JP5990977B2 - Vehicle headlamp - Google Patents

Description

  The present invention relates to a vehicular headlamp including a light distribution switching type projector lamp that switches and irradiates a plurality of light distribution patterns in accordance with a traveling state of the vehicle.

  For example, a vehicular headlamp used as a headlamp of a vehicle includes a lamp chamber including a housing having an opening formed in front of the vehicle and a front lens that closes the opening of the housing, and a projector is provided in the lamp chamber. A type lamp is arranged.

  The projector-type lamp includes at least a light source including a bulb, a reflector having a reflective surface for irradiating light from the light source forward, a projection lens disposed in front of the reflective surface, and a rear of the projection lens. The light from the projector type lamp irradiated from the projection lens is irradiated to the front of the vehicle through the front lens of the lamp chamber.

  For example, as disclosed in Patent Document 1 below, a cut-off line of the light distribution pattern is formed by the upper edge of the movable shade. The movable shade is supported by the light distribution switching means so as to be movable in the vertical direction, and a reflection surface for overhead sign irradiation is formed in front of the fixed shade between the projection lens and the movable shade.

  The reflective surface for irradiating overhead sign disclosed in Patent Document 1 below reflects a part of light which is not used originally from the notch portion of the fixed shade upward, and also in the case of a low beam light distribution pattern. Can be irradiated. Moreover, the groove part along a front-back direction can be formed in the horizontal direction center part in a reflective surface, and the light quantity of the horizontal direction center part where a light quantity tends to concentrate can be suppressed.

JP 2008-004456 A

  In the configuration as in Prior Art Document 1, the reflection surface for overhead sign irradiation is formed on the upper surface of the protrusion, and a part of light incident from the notch portion of the fixed shade is used as overhead sign irradiation. Therefore, even in the projector type lamp, it is possible to distribute overhead sign irradiation without reducing the amount of light of the passing light distribution pattern.

  In addition, the reflective surface for overhead sign illumination has a groove along the front-rear direction at the center in the horizontal direction, which suppresses the amount of light at the center in the horizontal direction where the amount of light tends to concentrate, and provides overhead sign illumination with excellent visibility. It was possible to distribute light.

  However, the reflection surface for overhead sign irradiation in the prior art document 1 is provided on the upper surface of the protrusion, and has a configuration that simply reflects light passing through the notch.

  Therefore, the light passing through the notch portion of the fixed shade is not shaped to efficiently enter the reflecting surface for overhead irradiation. Further, the light passing through the notch portion of the fixed shade is merely irradiated upward, and the light distribution pattern of overhead sign irradiation is not irradiated as an optimal light distribution pattern.

  Therefore, the present invention has been made in view of the above-described problems, and can efficiently use light from a light source and irradiate an optimal light distribution pattern excellent in visibility as overhead sign irradiation. The purpose is to provide lighting.

  In order to solve the above-described problems, a light source, a reflector having a reflecting surface that reflects light from the light source toward the front of the vehicle, a projection lens that transmits reflected light from the reflecting surface and irradiates forward, and the reflector A movable shade that switches between a passing light distribution pattern and a traveling light distribution pattern by blocking a part of the reflected light from the reflecting surface, and an arrangement for moving the movable shade. In the vehicle headlamp provided with the light switching means, a fixed shade that shields light that is not shielded by the movable shade among the reflected light from the reflective surface is provided between the projection lens and the movable shade. A second reflecting surface is formed on the surface of the fixed shade so as to be wider from the movable shade side toward the projection lens side; And wherein the door

  The second reflecting surface is divided into two parts by providing a groove in the center along the lamp optical axis. Each of the divided reflecting surfaces is wide on the projection lens side and narrow on the movable shade side. It is characterized by being formed.

  The upper end edge of the fixed shade is located above the upper surface of the light distribution switching means, the upper end edge of the fixed shade is formed in a circular arc shape curved to the lower side of the vehicle, and the second reflecting surface is the fixed surface The shade is formed from the upper edge to the lower edge of the shade.

  The movable shade includes a first shade formed on the light source side and a second shade formed on the projection lens side. The first shade is provided substantially vertically, and the second shade has a lower end edge at an upper end. It is arranged on the lens side with respect to the edge, and an additional reflection surface is formed on the opposing surface of the first shade and the second shade.

