4) (see FIG. 3) of the elliptical reflecting surface 2a of the reflector 2. And then incident on the projection lens 4 to become light L18, L19, L20, L21, L22, L23, L24 substantially parallel to the optical axis 10 ′ of the projector type vehicle headlamp 10. Then, the light is irradiated in the irradiation direction of the projector-type vehicle headlamp 10 (the lower side in FIG. 5).

  Furthermore, in the projector-type vehicle headlamp 10 of the first embodiment, as shown in FIG. 5, of the light source 1, the first focal point F <b> 1 (see FIG. 3) of the elliptical reflecting surface 2 a of the reflector 2 or Light emitted from the vicinity thereof and reflected by the reflecting surface 5a (see FIG. 3) of the lens holder 5 (see FIG. 3) is incident on the projection lens 4 and diffused in the horizontal direction (left and right direction in FIG. 5). The light L25, L26, L27, and L28 is emitted in the irradiation direction of the projector-type vehicle headlamp 10 (the lower side in FIG. 5).

  Further, in the projector type vehicle headlamp 10 of the first embodiment, as shown in FIG. 6, a part of the light from the light source 1 passes through the vapor deposition film 2 a 1 of the reflector 2 and the vapor deposition film 5 a 1 of the lens holder 5. Thus, the vapor deposition film 2a1 of the reflector 2 and the vapor deposition film 5a1 of the lens holder 5 are formed.

  Specifically, in the projector-type vehicle headlamp 10 according to the first embodiment, as shown in FIG. 6, light L29 and L30 emitted from the light source 1 and transmitted through the vapor deposition film 2a1 of the reflector 2 are The light is irradiated on the rear upper side (upper right side in FIG. 6) of the projector-type vehicle headlamp 10. As a result, in the projector-type vehicle headlamp 10 according to the first embodiment, when the light source 1 is turned on, the rear side of the reflector 2 (right side in FIG. 6) by the lights L29 and L30 transmitted through the vapor deposition film 2a1 of the reflector 2. The portion appears to shine from the outside of the reflector 2 (right side in FIG. 6).

  Moreover, in the projector type vehicle headlamp 10 of the first embodiment, as shown in FIG. 6, the light is emitted from the light source 1, is allowed to pass through the deposited film 2 a 1 of the reflector 2, and then passes through the blade-like portion 6. The caulked light L31, L32, L33, L34, L35, and L36 is irradiated on the upper side of the projector-type vehicle headlamp 10 (upper side in FIG. 6). As a result, in the projector-type vehicle headlamp 10 according to the first embodiment, when the light source 1 is turned on, the light L31, L32, L33, L34, L35 transmitted through the vapor deposition film 2a1 and the blade-like portion 6 of the reflector 2 Due to L36, the upper part (upper side in FIG. 6) of the reflector 2 appears to shine through the blade-like part 6 from the outer side (upper side in FIG. 6) of the reflector 2.

  Furthermore, in the projector type vehicle headlamp 10 of the first embodiment, as shown in FIG. 6, the light L37, L38, L39, which is emitted from the light source 1 and transmitted through the vapor deposition film 5a1 of the lens holder 5, L40 is irradiated on the upper side (upper side in FIG. 6) of the projector-type vehicle headlamp 10. As a result, in the projector type vehicle headlamp 10 according to the first embodiment, when the light source 1 is turned on, the lens holder 5 is moved outside by the light L37, L38, L39, and L40 transmitted through the vapor deposition film 5a1 of the lens holder 5 ( It appears to shine from the upper side of FIG.

  That is, according to the projector-type vehicle headlamp 10 of the first embodiment, when the light source 1 is turned on, the lens holder 5 appears to shine from the outside, and the reflector 2 appears to shine from the outside. can do.

  FIG. 7 is a schematic vertical sectional view of a headlamp 20 to which the projector type vehicle headlamp 10 of the first embodiment shown in FIGS. 1 to 3 is applied. In the headlamp 20 shown in FIG. 7, the projector-type vehicle headlamp according to the first embodiment is placed in a lamp chamber 20c defined by a cover lens 20a and a housing 20b arranged so as to wrap around from the front surface of the vehicle body to the upper surface. A lamp 10 is arranged.

