JP3692546B2 - Vehicle headlamp device - Google Patents

Description

[0001]
[Industrial application fields]
  The present invention relates to a device used for a vehicle headlamp, and in particular, has excellent light efficiency in a headlamp.CarThe present invention relates to a dual-purpose headlamp device.
[0002]
[Prior art]
When the vehicle is driving in a curve, turning right or left, or changing the course, simply illuminating the front with a headlight may not provide sufficient visibility in the direction of travel. For this reason, as shown in FIG. 11 (a), the present inventors have already proposed a technique for installing a prism P3 in front of the headlight lens P2 that receives light from the light source P1 and spreading the light to a wide angle. (See JP-A-5-139203).
[0003]
The prism P3 used in this technique is one in which one side of the prism P3 is a concave curved surface (incident surface) P4 as shown in an enlarged view in FIG. Therefore, the light incident on the prism P3 from the light source P1 via the headlight lens P2 is first bent at the incident surface P4 and then bent at the exit surface P5, so that the angle bent toward the side increases. It can be expanded to a wide angle.
[0004]
[Problems to be solved by the invention]
However, when the prism P3 having the above-described shape is used, the field of view in the planned traveling direction can be ensured to a considerable extent, but it is not always sufficient.
That is, when the prism P3 is used, in a portion where the angle between the direction of the incident light and the incident surface P4 of the prism P3 is small (a portion where the incident angle near the lower ridge in FIG. 11B is large). There is a problem that much of the incident light is reflected by the incident surface P4, and as a result, the amount of light entering the prism P4 is reduced. This also applies to the light emitted from the exit surface P5 of the prism P3. Since the incident angle (with respect to the exit surface P5) is large in the vicinity of the left end of FIG. There is a problem that the amount of light is reduced.
[0005]
  That is, when the above-described conventional prism P3 is used, there is a problem in that the efficiency of light (used) decreases particularly in a portion where the prism P3 is thick.
  Therefore, the present invention can improve the efficiency of light used in the headlamp.CarAn object is to provide a dual-purpose headlamp device.
[0006]
[Means for Solving the Problems]
  The invention of claim 1 made to achieve this object is as follows:
  BackPrism that continuously increases the angle of light that passes sideways among the light that passes through laterA vehicle headlamp device that changes the irradiation direction of a headlamp usingIn addition, a reflection surface that reflects light is formed on the incident side end surface in the light bending direction among the incident side end surfaces behind the prism.Vehicle headlamp deviceIs the gist.
[0007]
  The invention of claim 2
  The reflecting surface of the prism is formed in a concave shape so that the reflected light intersects after the light is reflected by the reflecting surface.InDescribedVehicle headlamp deviceIs the gist.
  The invention of claim 3
  A prism adjusting means for changing a direction of light irradiated through the prism to a side or a side downward by changing a position of the prism disposed in front of the light source of the headlamp; FeaturesIn claim 1 or 2The gist of the described vehicle headlamp device is as follows.
[0008]
  The invention of claim 4
  In the vehicle headlamp device including the low beam headlamp having the prism and the traveling beam headlamp, the movable shielding section that cuts the upward light of the traveling beam is provided on the traveling beam headlamp. The driving beam is used together when adjusting the passing beam using the prism, and the movable shielding portion is driven to cut the upper light of the traveling beam.Described inThe vehicular headlamp apparatus is summarized as follows.
[0009]
The invention of claim 5
In a vehicle headlamp device provided with optical means that can be changed in position in front of the light source of the headlamp and that can change the light irradiation direction to the side or to the side downward, the optical means is from behind. The gist of the vehicle headlamp device is a half mirror that reflects part of the irradiated light and transmits part of the light.
[0010]
  The invention of claim 6
  In the vehicle headlight device comprising the low beam headlamp having the half mirror and the traveling beam headlamp, a movable shield that cuts the upper light of the traveling beam in the traveling beam headlamp. 6. A traveling beam is used together when adjusting the passing beam using the half mirror, and the movable shield is driven to cut the upper light of the traveling beam.Described inThe vehicular headlamp apparatus is summarized as follows.