  According to the present invention, there is provided a projector-type lamp capable of efficiently making light incident on a reflecting surface for overhead sign irradiation and forming a light distribution pattern of overhead sign irradiation as a light distribution pattern having excellent visibility. A vehicle headlamp is provided.

1 is a front view showing a projector type lamp 1 according to the present invention. Sectional drawing showing the AA cross section in FIG. 1 is an enlarged perspective view showing the inside of a projector type lamp 1 according to the present invention. The figure which shows the light distribution pattern for passing and the light distribution pattern of overhead sign irradiation of this invention. The figure which shows the light distribution pattern for passing and the light distribution pattern of overhead sign irradiation in the case of providing a groove part in the 2nd reflective surface of this invention.

  DESCRIPTION OF EMBODIMENTS Hereinafter, embodiments for carrying out the present invention (hereinafter referred to as embodiments) will be described in detail with reference to the accompanying drawings. Note that the same number is assigned to the same element throughout the description of the embodiment.

<Overall configuration>
A projector-type lamp 1 in FIG. 1 is disposed in a lamp chamber of a vehicle headlamp formed by an outer lens (not shown) and a housing, and is formed by switching between a passing light distribution pattern and a traveling light distribution pattern. This is a mold lamp 1. The vehicle headlamps are provided on the left and right sides at the front end of the vehicle.

  FIG. 2 is a cross-sectional view schematically showing Embodiment 1 of the projector-type lamp of the present invention. In FIG. 2, the x, y, and z directions are shown to coincide with the width direction, height direction, and front-rear direction of the vehicle, respectively, when the projector type lamp is attached to the vehicle.

  The projector lamp 1 includes a projection lens 2, a light source 3, a reflector 4, a movable shade 6, a fixed shade 16, and a light distribution switching means 10.

  The light source 3 includes a discharge lamp, a high-intensity discharge lamp (HID) such as a so-called metal halide lamp. The light source 3 is detachably attached to the reflector 4 via a socket 12. In the light emitting portion of the light source 3, the first focal point F1 of the reflector 4 is set.

  On the inner surface of the reflector 4, the light emitting portion of the light source 3 is a first focal point F <b> 1 and the second focal point F <b> 2 is in the vicinity of the rear focal point of the projection lens 2 by aluminum vapor deposition or silver coating. A reflecting surface 5 made of a curved surface is formed. The reflector 4 is fixedly held on the vehicle rear side of the frame 9.

  In addition, an opening for holding and fixing the light source 3 is provided in the rear portion of the reflector 4, and the light source 3 (for example, a discharge lamp bulb) is inserted and fixed from the rear side.

  The projection lens 2 has a convex shape on the front side of the vehicle, a planar shape on the rear side of the vehicle, and is formed so that the second focal point F2 of the reflecting surface 5 is located in the vicinity of the rear focus of the projection lens 2. ing. The projection lens 2 may be a lens formed from a free-form surface. The projection lens 2 is fixedly held on the vehicle front side of the frame 9.

  The movable shade 6 blocks the light from the light source 3 reflected by the reflecting surface 5, and forms a predetermined passing light distribution pattern LP shown in FIG. In addition, FIG. 4 is explanatory drawing of the light distribution pattern projected on the screen 10 m ahead from the vehicle headlamp in this Example. The H line in FIG. 4 indicates the horizontal line of the screen, and the reference V line similarly indicates the vertical line of the screen.

  In addition, the movable shade 6 is configured to be switched between a passing light distribution pattern LP and a traveling light distribution pattern (not shown) when the upper edge moves up and down by a solenoid and a spring member 14 as light distribution switching means. It has become.

  The movable shade 6 includes a first shade 6a and a second shade 6b, and has a thin plate structure having elasticity such as SUS (spring steel plate). The first shade 6a, the second shade 6b, and the spring member 14 are integrally formed. Make. The first shade 6a and the second shade 6b are fixed by caulking, riveting, spot welding, or the like, and a gap having a predetermined interval is provided between the first shade 6a and the second shade 6b. . Further, the upper end edges of the two shades face each other almost in parallel with a gap therebetween.