  Further, in the headlamp 20 shown in FIG. 7, the projection lens 4 and the lens holder 5 can be visually recognized from the outside of the headlamp 20 through the cover lens 20a, and the cover lens 20a and the blades can be seen from the outside of the headlamp 20. Extensions 20d and 20e are arranged in the lamp chamber 20c so that the reflector 2 can be visually recognized through the shaped portion 6. Further, the heat generated by the light source 1 is transferred to the heat radiating fins 8 and the heat sink (not shown) through the light source support 7 and is radiated from the heat radiating fins 8 and the heat sink.

  Further, in the headlamp 20 shown in FIG. 7, the projector-type vehicle headlamp 10 of the first embodiment as an optical module for a passing beam includes, for example, an aiming screw (not shown) and a ball joint (not shown). The optical axis 10 ′ is connected to the housing 20 b via the via.

  In the projector-type vehicle headlamp 10 according to the first embodiment, the shade 3 having the edge 3a is provided, and the projector-type vehicle headlamp 10 according to the first embodiment is configured as a low beam optical module. However, in the projector-type vehicle headlamp 10 of the sixth embodiment, the shade 3 is omitted and the projector-type vehicle headlamp 10 of the sixth embodiment is used as an optical module for a traveling beam. It is also possible to configure.

  Table 1 is a table showing the results of research by the present inventors. Specifically, Table 1 is a table showing the evaluation results of the transmission effect and the reflection effect of the vapor deposition films 2a1 and 5a1 of the reflector 2 and the lens holder 5.

In the research by this inventor, Al was used as a material of the vapor deposition films 2a1 and 5a1 of the reflector 2 and the lens holder 5. An LED having 50 cd / mm ² luminance was used as the light source 1. Further, in the research by the present inventors, as shown in Table 1, when the film thicknesses of the vapor deposition films 2a1 and 5a1 of the reflector 2 and the lens holder 5 are 275 mm or more, the vapor deposition films 2a1 and 5a1 of the reflector 2 and the lens holder 5 are used. The reflectance was 85% or more, and a sufficient amount of light could be irradiated from the projection lens 4.

  Further, in the research by the present inventor, as shown in Table 1, when the film thickness of the deposited films 2a1 and 5a1 of the reflector 2 and the lens holder 5 is 400 mm or less, the light transmittance from the light source 1 is 0.2. % Or more. Moreover, when the transmittance | permeability of the light from the light source 1 was 50% or less, it has confirmed that the light which permeate | transmitted the vapor deposition films 2a1 and 5a1 of the reflector 2 and the lens holder 5 did not become glare light.

  That is, as a result of intensive studies by the inventor, as shown in Table 1, the film thicknesses of the Al vapor deposition films 2a1 and 5a1 formed on the inner surface of the reflector 2 and the lens holder 5 formed of a translucent material. Is set to 275 mm or more and 400 mm or less, most of the light from the light source 1 is reflected by the Al vapor deposition films 2a1 and 5a1 on the inner surface of the reflector 2 and the lens holder 5, and thereby a sufficient amount of light is projected. In addition, a part of the light from the light source 1 is transmitted through the vapor deposition films 2a1 and 5a1 on the inner surface of the reflector 2 and the lens holder 5, so that the reflector 2 and the lens holder 5 are turned on when the light source 1 is turned on. It was found that became visible from the outside.

  By the way, the film thickness of the Al vapor deposition film on the inner surface of the reflector and lens holder that is generally used conventionally is 500 mm or more. That is, the Al vapor deposition film on the inner surface of the reflector and lens holder that has been generally used conventionally cannot be applied to the vapor deposition films 2a1 and 5a1 on the inner surface of the reflector 2 and the lens holder 5 of the present invention.

  In the projector-type vehicle headlamp 10 of the first embodiment, for example, Al deposited films 2a1 and 5a1 are formed on the inner surfaces of the reflector 2 and the lens holder 5, but for the projector-type vehicle of the seventh embodiment. In the headlamp 10, it is also possible to form arbitrary known vapor deposition films 2 a 1 and 5 a 1 other than the Al vapor deposition film on the inner surfaces of the reflector 2 and the lens holder 5 instead.

  Further, in the projector type vehicle headlamp 10 of the first embodiment, the deposition films 2a1 and 5a1 on the inner surface of the reflector 2 and the lens holder 5 are formed by a deposition method such as vacuum deposition and sputtering. In the projector type vehicle headlamp 10 according to the eighth embodiment, instead, vapor deposition films 2a1 and 5a1 on the inner surfaces of the reflector 2 and the lens holder 5 are formed by any known vapor deposition method other than vacuum vapor deposition and sputtering. It is also possible.