[0011]
  The invention of claim 7
  The traveling beam headlamp is provided with a prism or a half mirror for directing a part of the traveling beam to the side.7 or 6The vehicular headlamp apparatus is summarized as follows.
[0012]
[Action]
In the invention of claim 1, as a prism used for changing the irradiation direction of the headlamp, a prism that continuously increases the angle of the light that is directed to the side out of the light passing from behind is adopted. A reflecting surface for reflecting light is provided on the incident side end surface of the prism in the direction in which the light is bent. That is, on one side of the ridge on the back of the prism, an incident surface is provided such that the incident angle increases (the angle between incident light and the incident surface decreases) toward the back side, and reflected on the other side of the ridge. A surface is provided. For this reason, the light is bent in a predetermined direction through the prism with almost no reflection on the incident surface, while it is bent in the predetermined direction by reflecting the light on the reflection surface. As a result, the light emitted from the light source is efficiently bent in a predetermined direction at the incident surface and the reflecting surface.
[0013]
In the invention of claim 2, the reflecting surface of the prism is concave so that the reflected light intersects after the light is reflected by the reflecting surface. For this reason, the light reflected from the rear part (back side) of the reflecting surface has a large reflection angle, so the traveling direction of the light is not bent so much. On the other hand, the light reflected from the front part of the reflecting surface has a small reflection angle, so the light travels. The direction is bent greatly. As a result, the state where light is bent (dispersed state) becomes continuous, and unevenness in the amount of irradiation light due to so-called light leakage can be prevented.
[0014]
In the invention of claim 3, the prism adjusting means changes the position of the prism disposed in front of the light source of the headlamp so that the light of the headlamp can be used efficiently and laterally or laterally downward. It is possible to set the irradiation direction as appropriate in a predetermined direction.
[0015]
In the invention of claim 4, the vehicle headlamp device having the prism as in claim 3 is used as a low beam headlamp, and the traveling beam headlamp has an upper light of the traveling beam. A movable shielding part for cutting is disposed. Accordingly, when traveling, the passing beam is adjusted by using the prism to illuminate the side and the front, and the moving beam is driven to cut off the upper light of the traveling beam so that the passing beam illuminates the side. It is possible to compensate for the amount of light reduced by (irradiating the front).
[0016]
In the invention of claim 5, since the half mirror is adopted as the optical means for changing the direction of the light of the headlamp, the direction of a part of the light irradiated from the back is changed by reflection, and the light is also changed. It is possible to pass a part of Therefore, not only the front side but also the side or side lower side can be illuminated.
[0017]
In a sixth aspect of the present invention, the half mirror as in the fifth aspect is arranged in the low beam headlamp, and a movable shielding portion for cutting the upper light of the running beam is arranged in the running beam headlamp. Has been. Therefore, when traveling, the half beam is used to adjust the passing beam to illuminate the sides and the front, and the movable beam is driven to cut the upper light of the traveling beam so that the passing beam illuminates the side. It is possible to compensate for the amount of light reduced by (irradiating the front).
[0018]
In the invention of claim 7, since the prism or half mirror for directing a part of the traveling beam to the side is arranged in the traveling beam headlamp, the passing beam headlight reduced by the passing beam illuminating the side. It is possible to compensate for the amount of light in front of the lamp.
[0019]
Here, as the prism, for example, an incident side end surface (incident surface) through which light enters the prism may be a concave surface having a large number of flat surfaces.
In particular, when the incident surface is a curved surface, the change in the amount of light to the side is continuous, which is desirable.
[0020]
In addition, as the reflecting surface, for example, a flat surface, a surface in which many flat surfaces are arranged in a concave shape, or a concave curved surface can be adopted. Of these, the concave reflection surface is suitable for the side light of the headlamp without omission, and further, when the reflection surface is a concave curved surface, the change in the amount of light is continuous, This is suitable because there is no unevenness in the amount of light.
