JP4349510B2 - Vehicle headlamp - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a vehicle headlamp configured to change a lamp light distribution by moving a movable shade.
[0002]
[Prior art]
In general, a vehicular headlamp is configured to irradiate light with a low beam or a high beam by reflecting light from a light source forward with a reflector.
[0003]
At that time, since the required light distribution pattern is different between the low beam and the high beam, it is common to switch the beam between the low beam and the high beam by switching the lighting of the two light sources, but the beam switching is performed with a single light source. Vehicle headlamps configured to do so are also known.
[0004]
For example, in “Patent Document 1”, a movable shade capable of shielding a part of incident light from a light source to a reflector is provided, and the movable shade is moved between two positions where the shielding amount with respect to the incident light is different. Accordingly, a vehicle headlamp configured to perform beam switching is described.
[0005]
Note that “Patent Document 2” describes a low-beam vehicle headlamp having a fixed shade configured to reflect light from a light source toward a reflector on the inner surface of the fixed shade. Yes.
[0006]
[Patent Document 1]
JP 2001-118409 A
[Patent Document 2]
JP 2002-117710 A
[Problems to be solved by the invention]
In the configuration described in “Patent Document 1”, in order to ensure the required brightness of the light distribution pattern for the high beam, the high beam in which light from the light source does not enter the reflector when the light is irradiated with the low beam. It is necessary to secure a dedicated reflection area with a certain size. However, in such a case, since the light beam that can be used in the light irradiation with the low beam is reduced by that amount, the brightness of the light distribution pattern for the low beam cannot be sufficiently secured. There is a problem that.
[0007]
According to the configuration described in “Patent Document 2”, it is possible to increase the luminous flux that can be used for light irradiation with a low beam, but no consideration is given to light irradiation with a high beam.
[0008]
The above-described problems are problems that can occur not only when the movable shade is moved to switch the beam between the low beam and the high beam, but also when the movable shade is moved to change the light distribution of the lamp. .
[0009]
The present invention has been made in view of such circumstances, and in a vehicle headlamp configured to change the lamp light distribution by moving the movable shade, the movable shade moves to any position. In such a case, an object of the present invention is to provide a vehicle headlamp that can sufficiently secure a luminous flux that can be used for light irradiation.
[0010]
[Means for Solving the Problems]
In the present invention, a part of the inner surface of the movable shade is configured as a predetermined inner surface reflecting portion so as to achieve the above object.
[0011]
  That is, the vehicle headlamp according to the present invention is
  A light source, a reflector that reflects light from the light source forward, a movable shade that can block a part of incident light from the light source to the reflector, and a movable shade that has a large shielding amount with respect to the incident light. In a vehicle headlamp comprising: a shade driving device that moves between a position 1 and a second position with a small shielding amount;
  A part of the inner surface of the movable shade reflects the light from the light source toward the predetermined reflection region of the reflector even when the movable shade moves to either the first or second position. Is configured as
  When the movable shade is moved to the second position rather than when the movable shade is moved to the first position, the movable shade is reflected by the inner surface reflection portion and reflected again by the predetermined reflection region. It is configured to direct light from the light source upwards,
  Even when the movable shade moves to either the first position or the second position, the light distribution pattern formed at that time is reflected by reflecting the light directly incident on the reflector from the light source. After the basic light distribution pattern to be formed and the light source incident on the inner reflection part of the movable shade, the light reflected by the inner reflection part and incident on the predetermined reflection area of the reflector is again reflected on the predetermined reflection area. It is configured to be formed as a combined light distribution pattern with an additional light distribution pattern formed by reflectingAnd
The predetermined reflection area is provided below the light source,
The surface shape of the inner reflection part of the movable shade is set to a shape that condenses the light from the light source reflected by the inner reflection part at a position near the side of the light source,
The inner surface reflection portion of the movable shade has a first focal point at the center position of the light source and a left elliptical spherical surface portion having a second focus on the right side of the first focus, and a first focus at the center position of the light source. And a right ellipsoidal spherical portion having a second focal point on the left side of the first focal point, so that even when the movable shade is moved to either the first or second position, Reflecting light incident on the left elliptical spherical surface portion of the inner surface reflection portion from the light source toward the right reflection region of the predetermined reflection region so as to be condensed on the second focus on the right side of the first focus, Light incident on the right elliptical spherical surface portion of the inner reflection portion from the light source is reflected toward the left reflection region of the predetermined reflection region so as to be condensed on the second focus on the left side of the first focus. Configured to It is inIt is characterized by that.