  The first shade 6a is located on the light source 3 side, and has a shape that forms a cut-off line of the passing light distribution pattern LP at the upper edge, and is provided so as to be orthogonal to the optical axis ZZ. . A fixing portion 15 is provided on the lower end side of the first shade 6 a and is fixed to the advance / retreat rod 11 of the light distribution switching means 10.

  The second shade 6b is located on the projection lens 2 side, and has a shape that forms a cut-off line of the passing light distribution pattern LP at the upper end edge, and is provided so as to be orthogonal to the optical axis ZZ. Yes. Further, the lower edge of the second shade 6b is provided so as to be positioned closer to the projection lens 2 than the upper edge.

  The first shade 6a is installed substantially vertically, and the second shade 6b is configured such that the lower end edge is disposed closer to the projection lens 2 than the upper end edge, and therefore the second shade 6b is inclined. By arranging in this manner, the gap between the first shade 6a and the second shade 6b is formed so as to increase from the upper end edge toward the lower end edge.

  An additional reflection surface 6c is formed on the surface of the first shade 6a on the light source 3 side and the surface of the second shade 6b on the projection lens 2 side so as to face each other.

(Fixed shade)
As shown in FIG. 1, the fixed shade 16 is located between the movable shade 6 and the projection lens 2, and is provided integrally with the frame 9 below the frame 9. The second reflecting surface 7 is formed by performing vapor deposition or coating on the surface of the fixed shade 16 on the projection lens 2 side.

  As shown in FIG. 3, the fixed shade 16 has an upper end edge 16a and a lower end edge 16b having an arc shape, and the upper end edge 16a is positioned above the light distribution switching means 10, and a frame is formed at the lower end edge 16b. 9 is formed integrally. The lower end edge 16b is configured to be longer than the upper end edge 16a. The fixed shade 16 is formed in a fan shape when viewed from the front. FIG. 3 is an enlarged perspective view showing the inside of the projector-type lamp 1.

  As shown in FIG. 3, the upper edge 16a has a central portion 16a1 on a substantially vertical cross section of the optical axis ZZ of the projector-type lamp 1 and is lateral to the side of the central portion 16a1 in the vehicle width direction. An end portion 16a2 is formed.

  The central portion 16a1 of the upper edge 16a is formed at the lowermost position of the upper edge 16a and is provided in the vicinity of the light distribution switching means 10 most.

  The side end portion 16a2 of the upper end edge 16a is provided on the upper side of the vehicle with respect to the center portion 16a1, and is formed so as to spread laterally from the side end portion 16a2 to the lower end edge of the fixed shade 16. Yes. Further, the side end portion 16a2 is provided symmetrically about the vertical axis of the central portion 16a1.

  The second reflecting surface 7 provided on the surface of the fixed shade 16 on the side of the projection lens 2 is formed so that the width in the horizontal direction becomes narrower toward the upper end edge 16a of the fixed shade 16, and the lower end edge 16b of the fixed shade 16 is formed. The width in the horizontal direction is formed wider as it approaches.

  A groove 8 is formed in the center of the second reflecting surface 7 so as to divide the second reflecting surface 7 into two along the lamp optical axis. The second reflecting surface 7 divided by the groove 8 is formed such that each reflecting surface has a narrow horizontal width on the upper end edge 16a side and a wide horizontal width on the lower end edge 16b side.

(Light distribution switching means)
The light distribution switching means 10 is a driving device such as a solenoid, for example, and moves (rotates, rotates) the movable shade 6 to a first position where a passing light distribution pattern is formed and a second position where a traveling light distribution pattern is formed. Motion) It is positioned so as to be switchable. The light distribution switching means 10 includes an advance / retreat rod 11 and a fixed portion 15.

  The light distribution switching means 10 is provided with an advance / retreat rod 11, and the light distribution switching means 10 is fixed to the lower side of the frame 9 by a fixing pin 13.

  The movable shade 6 is attached to the distal end portion of the advance / retreat rod 11 via the fixed portion 15. As a result, when the light distribution switching means 10 is not energized, the advance / retreat is performed by the spring force of the spring member 14 of the movable shade. When the rod 11 extends, the movable shade 6 is positioned at the first position. When the light distribution switching means 10 is energized, the advance / retreat rod 11 contracts against the spring force of the spring member 14, so that the movable shade 6 is positioned at the second position.