[0021]
The movement direction of the prism or the half mirror is not limited to the side, but the light can be changed to the side downward by performing a movement with a twist.
Specifically, in the case of a prism, for example, the light diffusion direction can be changed by moving the prism to the optical axis center side and rotating it. In the case of a half mirror, the half mirror is moved to the optical axis center side. You can change the direction of the light by tilting it down. As a result, it is possible to further reduce glare on the side of the headlamp.
[0022]
【Example】
Hereinafter, an embodiment in which the present invention is applied to a four-wheeled vehicle will be described with reference to the drawings.
Example 1
As shown in the plan view of FIG. 1, the vehicle headlamp device according to the first embodiment has a low-beam headlight 1 that emits a low beam and a high-beam beam. This is a four-lamp type headlamp device provided with a pair of headlamps 3 on the left and right. In FIG. 1, only the left pair is shown.
[0023]
Among these, the passing headlamp 1 is disposed in the vicinity of the light source 5, the elliptically concave reflector 7 that reflects the light of the light source 5, the lens 9 disposed in front of the light source 5, and the second focal point of the light source 5. A projector headlight 13 including the light shielding plate 11 and a prism 15 disposed in front of the lens 9 of the projector headlight 13. On the other hand, the traveling beam headlamp 3 includes a projector headlight 25 including a light source 17, a reflector 19, a lens 21, and a light shielding plate 23 in a substantially similar manner. In the following description, the light sources 5 and 17 and the reflectors 7 and 19 are collectively expressed as light source units 8 and 18, respectively.
[0024]
The light-shielding plate 11 of the passing headlamp 1 is arranged below the center of the main optical axis, as shown in FIG. This is for distributing the passing beam, and the passing headlamp 1 of this embodiment is fixed.
[0025]
The light-shielding plate 23 of the traveling beam headlamp 3 is arranged below the center of the main optical axis as shown in FIG. 2 (b), but is not fixed and can be moved vertically. This is a light shielding plate (movable light shielding plate) 23. That is, in the case of irradiating a normal traveling beam, the movable light shielding plate 23 moves downward so that the light from the light source unit 18 is not cut and the light distribution that can irradiate far away is achieved. On the other hand, as will be described later, when used in conjunction with the passing beam, the movable light shielding plate 23 moves upward to cut the upward light beam from the light source unit 18 to obtain a passing beam distribution. .
[0026]
As shown in the plan view of FIG. 3, the prism 15 is convex on the back side (light receiving side), and its right and left oblique sides have an incident surface 15a for allowing light to enter the prism and a reflecting surface 15b for reflecting light. It consists of and.
Of these, the incident surface 15a is a curved surface formed in a concave shape, and is configured so that the angle of the light directed to the side out of the light passing from behind the prism 15 is continuously increased. Can be continuously irradiated without unevenness due to the light directed to. On the other hand, the reflecting surface 15b is a curved surface formed in a concave shape having a slightly gentler curve than the incident surface 15a, and is configured by a reflecting layer 15c that reflects light formed on the surface of the prism 15 by, for example, vapor deposition of aluminum. Yes. The light reflected by the reflecting surface 15b is bent sideways, but the light reflected by the rear part (back side) of the reflecting surface 15b has a large reflection angle, and conversely reflected by the front part of the reflecting surface 15b. Since light has a small reflection angle, the light crosses halfway. That is, the light reflected from the rear part of the reflecting surface 15b is changed in its traveling direction, and the light reflected from the front part of the reflecting surface 15b is changed in its traveling direction, so that the light reflected by the entire reflecting surface 15b. There is little change in the amount of light between the light emitted from the light exit surface 15d, and continuous light irradiation without so-called omission can be performed.