[0012]
The type of the “light source” is not particularly limited, and for example, a discharge light emitting part of a discharge bulb, a filament of a halogen bulb, or the like can be employed.
[0013]
The “movable shade” is not particularly limited in specific configuration such as shape, size, and material as long as it can block a part of light incident on the reflector from the light source bulb.
[0014]
The “predetermined two positions where the shielding amount with respect to the incident light is different” is a position where a low beam light distribution pattern or a high beam light distribution pattern is formed when the movable shade moves to each of these positions. Or the position which forms the light distribution pattern other than that may be sufficient.
[0015]
The “shade driving device” is not limited to a specific driving device as long as it is configured to move the movable shade between the first position and the second position. It is possible to employ one using a pulse motor or one using a pulse motor. Further, the moving mode and moving direction of the movable shade by the driving of the “shade driving device” are not particularly limited, and for example, rotation around a horizontal axis, linear reciprocating motion in the front-rear direction, and the like can be employed.
[0016]
The specific configuration of the “predetermined reflection region” such as position, shape, range, etc. is not particularly limited.
[0017]
[Effects of the invention]
As shown in the above configuration, the vehicular headlamp according to the present invention moves between a first position where the shielding amount for the incident light from the light source to the reflector is large and a second position where the shielding amount is small. Although the movable shade is provided, a part of the inner surface of the movable shade directs the light from the light source toward the predetermined reflection area of the reflector even when the movable shade is moved to either the first position or the second position. Since it is configured as an internal reflection part to be reflected, it is possible to increase the luminous flux that can be used for light irradiation at each of the above positions.
[0018]
Therefore, according to the present invention, in the vehicle headlamp configured to change the lamp light distribution by moving the movable shade, the luminous flux that can be used for light irradiation when the movable shade moves to any position. Can be secured sufficiently.
[0019]
That is, even when the movable shade moves to any position, the light distribution pattern formed at that time is a basic light distribution pattern formed by reflecting light directly incident on the reflector from the light source, and An additional light distribution pattern formed by entering light from the light source into the inner reflection portion of the movable shade and then reflecting the light reflected by the inner reflection portion and entering the predetermined reflection region of the reflector again at the predetermined reflection region. Since it becomes a synthetic | combination light distribution pattern, it becomes possible to ensure the brightness of a light distribution pattern fully.
[0020]
By the way, when the movable shade moves to the first position, the shielding amount increases, so that it is suitable for light irradiation with a low beam, and when the movable shade moves to the second position, the shielding amount. Therefore, it becomes suitable for light irradiation with a high beam.
[0021]
Therefore, when the movable shade is moved to the second position rather than when the movable shade is moved to the first position, the light source is reflected from the inner reflection portion and reflected again from the predetermined reflection area. If the light is directed upward, the additional light distribution pattern can be formed at a relatively low position at the first position and at a relatively high position at the second position. The additional light distribution pattern can be formed at an appropriate position for both the basic light distribution pattern in the light pattern and the basic light distribution pattern in the high beam light distribution pattern.
[0022]
In the above configuration, if the predetermined reflection area of the reflector is provided below the light source, the reflection area located above the light source in the reflector directly reflects only the light directly incident on the reflector from the light source. Since it can be a light incident region, it is possible to easily perform a light distribution design for forming a basic light distribution pattern.
[0023]
In this case, if the surface shape of the inner surface reflecting portion of the movable shade is set to a shape that condenses the light from the light source reflected by the inner surface reflecting portion at a position near the side of the light source, this inner surface reflecting portion. Thus, it is possible to prevent the light from the light source reflected by the light from being blocked or deflected by a glass tube or the like that houses the light source.
[0025]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0026]
FIG. 1 is a side sectional view showing a vehicle headlamp according to an embodiment of the present invention.
[0027]
As shown in the figure, the vehicle headlamp 10 according to the present embodiment includes a reflector unit 16 in an up-down direction and a left-right direction via an aiming mechanism 50 in a lamp chamber formed by a translucent cover 12 and a lamp body 14. It is provided so that it can tilt.