  Furthermore, in the projector type vehicle headlamp 10 of the first embodiment, the vapor deposition films 2a1 and 5a1 are directly formed on the inner surfaces of the reflector 2 and the lens holder 5, but the projector type of the ninth embodiment. In the vehicle headlamp 10, instead, an undercoat for improving the adhesion of the vapor deposition films 2a1 and 5a1 is formed between the inner surfaces of the reflector 2 and the lens holder 5 and the vapor deposition films 2a1 and 5a1. Is also possible.

  Further, in the projector type vehicle headlamp 10 of the first embodiment, the vapor deposition films 2a1 and 5a1 on the inner surfaces of the reflector 2 and the lens holder 5 are exposed, but the projector type vehicle of the tenth embodiment. In the headlamp 10, instead, an overcoat as a protective film can be formed on the vapor deposition films 2 a 1 and 5 a 1 on the inner surfaces of the reflector 2 and the lens holder 5.

  Furthermore, in the projector type vehicle headlamp 10 of the first embodiment, the entire outer surfaces of the reflector 2 and the lens holder 5 are formed by smooth surfaces, but for the projector type vehicle of the eleventh embodiment. In the headlamp 10, instead, it is also possible to form a transmitted light scattering portion such as a texture or a roughened portion on at least a part of the outer surfaces of the reflector 2 and the lens holder 5. According to the projector type vehicle headlamp 10 of the eleventh embodiment, the light transmitted through the outer surfaces of the reflector 2 and the lens holder 5 is scattered on the outer surfaces of the reflector 2 and the lens holder 5, thereby The reflector 2 and the lens holder 5 can be seen from a wide area outside the reflector 2 and the lens holder 5.

  FIG. 8 is a sectional view of the projector-type vehicle headlamp 10 according to the twelfth embodiment in the vertical plane including the optical axis 10 ′ of the projector-type vehicle headlamp 10. Specifically, FIG. 8 is an optical path diagram of the projector-type vehicle headlamp 10 according to the twelfth embodiment.

  In the projector-type vehicle headlamp 10 according to the twelfth embodiment, as shown in FIG. 8, the reflector 2 and the lens holder 5 are incident on the reflectors 2 and the lens holder 5 with light L44, L45, and L46. , L47 has a function as a light guide for guiding light. Specifically, the vapor deposition film 2a1 is formed on the inner surface of the reflector 2 so that part of the light L44, L45, L46, and L47 from the light source 1 passes through the vapor deposition film 2a1 of the reflector 2. Further, a reflection cut portion 2c for internally reflecting the light L44, L45, L46, and L47 transmitted through the vapor deposition film 2a1 on the inner surface of the reflector 2 is formed on the outer surface of the reflector 2.

  That is, in the projector type vehicle headlamp 10 of the twelfth embodiment, as shown in FIG. 8, a part of the light L44 from the light source 1 passes through the vapor deposition film 2a1 on the inner surface of the reflector 2 at a certain position. Is incident on the inside of the reflector 2 and then internally reflected by the reflection cut portion 2c on the outer surface of the reflector 2 to become reflected light L44b. Next, the reflected light L44b is guided through the reflector 2 and the lens holder 5, and then emitted through the outer surface of the lens holder 5 at a position different from the incident position of the light L44 from the light source 1. On the other hand, a part of the light L44 incident on the inside of the reflector 2 through the vapor deposition film 2a1 on the inner surface of the reflector 2 is transmitted through the reflection cut portion 2c on the outer surface of the reflector 2, and becomes transmitted light L44a. Is irradiated.

  Further, in the projector type vehicle headlamp 10 of the twelfth embodiment, as shown in FIG. 8, a part of light L45 from the light source 1 passes through the vapor deposition film 2a1 on the inner surface of the reflector 2 at a certain position. Is incident on the inside of the reflector 2 and then internally reflected by the reflection cut portion 2c on the outer surface of the reflector 2 to become reflected light L45b. Next, the reflected light L45b is guided through the reflector 2 and the lens holder 5, and then emitted through the outer surface of the lens holder 5 at a position different from the incident position of the light L45 from the light source 1. On the other hand, a part of the light L45 incident on the inside of the reflector 2 through the vapor deposition film 2a1 on the inner surface of the reflector 2 is transmitted through the reflection cut portion 2c on the outer surface of the reflector 2, and becomes transmitted light L45a. Is irradiated.