[0027]
As shown in the front view of FIG. 4, the prism 15 is configured integrally with a semicircular support portion 33. The support portion 33 is slidably engaged with arcuate guide grooves 41 and 43 provided in the angle 39 via two pins 35 and 37. In addition, a fan-shaped gear 45 is engraved on the outer periphery of the support portion 33 and is engaged with a rotating gear 47 that is attached to substantially the center of the angle 39. That is, the prism 15 is engaged and supported at three positions by the angle 39 via the support portion 33, and is configured to rotate along the guide grooves 41 and 43 by rotating the rotation gear 47. Yes. On the other hand, a rack 49 is provided below the angle 39. The rack 49 is engaged with a pinion 53 attached to a bracket 51 fixed to the vehicle body. That is, the angle 39 is configured to be able to slide continuously in the left-right direction with respect to the vehicle body by the rack and pinion mechanism. Therefore, the prism 15 can slide in the left-right direction as the angle 39 moves.
[0028]
As shown in FIG. 5, the prism 15 and the movable light shielding plate 23 described above are driven and controlled by a control system mainly composed of a control computer 61 having a known CPU, ROM, RAM, backup RAM, and the like. Various light distribution patterns are realized.
That is, the control computer 61 inputs the vehicle speed signal SPD and the steering angle signal θ from the vehicle speed sensor 63 and the steering angle sensor 65, executes the light distribution pattern selection process according to the arithmetic processing program in the ROM, and determines the light distribution pattern. A drive control signal for realization is output to the prism rotation motors 67r and 67l and the prism movement motors 69r and 69l. Further, based on the signal from the beam selection switch 70 for selecting the passing beam or the traveling beam, the movable light shielding plate moving motors 71r and 71l are driven to move the movable light shielding plate 23 of the traveling beam headlamp. . Note that the subscript “r” is for the right front headlamp, and the subscript “l” is for the left headlamp.
[0029]
Then, the vehicle speed SPD and the steering angle θ are read, and a light distribution pattern map (not shown) is searched according to these, and when the light distribution pattern is specified, a motor drive signal corresponding to the specified light output pattern is output. The prism 15 and the movable light shielding plate 23 are operated to change the light irradiation state.
[0030]
  (1)When driving straight ahead using a passing beam
  As shown in FIG. 6A, the traveling beam headlamp 3 is not used, and only the low beam headlamp 1 is lit to travel. At this time, the prism 15 is arranged so as to be out of the optical path, that is, away from the main optical axis LL.
[0031]
  (2)When traveling straight using a passing beam and a traveling beam
  The traveling beam headlamp 3 is turned on together with the passing beam headlamp 1 to travel. At this time, since the movable light-shielding plate 23 of the traveling beam headlamp 3 is moved upward to cut off the upward light, two passing beams are used (on one side), and the forward irradiation light The amount of light increases. The prism 15 is arranged so as to be out of the optical path as in the case of FIG.
[0032]
  (Four)When turning left, turning a curve, changing course
  Since it is necessary to further illuminate the side when turning left, turning on a curve, changing course, etc., as shown in FIG. 6 (b), the prism 15 is passed through the prism 15 according to the vehicle speed SPD and the steering angle θ. It moves so that it may enter in the optical path of the headlight 1 for an object. That is, it is moved so as to approach the main optical axis LL, and not only the incident surface 15a but also the reflecting surface 15b is arranged in the optical path. As a result, the light from the light source unit 8 is irradiated forward, and a part of the light is bent sideways (in the direction to be changed). That is, of the light irradiated to the prism 15, the light input from the incident surface 15a is bent and irradiated sideways, while the light reflected by the reflecting surface 15b is bent and irradiated one side. Will be. At this time, the traveling beam headlamp 3 may be turned off or turned on. However, if it is turned on, the amount of light radiated forward increases and the field of view becomes clear. Therefore, it is preferable.
[0033]
  In addition to the light distribution by the above control, the following light distribution(Four) , (Five)Can also be implemented.