[0028]
The aiming mechanism 50 includes an aiming fulcrum pin 52, an aiming screw 54, and another aiming screw (not shown) arranged on the side of the aiming fulcrum pin 52, and the reflector unit 16 is provided at three points on the lamp body 14. It is comprised so that it may support.
[0029]
The reflector unit 16 includes a discharge bulb 18, a reflector 20, a movable shade 22, a shade driving device 24, and a bulb support base 26.
[0030]
In the present embodiment, the translucent cover 12 is formed in a transparent shape, and the light distribution control function is given to the reflector unit 16. That is, the reflector 20 of the reflector unit 16 has a reflection surface 20a that reflects light from the light source 18a, that is, the discharge light emitting part of the discharge bulb 18 forward, and by the diffusion or deflection reflection function of the reflection surface 20a, Light irradiation for forming a predetermined light distribution pattern is performed.
[0031]
2 and 3 are a side cross-sectional view and a front view showing the reflector unit 16 as a single product, and FIG. 4 is a detailed view of a main part of FIG.
[0032]
As shown in these drawings, the discharge bulb 18 is fixedly supported by the reflector 20 via the bulb support base 26. That is, the bulb support base 26 is screwed and fixed to the reflector 20 while being inserted into the rear top opening 20b of the reflector 20 from the rear, and the discharge bulb 18 is fixed to the annular support portion 26a by a wire spring. It is supported. As a result, the light source 18 a is positioned on the optical axis Ax of the reflector 20. The optical axis Ax extends in a downward direction about 0.5 to 0.6 ° toward the front with respect to a horizontal line extending in the vehicle longitudinal direction.
[0033]
The reflection surface 20a of the reflector 20 is composed of a main reflection area 20aA located on the upper side and both left and right sides of the optical axis Ax, and a predetermined reflection area 20aB located on the lower side thereof. A vertically long and short slit 20c that communicates with the rear top opening 20b is formed at a position below the rear top opening 20b in the predetermined reflection region 20aB.
[0034]
The movable shade 22 is integrally formed with a shade main body 22A surrounding the discharge bulb 18 over a predetermined range from the front side thereof, and a pair of left and right shade leg portions 22B extending downward from the lower end of the shade main body 22A. Thus, in the vicinity of the upper end portions of both shade leg portions 22B, the valve support base 26 is rotatably supported via a rotation shaft member 30 extending in the left-right direction. This support is performed at the front end portion of the support bracket portion 26c formed so as to protrude forward from the valve support base 26 below the optical axis Ax.
[0035]
The movable shade 22 is rotated in the front-rear direction around the rotation member 30 by the shade driving device 24, and the low beam configuration position as the first position indicated by the solid line in FIGS. In FIG. 2, a high beam configuration position as a second position indicated by a two-dot chain line can be taken. At the low beam configuration position, light incident on the peripheral region 20aA2 in the main reflection region 20aA of the reflection surface 20a from the light source 18a is shielded, and only light necessary for light irradiation with the low beam is incident on the central region 20aA1 of the main reflection region 20aA. It is supposed to let you. On the other hand, at the high beam configuration position, the shielding is released and light is incident on the entire region of the main reflection region 20aA, thereby securing a light beam necessary for light irradiation with the high beam.
[0036]
When the movable shade 22 is in the low beam configuration position, the rear end edge 22b of the shade body 22A shields incident light from the light source 18a to the peripheral area 20aA2 of the main reflection area 20aA. Is formed. On the other hand, the lower part of the rear end edge 22b of the shade main body 22A is not formed so as to wrap around rearwardly, so that even when the movable shade 22 is in either the low beam configuration position or the high beam configuration position, Light incidence from the light source 18a to the predetermined reflection region 20aB is allowed.
[0037]
The upper region on the inner surface of the shade main body 22A is configured as an inner surface reflecting portion 22a that has been subjected to a reflecting surface treatment such as aluminum deposition. The inner surface reflection portion 22a reflects light incident on the inner surface reflection portion 22a from the light source 18a toward the predetermined reflection region 20aB regardless of whether the movable shade 22 is in the low beam configuration position or the high beam configuration position. It has become.