(Explanation of working example)
The projector type lamp 1 in this embodiment is configured as described above, and the operation thereof will be described below.

  First, the light source 3 is turned on. Then, the light from the light source 3 is reflected by the reflecting surface 5 of the reflector 4. The reflected light is collected at the second focal point F2 of the reflecting surface 5 and shielded by the movable shade 6 installed in the vicinity of the second focal point F2, and the unshielded light passes forward through the projection lens 2. Irradiated. The irradiation light is irradiated forward as a low beam from which a predetermined passing light distribution pattern LP shown in FIG. 4 is obtained or as a high beam from which a predetermined traveling light distribution pattern (not shown) is obtained.

  Next, the light distribution pattern switching means of the projector type lamp 1 will be described. The light distribution switching means 10 is assembled to the lower side of the frame 9 by a fixing pin 13. When the light distribution switching means 10 is not energized, the forward / backward rod 11 of the light distribution switching means 10 is in the forward state (extended state) by the spring force of the spring member 14, and the movable shade 6 is positioned at the light shielding position. Thus, a passing light distribution pattern LP is formed. Further, at the time of energization, the advance / retreat rod 11 enters a retracted state (a contracted state) against the spring force of the spring member 14. Thereby, the movable shade 6 is positioned at the avoidance position, and a traveling light distribution pattern is formed.

  At that time, the light distribution switching means 10 is located in the vicinity of the movable shade 6, and even when the reflected light from the reflection surface 5 enters the upper surface of the light distribution switching means 10 and is irregularly reflected, the fixed shade 16 is positioned above the light distribution switching means 10 and the upper edge 16a of the fixed shade 16 has a circular arc shape curved to the lower side of the vehicle, so that it is reflected by the upper surface of the light distribution switching means 10. The incident light does not enter the projection lens 2.

  The fixed shade 16 is disposed to be inclined downward toward the projection lens 2, the lower end edge 16 b is formed longer than the upper end edge 16 a, and the lower end edge 16 b is integrally formed along the frame 9 of the projection lens 2. Therefore, the light shielding amount of the fixed shade 16 on the projection lens 2 side can be increased, and the light irregularly reflected at the lower part of the frame 9 is shielded.

  Since the side end portion 16a2 of the upper end edge 16a of the fixed shade 16 is provided in front of the center portion 16a1 of the upper end edge 16a and above the center portion 16a1, the light distribution pattern LP for passing is provided. The light necessary for forming the light is not shielded as much as possible, and the light irregularly reflected by the upper surface of the light distribution switching means 10 or the frame 9 is shielded.

  The second reflecting surface 7 of the fixed shade 16 is formed on the surface of the fixed shade 16 on the side of the projection lens 2. In the vicinity of the movable shade 6, the second reflecting surface 7 is in the vicinity of the second focal point of the reflecting surface 5 of the reflector 4. Since the light from the second reflecting surface 7 is irradiated in a relatively narrow range, the horizontal width of the second reflecting surface 7 is formed to be narrow, and in the vicinity of the projection lens 2, it is separated from the second focal point of the reflecting surface 5 of the reflector 4. Therefore, since the light from the reflecting surface 5 is irradiated with a spread, the width of the second reflecting surface 7 in the horizontal direction is wide. As shown by the light beam L1 in FIG. 2, the light that has passed through the vicinity of the second focal point F2 among the reflected light from the reflective surface 5 is irradiated over a wide range as the distance from the second focal point F2 increases. Nearly all of the reflected light is irradiated forward without being incident on the other portions, and the light distribution pattern OP1 of overhead sign irradiation is irradiated.

  Further, the second reflecting surface 7 is provided with a groove 8 at the center along the lamp optical axis, so that the irradiation light near the V-line on the screen is dimmed. Further, the second reflection surface 7 is divided into two by the groove portion 8, and each of the divided reflection surfaces is formed so that the projection lens 2 side is wide and the movable shade 6 side is narrow. As shown in FIG. 5, the reflected light reflected by each reflecting surface is irradiated forward, and the light distribution pattern OP1 of overhead sign irradiation in which the vicinity of the V line is attenuated is irradiated.