  Furthermore, in the projector type vehicle headlamp 10 of the twelfth embodiment, as shown in FIG. 8, a part of the light L46 from the light source 1 passes through the vapor deposition film 2a1 on the inner surface of the reflector 2 at a certain position. Then, the light is incident on the inside of the reflector 2, and is then internally reflected by the reflection cut portion 2 c on the outer surface of the reflector 2 to become reflected light L 46 b. Next, the reflected light L46b is guided through the reflector 2 and the lens holder 5, and then emitted through the outer surface of the lens holder 5 at a position different from the incident position of the light L46 from the light source 1. On the other hand, a part of the light L46 incident on the inside of the reflector 2 through the vapor deposition film 2a1 on the inner surface of the reflector 2 is transmitted through the reflection cut portion 2c on the outer surface of the reflector 2, and becomes transmitted light L46a. Is irradiated.

  Furthermore, in the projector type vehicle headlamp 10 of the twelfth embodiment, as shown in FIG. 8, a part of light L47 from the light source 1 passes through the vapor deposition film 2a1 on the inner surface of the reflector 2 at a certain position. Then, the light is incident on the inside of the reflector 2 and is then internally reflected by the reflection cut portion 2c on the outer surface of the reflector 2 to become reflected light L47b. Next, the reflected light L47b is guided through the reflector 2 and the lens holder 5, and then emitted through the outer surface of the lens holder 5 at a position different from the incident position of the light L47 from the light source 1. On the other hand, a part of the light L47 incident on the inside of the reflector 2 through the vapor deposition film 2a1 on the inner surface of the reflector 2 is transmitted through the reflection cut portion 2c on the outer surface of the reflector 2, and becomes transmitted light L47a. Is irradiated.

  FIG. 9 is a cross-sectional view of the projector-type vehicle headlamp 10 of the thirteenth embodiment in the vertical plane including the optical axis 10 ′ of the projector-type vehicle headlamp 10. Specifically, FIG. 9 is an optical path diagram of the projector-type vehicle headlamp 10 according to the thirteenth embodiment.

  In the projector-type vehicle headlamp 10 of the thirteenth embodiment, as shown in FIG. 9, the light emitted backward (rightward in FIG. 9) from the light source 1 is reflected, and the rear end 2b of the reflector 2 is reflected. An auxiliary reflecting mirror 9 for allowing the light to enter the reflector 2 is disposed on the rear side (right side in FIG. 9) of the light source 1. That is, in the projector-type vehicle headlamp 10 according to the thirteenth embodiment, the light emitted backward from the light source 1 is reflected by the auxiliary reflecting mirror 9, and enters the reflector 2 from the rear end 2 b of the reflector 2. Incident. Therefore, according to the projector type vehicle headlamp 10 of the thirteenth embodiment, the utilization efficiency of the light emitted from the light source 1 is improved as compared with the case where the light emitted backward from the light source 1 is not used. Can do.

  Specifically, in the projector type vehicle headlamp 10 according to the thirteenth embodiment, as shown in FIG. 9, the light L41 radiated rearward (rightward in FIG. 9) from the light source 1 is transmitted by the auxiliary reflector 9. The light is reflected, is incident on the inside of the reflector 2 from the rear end portion 2 b of the reflector 2, and is guided by the reflector 2. Specifically, a part of the light L41 is internally reflected by the outer surface of the reflector 2, then transmitted through the outer surface of the reflector 2, and then transmitted through the wing-like portion 6 to become the light L41a. The light is irradiated on the upper side of the projector-type vehicle headlamp 10 (upper side in FIG. 9).

  Further, in the projector type vehicle headlamp 10 of the thirteenth embodiment, as shown in FIG. 9, a part of the light L41 incident on the inside of the reflector 2 from the rear end portion 2b of the reflector 2 is reflected by the reflector. The inner surface is reflected twice by the outer surface 2, then transmitted through the outer surface of the reflector 2, then transmitted through the blade 6, and becomes light L 41 b on the upper side of the projector-type vehicle headlamp 10 ( Irradiated to the upper side of FIG.