[0038]
The shade driving device 24 is composed of a solenoid including a solenoid body 24A screwed and fixed to the valve support base 26 below the optical axis Ax, and a plunger 24B protruding forward from the solenoid body 24A. The plunger 24B extends forward so as to pass through the inverted U-shaped groove 26b formed in the lower end portion of the valve support base 26, and an annular notch 24a is formed on the peripheral surface near the tip. ing.
[0039]
The movable shade 22 is engaged and connected to the distal end portion of the plunger 24B at the lower end portion of the pair of shade leg portions 22B. This engagement connection is performed by inserting an engagement portion 22c formed in an arc shape at the lower end portion of each shade leg portion 22B into the annular cutout portion 24a of the plunger 24B. The reciprocating motion of the plunger 24B is converted into the rotating motion of the movable shade 22 by the contact action between the engaging portion 22c and the front end surface or the rear end surface of the annular cutout portion 24a.
[0040]
The shade main body 22A of the movable shade 22 is formed so that a portion near the optical axis Ax protrudes forward in a cylindrical shape, and a pair of left and right ellipses whose peripheral portions are centered on the center position of the light source 18a. It is formed in a spherical shape. Further, as shown in FIG. 4, the inner surface reflection portion 22a is also composed of a left ellipsoid spherical portion 22a1 and a right ellipsoid spherical portion 22a2. That is, the left elliptical spherical portion 22a1 has the first focal point F1 at the center position of the light source 18a on the optical axis Ax and the second focal point F2 on the right side of the first focal point F1, while the right elliptical portion The spherical surface portion 22a2 has a first focal point F1 at the center position of the light source 18a on the optical axis Ax and a second focal point F2 on the left side of the first focal point F1.
[0041]
As a result, the inner surface reflection portion 22a causes the light incident on the left elliptical spherical portion 22a1 from the light source 18a to the right side of the first focal point F1 regardless of whether the movable shade 22 is in the low beam configuration position or the high beam configuration position. The light is reflected toward the right reflection region 20aB2 of the predetermined reflection region 20aB so as to be condensed at the second focus F2, and the light incident on the right elliptical spherical portion 22a2 from the light source 18a is reflected on the left side of the first focus F1. The light is condensed toward the second focal point F2 and reflected toward the left reflective area 20aB1 of the predetermined reflective area 20aB.
[0042]
FIG. 5 is a perspective view showing a light distribution pattern formed on a virtual vertical screen disposed at a position 25 m ahead of the lamp by light irradiation from the vehicle headlamp 10.
[0043]
The light distribution pattern shown in FIG. 5A is a low-beam light distribution pattern PL, which is formed as a combined light distribution pattern of two basic light distribution patterns P1 and P2 and an additional light distribution pattern P3. It has become.
[0044]
The basic light distribution pattern P1 is formed by reflected light from the central area 20aA1 of the main reflection area 20aA. This basic light distribution pattern P1 is a left light distribution pattern having horizontal and oblique cut-off lines CL1, CL2 at the upper edge of the basic light distribution pattern P1, and the position of an elbow point E that is the intersection of both cut-off lines CL1, CL2 is It is set at a position about 0.5 to 0.6 ° below HV, which is a vanishing point in the front direction of the lamp. In the low beam light distribution pattern PL, a hot zone HZL, which is a high luminous intensity region, is formed on the left side of the elbow point E.
[0045]
The basic light distribution pattern P2 is formed by light directly incident on the predetermined reflection area 20aB from the light source 18a and reflected by the predetermined reflection area 20aB (hereinafter referred to as “direct reflection light”). The basic light distribution pattern P2 is a diffused light distribution pattern that spreads widely on the left and right sides below the horizontal cutoff line CL1, and reinforces the brightness of the basic light distribution pattern P1.
[0046]
The additional light distribution pattern P3 is incident on the inner reflection part 22a of the shade body 22A from the light source 18a, reflected by the inner reflection part 22a, and then incident on the predetermined reflection area 20aB and reflected again by the predetermined reflection area 20aB. (Hereinafter referred to as “indirect reflected light”). Similar to the basic light distribution pattern P2, the additional light distribution pattern P3 is a diffused light distribution pattern that extends greatly to the left and right sides below the horizontal cut-off line CL1, and further enhances the brightness of the basic light distribution patterns P1 and P2. It is supposed to be.