  The upper edge 16a of the fixed shade 16 is located above the upper surface of the light distribution switching means 10, and is formed in a circular arc shape curved to the lower side of the vehicle, so that the side of the light incident on the second reflecting surface 7 side. Unnecessary light incident from the side is shielded by the side end portion 16a2, and the light is incident on the second reflecting surface 7 by the central portion 16a1. Further, by forming the second reflecting surface 7 from the upper end edge 16a to the lower end edge 16b of the fixed shade 16, the light that has passed through the central portion 16a1 can be utilized as much as the light distribution pattern OP1 for overhead sign irradiation.

  An additional reflection surface 6c is formed on the opposing surfaces of the first shade 6a and the second shade 6b of the movable shade 6, and the light source reflected by the reflection surface 5 of the reflector 4 as shown by the light beam L2 in FIG. When a part of the light from 3 is incident between the first shade 6a and the second shade 6b, it is reflected a plurality of times by the additional reflection surface 6c facing each other, and passes through the projection lens 2 by the reflection of the second shade 6b. Irradiated as an additional light distribution pattern OP2 for overhead sign irradiation ahead. Thereby, the visibility of overhead sign irradiation can be further improved.

(Explanation of effect of embodiment)
As described above, in this embodiment, light can be efficiently incident on the second reflecting surface 7 for overhead sign irradiation, and the light distribution pattern OP for overhead sign irradiation is used as a light distribution pattern with excellent visibility. Can be formed.

  As mentioned above, although this invention was demonstrated using embodiment, it cannot be overemphasized that the technical scope of this invention is not limited to the range as described in the said embodiment. It will be apparent to those skilled in the art that various modifications or improvements can be added to the above-described embodiments. Further, it is apparent from the scope of the claims that the embodiments added with such changes or improvements can be included in the technical scope of the present invention.

DESCRIPTION OF SYMBOLS 1 ... Projector type lamp, 2 ... Projection lens, 3 ... Light source, 4 ... Reflector, 5 ... Reflecting surface, 6 ... Movable shade, 6a ... 1st shade, 6b ... 2nd shade, 6c …… Additional reflecting surface, 7 …… second reflecting surface, 8 …… groove, 9 …… frame, 10 …… light distribution switching means, 11 …… advance / retreat rod, 12 …… socket, 13 …… fixing pin, 14 ...... Spring member, 15 ...... fixed portion, 16 ...... fixed shade, ZZ ...... optical axis, F1 ...... first focal point, F2 ...... second focal point, LP ...... passing light distribution pattern, OP1 ...... ... light distribution pattern of overhead sign irradiation, OP2 ... additional light distribution pattern of overhead sign irradiation, L ... light.

Claims (2)

A light source, a reflector having a reflective surface that reflects light from the light source forward of the vehicle, a projection lens that transmits the reflected light from the reflective surface and irradiates forward, and between the reflector and the projection lens A movable shade that switches between a light distribution pattern for passing and a light distribution pattern for traveling while blocking a part of the reflected light from the reflection surface, and a light distribution switching means for moving the movable shade. In vehicle headlamps,
Between the projection lens and the movable shade, a fixed shade that shields light that is not shielded by the movable shade among the reflected light from the reflective surface is disposed,
The fixed shade has a circular arc shape at the upper edge and the lower edge, and the lower edge is formed in a fan shape in front view longer than the upper edge,
Wherein the fixed Shea de, the formed protruding on the surface center side of the fixed shade, the and second reflecting surface formed so as to be wider toward the projection lens side from the movable shade side is provided,
The second reflecting surface is divided into two parts by providing a groove in the center along the lamp optical axis. Each of the divided reflecting surfaces is wide on the projection lens side and narrow on the movable shade side. Formed to be
The upper edge of the fixed shade is located above the upper surface of the light distribution switching means,
The upper end edge of the fixed shade is formed in an arc shape curved to the vehicle lower side,
The vehicular headlamp, wherein the second reflecting surface is formed from an upper end edge to a lower end edge of the fixed shade . The movable shade includes a first shade formed on the light source side and a second shade formed on the projection lens side. The first shade is provided substantially vertically, and the second shade has a lower end edge at an upper end. 2. The vehicle headlamp according to claim 1, wherein the vehicular headlamp is disposed on a lens side with respect to an edge, and an additional reflection surface is formed on a surface facing the first shade and the second shade. .

Images