  Furthermore, in the projector type vehicle headlamp 10 according to the thirteenth embodiment, as shown in FIG. 9, a part of the light L41 incident on the inside of the reflector 2 from the rear end portion 2b of the reflector 2 is reflected by the reflector. The inner surface is reflected three times by the outer surface of 2 and then guided by the lens holder 5. Specifically, the light internally reflected three times by the outer surface of the reflector 2 is transmitted through the outer surface of the lens holder 5 and becomes the light L41c, which is the front side of the projector-type vehicle headlamp 10 (the left side in FIG. 9). ).

  In the projector-type vehicle headlamp 10 according to the thirteenth embodiment, as shown in FIG. 9, the light L42 radiated rearward (rightward in FIG. 9) from the light source 1 is reflected by the auxiliary reflecting mirror 9. The light is incident on the inside of the reflector 2 from the rear end portion 2 b of the reflector 2 and guided by the reflector 2. Specifically, a part of the light L42 is transmitted through the outer surface of the reflector 2 and then transmitted through the blade-like portion 6 to become light L42a on the upper side of the projector-type vehicle headlamp 10 (see FIG. 9).

  Furthermore, in the projector-type vehicle headlamp 10 according to the thirteenth embodiment, as shown in FIG. 9, a part of the light L42 incident on the inside of the reflector 2 from the rear end portion 2b of the reflector 2 is reflected by the reflector. 2 is reflected by the outer surface of the reflector 2, then transmitted through the outer surface of the reflector 2, and then transmitted through the wing-like portion 6, and becomes light L42b above the projector-type vehicle headlamp 10 (FIG. 9). Is irradiated on the upper side).

  Further, in the projector type vehicle headlamp 10 of the thirteenth embodiment, as shown in FIG. 9, a part of the light L42 incident on the inside of the reflector 2 from the rear end portion 2b of the reflector 2 is reflected by the reflector. Internally reflected twice by two outer surfaces and then guided by the lens holder 5. Specifically, the light that has been internally reflected twice by the outer surface of the reflector 2 is transmitted through the outer surface of the lens holder 5 and becomes the light L42c to the front side of the projector-type vehicle headlamp 10 (the left side of FIG. ).

  Furthermore, in the projector-type vehicle headlamp 10 according to the thirteenth embodiment, as shown in FIG. 9, the light L 43 radiated rearward (rightward in FIG. 9) from the light source 1 is reflected by the auxiliary reflecting mirror 9. The light is incident on the inside of the reflector 2 from the rear end portion 2 b of the reflector 2 and guided by the reflector 2. Specifically, a part of the light L43 is transmitted through the outer surface of the reflector 2, and then transmitted through the blade-like portion 6, and becomes light L43a on the upper side of the projector-type vehicle headlamp 10 (see FIG. 9).

  Further, in the projector type vehicle headlamp 10 according to the thirteenth embodiment, as shown in FIG. 9, a part of the light L43 incident on the inside of the reflector 2 from the rear end portion 2b of the reflector 2 is reflected by the reflector. 2 is reflected by the inner surface of the reflector 2, and then is reflected by the inner surface of the reflector 2, and then is transmitted through the outer surface of the reflector 2, and then is transmitted through the wing 6 to become the light L43b. Irradiation is performed on the upper side (the upper side in FIG. 9) of the type vehicle headlamp 10.

  Furthermore, in the projector type vehicle headlamp 10 of the thirteenth embodiment, as shown in FIG. 9, a part of the light L43 incident on the inside of the reflector 2 from the rear end 2b of the reflector 2 is reflected by the reflector. 2 is then internally reflected by the inner surface of the reflector 2, then internally reflected by the outer surface of the reflector 2, then internally reflected by the inner surface of the reflector 2, and then the lens holder 5 Is guided by. Specifically, the light internally reflected by the inner surface of the reflector 2 is transmitted through the outer surface of the lens holder 5 and becomes light L43c on the upper side of the projector-type vehicle headlamp 10 (upper side in FIG. 9). Irradiated.

  Further, in the projector type vehicle headlamp 10 according to the thirteenth embodiment, as shown in FIG. 9, a part of the light L43 incident on the inside of the reflector 2 from the rear end portion 2b of the reflector 2 is reflected by the reflector. 2 is then internally reflected by the inner surface of the reflector 2, then internally reflected by the outer surface of the reflector 2, then internally reflected by the inner surface of the reflector 2, and then the lens holder 5 Is guided by. Specifically, the light internally reflected by the inner surface of the reflector 2 is internally reflected by the outer surface of the lens holder 5, is then internally reflected by the inner surface of the lens holder 5, and then passes through the outer surface of the lens holder 5. The light is transmitted and becomes light L43d, which is irradiated on the upper side of the projector-type vehicle headlamp 10 (upper side in FIG. 9).