[0047]
On the other hand, the light distribution pattern shown in FIG. 5B is a high-beam light distribution pattern PH, which is formed as a combined light distribution pattern of three basic light distribution patterns P1, P2, and P4 and an additional light distribution pattern P5. It has come to be.
[0048]
The basic light distribution patterns P1 and P2 are the same as the basic light distribution patterns P1 and P2 constituting the low beam light distribution pattern PL, and the reflected light from the central region 20aA1 of the main reflection region 20aA and the predetermined reflection region 20aB. It is formed by directly reflected light.
[0049]
The basic light distribution pattern P4 is formed by reflected light from the peripheral area 20aA2 of the main reflection area 20aA. The basic light distribution pattern P4 is a diffused light distribution pattern that spreads relatively small on both the left and right sides, and a hot zone HZH is formed around HV.
[0050]
The additional light distribution pattern P5 is formed by indirect reflected light from the predetermined reflection region 20aB. This additional light distribution pattern P5 is a light distribution pattern having substantially the same shape as the additional light distribution pattern P3 constituting the low beam light distribution pattern PL, but is formed at a position displaced upward from the additional light distribution pattern P3. It has become so. At this time, the additional light distribution pattern P5 is formed in the space above the horizontal and oblique cutoff lines CL1 and CL2 so as to cover the basic light distribution pattern P4.
[0051]
As described in detail above, the vehicle headlamp 10 according to the present embodiment is between the low beam configuration position where the shielding amount with respect to the incident light from the light source 18a to the reflector 20 is large and the high beam configuration position where the shielding amount is small. Although the movable shade 22 is moved, a part of the inner surface of the movable shade 22 reflects the light from the light source 18a when the movable shade 22 moves to either the low beam configuration position or the high beam configuration position. Since it is configured as the inner surface reflection portion 22a that reflects the light toward the 20 predetermined reflection regions 20aB, it is possible to increase the luminous flux that can be used for light irradiation at each of the above positions.
[0052]
Therefore, according to the present embodiment, it is possible to ensure a sufficient amount of light flux that can be used for light irradiation, regardless of the position of the movable shade 22 moved to any position.
[0053]
That is, the low beam light distribution pattern PL formed when the movable shade 22 is moved to the low beam configuration position reflects light directly incident on the main reflection region 20aA of the reflector 20 from the light source 18a by the main reflection region 20aA. After the light is incident on the inner surface reflection portion 22a of the movable shade 22 from the light source 18a and the light is incident on the predetermined reflection region 20aB of the reflector 20 by being reflected by the inner surface reflection portion 22a. Since it becomes a combined light distribution pattern with the additional light distribution pattern P3 formed by reflecting again at the predetermined reflection region 20aB, it is possible to sufficiently secure the brightness of the low beam light distribution pattern PL. On the other hand, the high beam light distribution pattern PH formed when the movable shade 22 moves to the high beam configuration position reflects light directly incident on the main reflection area 20aA of the reflector 20 from the light source 18a by the main reflection area 20aA. After entering the basic light distribution patterns P1, P2, and P4 formed by the light source 18a from the light source 18a to the inner surface reflection portion 22a of the movable shade 22, the light is reflected by the inner surface reflection portion 22a and enters the predetermined reflection region 20aB of the reflector 20 Since it becomes a combined light distribution pattern with the additional light distribution pattern P5 formed by reflecting light again at the predetermined reflection region 20aB, it is possible to sufficiently secure the brightness of the high beam light distribution pattern PH. .
[0054]
In particular, in the present embodiment, when the movable shade 22 is moved to the high beam configuration position rather than when the movable shade 22 is moved to the low beam configuration position, the light source 18a is reflected by the inner reflection portion 22a and reflected again by the predetermined reflection region 20aB. Since the movable shade 22 is configured so that the light from the top is directed upward, the following operational effects can be obtained.
[0055]
That is, since the additional light distribution pattern P3 can be positioned relatively low at the low beam configuration position, the additional light distribution pattern P3 is set to an appropriate position with respect to the basic light distribution patterns P1 and P2 of the low beam light distribution pattern PL. On the other hand, since the additional light distribution pattern P5 can be formed at a relatively high position in the high beam configuration position, the basic light distribution patterns P1, P2, and P4 of the high beam light distribution pattern PH can be formed. The additional light distribution pattern P5 can be formed at an appropriate position.