  That is, according to the projector-type vehicle headlamp 10 of the thirteenth embodiment, the lens holder 5 and the reflector 2 shine brightly from the outside when the light source 1 is turned on, compared to the case where the auxiliary reflector 9 is not provided. Can be seen.

  In the projector type vehicle headlamp 10 of the thirteenth embodiment, the shade 3 having the edge 3a is provided, and the projector type vehicle headlamp 10 of the thirteenth embodiment is configured as a low beam optical module. However, in the projector-type vehicle headlamp 10 according to the fourteenth embodiment, the shade 3 is omitted, and the projector-type vehicle headlamp 10 according to the fourteenth embodiment is used as the traveling beam optical module. It is also possible to configure.

  FIG. 10 is a cross-sectional view of the projector-type vehicle headlamp 10 according to the fifteenth embodiment in the vertical plane including the optical axis 10 ′ of the projector-type vehicle headlamp 10. Specifically, FIG. 10 is an optical path diagram of the projector-type vehicle headlamp 10 according to the fifteenth embodiment.

  In the projector-type vehicle headlamp 10 of the fifteenth embodiment, as shown in FIG. 10, the light emitted backward (rightward in FIG. 10) from the light source 1 is reflected, and the rear end 2 b of the reflector 2 is reflected. An auxiliary reflecting mirror 9 for entering the reflector 2 is disposed on the rear side (right side in FIG. 10) of the light source 1.

  Furthermore, in the projector-type vehicle headlamp 10 according to the fifteenth embodiment, as shown in FIG. 10, the reflector 2 and the lens holder 5 are formed as one member, and the light inside the lens holder 5 is projected. The lens holder 5 and the projection lens 4 are bonded so as to be incident on the inside of the lens 4. Further, the light L42d and L43e reflected from the auxiliary reflecting mirror 9 and reflected by the reflector 2 and the lens holder 5 and emitted backward from the lower portion 4b of the projection lens 4 are reflected. A reflection surface for entering the inside of the projection lens 4 is formed on the front surface 3 c of the shade 3.

  Specifically, in the projector-type vehicle headlamp 10 according to the fifteenth embodiment, as shown in FIG. 10, a part of the light L 42 incident on the inside of the reflector 2 from the rear end 2 b of the reflector 2 is obtained. , Twice internally reflected by the outer surface of the reflector 2, then internally reflected by the outer surface of the lens holder 5, then internally reflected by the outer surface of the upper part 4 a of the projection lens 4 and then under the projection lens 4 The light is internally reflected twice by the outer surface of the side portion 4b, then becomes light L42d, emitted backward from the lower portion 4b of the projection lens 4, and then reflected by the front surface 3c of the shade 3, It is incident inside.

  Further, in the projector-type vehicle headlamp 10 according to the fifteenth embodiment, as shown in FIG. 10, a part of the light L43 incident on the inside of the reflector 2 from the rear end 2b of the reflector 2 is reflected by the reflector. 2 is then internally reflected by the inner surface of the reflector 2, then internally reflected by the outer surface of the reflector 2, then internally reflected by the inner surface of the reflector 2, and then the lens holder 5 Are then internally reflected by the inner surface of the lens holder 5, then internally reflected by the outer surface of the lens holder 5, then internally reflected by the inner surface of the lens holder 5, and then the lens. Internally reflected by the outer surface of the holder 5 and then on the inner surface of the lens holder 5 Is then internally reflected by the outer surface of the upper portion 4a of the projection lens 4, and then internally reflected by the outer surface of the lower portion 4b of the projection lens 4, and then becomes the light L43e. 4 is emitted rearward from the lower portion 4 b of the lens 4, and then reflected by the front surface 3 c of the shade 3 and is incident on the inside of the projection lens 4.

  That is, in the projector type vehicle headlamp 10 according to the fifteenth embodiment, as shown in FIG. 10, the light L42d and L43e emitted backward from the lower portion 4b of the projection lens 4 is the front surface of the shade 3. The light is reflected by the reflecting surface formed on 3c and returned to the inside of the projection lens 4. Then, the light is returned to the lens holder 5 or the reflector 2 and used as light for making the lens holder 5 or the reflector 2 appear to shine from the outside.