[0056]
Further, in the present embodiment, since the predetermined reflection area 20aB of the reflector 20 is provided below the light source 18a, the reflection area located above the light source 18a is reflected from the light source 18a to the reflector 20 in the reflector 20. A direct light incident region that reflects only the directly incident light can be formed, and thereby, a light distribution design for forming the basic light distribution pattern P1 or P1, P4 can be easily performed.
[0057]
Moreover, in the present embodiment, the inner surface reflection portion 22a of the movable shade 22 is composed of the left elliptical spherical portion 22a1 and the right elliptical spherical portion 22a2, and the light from the light source 18a reflected by the inner reflection portion 22a Since the light is condensed at a position near the side of the light source 18a, the light from the light source 18a reflected by the inner surface reflection portion 22a is shielded or deflected by the glass tube of the discharge bulb 18 containing the light source 18a. Can be prevented in advance.
[0058]
Next, a modification of the above embodiment will be described.
[0059]
6, 7 and 8 are views similar to FIGS. 2, 3 and 4 showing the reflector unit 56 according to this modification.
[0060]
As shown in these drawings, the basic configuration of the reflector unit 56 according to this modification is the same as that of the reflector unit 16 according to the above-described embodiment. However, the configuration of the movable shade 62 and the movable shade 62 and shade drive are the same. The connection structure with the device 24 is different from the above embodiment.
[0061]
In other words, in the present modification, one of the pair of left and right shade legs 62B is connected to the shade driving device 24 at a position away from the position directly below the shade body 62A in the left-right direction.
[0062]
In order to realize this, each of the shade leg portions 62B is formed such that its base end portion extends outwardly from the left and right sides of the shade main body 62A. In addition, a pair of vertically long and short slits 20d are formed at positions away from the position directly below the rear top opening 20b in the predetermined reflection region 20aB of the reflector 20 in the left-right direction. Further, the valve support base 26 is formed with a pair of support bracket portions 26d protruding forward through the slits 20d. The movable shade 62 is engaged and connected to the distal end portion of the plunger 24B of the shade driving device 24 at the lower end portion of one of the shade leg portions 62B.
[0063]
Moreover, in this modification, as shown in FIG. 8, the shape of the inner surface reflection part 62a of the shade body 62A is different from that of the above embodiment.
[0064]
That is, the inner surface reflection portion 62a of the shade main body 62A in this modification has the second focal point F2 of the left elliptical spherical surface portion 62a1 positioned on the left side of the optical axis Ax and the second focal point F2 of the right elliptical spherical surface portion 62a2. Is positioned to the right of the optical axis Ax.
[0065]
In the case of such a configuration, a large amount of light from the light source 18a reflected by the inner reflection part 62a is incident on the central reflection region 20aB3 located directly below the shade body 62A in the predetermined reflection region 20aB of the reflector 20. .
[0066]
At this time, in this modification, the pair of left and right shade leg portions 62B extend downward at a position away from the position directly below the shade main body 62A in the left-right direction, and one of them is connected to the shade driving device 24. Therefore, the light from the light source 18a reflected by the inner surface reflection portion 62a of the movable shade 62 is not shielded by the connecting structure between the shade leg portion 22B and the shade driving device 24, and thus the predetermined reflection region 20aB of the reflector 20 is blocked. In the central reflection region 20aB3.
[0067]
In the above-described embodiment and the modification thereof, the inner surface reflection portions 22a and 62a are configured by the left elliptical spherical surface portions 22a1 and 62a1 and the right elliptical spherical surface portions 22a2 and 62a2, and thus reflected by the inner surface reflection portion 62a of the movable shade 62. The light from the light source 18a can be condensed with high accuracy at a position near the side of the light source 18a. Instead of doing this, it is also possible to simply configure the inner surface reflection portions 22a, 62a with a pair of left and right spherical portions whose center positions are shifted to the left and right.
[Brief description of the drawings]
FIG. 1 is a side sectional view showing a vehicle headlamp according to an embodiment of the present invention.
FIG. 2 is a side sectional view showing a reflector unit of the vehicle headlamp.
FIG. 3 is a front view showing the reflector unit.
FIG. 4 is a detailed view of the main part of FIG. 3, showing the configuration of the movable shade of the reflector unit in detail.
FIG. 5 is a perspective view showing a light distribution pattern formed on a virtual vertical screen disposed at a position 25 m ahead of the lamp by irradiating light from the vehicle headlamp. Is a diagram showing a light distribution pattern for a low beam, and FIG.
FIG. 6 is a view similar to FIG. 2, showing a reflector unit according to a modification of the embodiment.
FIG. 7 is a view similar to FIG. 3, showing the reflector unit according to the modified example.
FIG. 8 is a view similar to FIG. 4, showing a reflector unit according to the modification.
[Explanation of symbols]
10 Vehicle headlamps
16, 56 Reflector unit
18 Discharge bulb
18a Discharge light emitting part as light source
20 Reflector
20a Reflective surface
20aA Main reflection area
20aA1 central area
20aA2 peripheral area
20aB predetermined reflection area
20aB1 Left reflective area
20aB2 Right side reflection area
20aB3 Central reflection area
20b Rear top opening
20c, 20d slit
22, 62 Movable shade
22A, 62A Shade body
22B, 62B shade leg
22a, 62a Internal reflection part
22a1, 62a1 Left ellipsoidal spherical surface
22a2, 62a2 Right ellipsoidal spherical surface
22b Rear edge
22c engagement part
24 shade drive
24A Solenoid body
24B Plunger
24a annular notch
26 Valve support base
26a annular support
26b Reverse U-shaped groove
26c, 26d Support bracket
30 Rotating shaft member
50 Aiming mechanism
52 Aiming fulcrum pin
54 Aiming Screw
Ax optical axis
CL1 horizontal cut offline
CL2 diagonal cut offline
E Elbow point
F1 first focus
F2 second focus
HZL, HZH hot zone
PH High beam light distribution pattern
PL Light distribution pattern for low beam
P1, P2, P4 Basic light distribution pattern
P3, P5 Additional light distribution pattern

Claims (1)

A light source, a reflector for reflecting light from the light source forward, a movable shade capable of shielding a part of incident light from the light source to the reflector, and a movable shade having a large shielding amount with respect to the incident light. In a vehicle headlamp comprising: a shade driving device that moves between a position 1 and a second position with a small shielding amount;
A part of the inner surface of the movable shade reflects the light from the light source toward the predetermined reflection region of the reflector even when the movable shade moves to either the first or second position. Is configured as
When the movable shade is moved to the second position rather than when the movable shade is moved to the first position, the movable shade is reflected by the inner surface reflection portion and reflected again by the predetermined reflection region. It is configured to direct light from the light source upwards,
Even when the movable shade moves to either the first position or the second position, the light distribution pattern formed at that time is reflected by reflecting the light directly incident on the reflector from the light source. After the basic light distribution pattern to be formed and the light source incident on the inner reflection part of the movable shade, the light reflected by the inner reflection part and incident on the predetermined reflection area of the reflector is again reflected on the predetermined reflection area. It is configured to be formed as a combined light distribution pattern with an additional light distribution pattern formed by reflecting ,
The predetermined reflection area is provided below the light source,
The surface shape of the inner reflection part of the movable shade is set to a shape that condenses the light from the light source reflected by the inner reflection part at a position near the side of the light source,
The inner surface reflection portion of the movable shade has a first focal point at the center position of the light source and a left elliptical spherical surface portion having a second focus on the right side of the first focus, and a first focus at the center position of the light source. And a right ellipsoidal spherical portion having a second focal point on the left side of the first focal point, so that even when the movable shade is moved to either the first or second position, Reflecting light incident on the left elliptical spherical surface portion of the inner surface reflection portion from the light source toward the right reflection region of the predetermined reflection region so as to be condensed on the second focus on the right side of the first focus, Light incident on the right elliptical spherical surface portion of the inner reflection portion from the light source is reflected toward the left reflection region of the predetermined reflection region so as to be condensed on the second focus on the left side of the first focus. Configured to Is to have, the vehicle headlamp, characterized in that.

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