  In other words, according to the projector type vehicle headlamp 10 of the fifteenth embodiment, the light L42d and L43e emitted backward from the lower portion 4b of the projection lens 4 is not returned to the inside of the projection lens 4. Moreover, the utilization efficiency of the light from the light source 1 can be improved.

  In the sixteenth embodiment, the first to fifteenth embodiments described above can be combined as appropriate.

DESCRIPTION OF SYMBOLS 1 Light source 2 Reflector 2a Elliptic reflection surface 2a1 Deposition film 4 Projection lens 5 Lens holder 5a Reflection surface 5a1 Deposition film 10 Projector type vehicle headlamp

Claims (7)

A light source (1);
A reflector (2) having an elliptical reflecting surface (2a) for reflecting light from the light source (1);
A projection lens (4) for projecting light from the elliptical reflecting surface (2a) of the reflector (2);
A light source (1) is disposed on or near the first focal point (F1) of the elliptical reflecting surface (2a);
Placing the focal point of the projection lens (4) on or near the second focal point (F2) of the elliptical reflecting surface (2a);
In the projector-type vehicle headlamp (10) in which the reflector (2) and the projection lens (4) are connected via the lens holder (5),
The reflector (2), the projection lens (4), and the lens holder (5) are formed of a translucent material,
Reflective surface for reflecting the light from the light source (1) to enter the projection lens (4) by forming the deposited films (2a1, 5a1) on the inner surfaces of the reflector (2) and the lens holder (5) (2a, 5a)
A projector-type vehicle headlamp (10) characterized in that when the light source (1) is turned on, the reflector (2) appears to shine from the outside by the light transmitted through the vapor deposition film (2a1) of the reflector (2). ).   2. The projector according to claim 1, wherein when the light source (1) is turned on, the lens holder (5) is seen from the outside by the light transmitted through the vapor deposition film (5 a 1) of the lens holder (5). Type vehicle headlamp (10).   The reflector (2) and the lens holder (5) have a function as a light guide for guiding the light incident on the reflector (2) and the lens holder (5). The projector-type vehicle headlamp (10) according to 1 or 2. Forming a vapor deposition film (2a1) on the inner surface of the reflector (2) so that a part of the light from the light source (1) is transmitted through the vapor deposition film (2a1) of the reflector (2);
The reflection cut portion (2c) for internally reflecting the light transmitted through the vapor deposition film (2a1) on the inner surface of the reflector (2) is formed on the outer surface of the reflector (2). Projector type vehicle headlamp (10).   The auxiliary reflector (9) for reflecting the light emitted backward from the light source (1) and entering the reflector (2) from the rear end (2b) of the reflector (2) is provided on the light source (1). The projector-type vehicle headlamp (10) according to claim 3, wherein the projector-type vehicle headlamp (10) is disposed on the rear side. Provide a shade (3) having an edge (3a) for forming a cut-off line in the light distribution pattern,
The reflector (2) and the lens holder (5) are formed as one member, and the lens holder (5) and the projection are projected so that the light inside the lens holder (5) is incident on the projection lens (4). Join the lens (4)
The light incident on the inside of the reflector (2) and reflected backward from the lower part (4b) of the projection lens (4) through the lens holder (5) is reflected to reflect the inside of the projection lens (4). The projector-type vehicle headlamp (10) according to any one of claims 3 to 5, characterized in that a reflection surface for incidence on the front surface (3c) of the shade (3) is formed. The projector type according to any one of claims 1 to 6, wherein the projector type is located in a lamp chamber (20c) defined by a cover lens (20a) and a housing (20b) arranged so as to wrap around from the front surface of the vehicle body to the upper surface. Place the vehicle headlamp (10),
A wing-like portion (6) extending backward from the boundary portion between the lens holder (5) and the reflector (2) is formed of a translucent material,
The projection lens (4) and the lens holder (5) can be visually recognized from the outside of the headlamp (20) through the cover lens (20a), and the cover lens (20a) and the lens from the outside of the headlamp (20). A headlamp (20) characterized in that extensions (20d, 20e) are arranged in a lamp chamber (20c) so that the reflector (2) can be visually recognized through the blade-like portion (6).

Images