  (Four)When turning left
  FIG. 7A shows the left / right movement position of the prism 15 when turning left. As shown in the drawing, the prism 15 is moved closer to the main optical axis LL near the center of the lens 9 and rotated clockwise in the figure, so that the irradiation light on the side of the main optical axis LL is irradiated in the vicinity of the main optical axis LL. A light beam whose downward and lateral angles increase as it moves away from the vehicle can be obtained, and an enlarged irradiation area AR1 for turning left can be obtained that is widened mainly near the vehicle body while illuminating the front diagonally forward. At this time, since the prism 15 is rotated and the whole is downward light, the oncoming vehicle or the like is not dazzled even though it is illuminated obliquely forward. In particular, in this embodiment, when the prism 15 is moved in this way, the reflecting surface 15b is disposed so as to enter the optical path of the light from the light source unit 8. Therefore, when turning left, there is no unevenness or omission of light, and it is possible to irradiate the side downward efficiently. At this time, the traveling beam headlamp 3 may be turned on by moving the movable light shielding plate 23 upward, or may be turned off.
[0034]
  (Five)When driving on a curve or changing course
  FIG. 7B shows an example of the arrangement of the prisms 15 when traveling on a curve and changing the course. As shown in the drawing, by moving the prism 15 to a position that is about the end of the lens 9, an enlarged irradiation area AR2 for changing the course is obtained in which the irradiation light on the side of the main optical axis LL is enlarged centering on the distance. be able to. At this time, the traveling beam headlamp 3 may be turned on by moving the movable light shielding plate 23 upward, or may be turned off.
[0035]
As described above, in the vehicle headlamp device according to the first embodiment, the prism 15 having the incident surface 15a and the reflecting surface 15b and continuously changing the ridge angle is used, and this is continuously performed in the left-right direction. Therefore, it is possible to continuously increase the angle of the light in the portion outside the main optical axis LL toward the side as the distance from the main optical axis LL increases. Therefore, since the side area closest to the vehicle can be illuminated when turning right or left, it is possible to clearly recognize side obstacles, passersby, and the like. Further, since the light beam is twisted by rotating the prism 15, it is possible to irradiate the lower side as well, so that the glare of the other party to be irradiated can be reduced.
[0036]
In particular, in this embodiment, the prism 15 is provided with not only the incident surface 15a but also the reflecting surface 15b. Therefore, the light enters the prism 15 with almost no reflection at the incident surface 15a and is bent in a predetermined direction. Since the light is reflected on the reflecting surface 15b, the light is efficiently bent and irradiated in a predetermined direction. In addition, since the thickness of the prism 15 itself can be reduced by adopting the reflecting surface 15b, the prism 15 can be easily arranged even in a narrow space in the headlamp.
[0037]
Further, in this embodiment, when the low beam headlamp 1 is used, the traveling beam headlamp 3 is used and the movable light shielding plate 23 of the traveling beam headlamp 3 is raised upward. Since the upward light is cut, it is possible to compensate for the amount of light in the front which has been reduced by the low beam illuminating the side.
[0038]
On the other hand, on the other hand, since the main optical axis is not changed, the straight field of view does not deteriorate so much.
(Example 2)
Next, Example 2 will be described.
[0039]
As shown in FIG. 8 in a plan view and in FIG. 9 in a side view, the vehicle headlamp device of this embodiment includes a passing headlamp 81 and a traveling beam headlamp 83, as in the first embodiment. This is a four-lamp type headlamp device.
The passing headlamp 81 includes a projector headlight 93 including a light source 85, a reflector 87, a lens 89, and a fixed light shielding plate 91, and a prism 95 disposed in front of the lens 89 of the projector headlight 93. I have. On the other hand, the traveling beam headlamp 83 includes a substantially plate-like prism 105 in front of the movable light shielding plate 103 in addition to the light source 97, the reflector 99, the lens 101, and the movable light shielding plate 103.
[0040]
The prism 105 has a slightly thicker side on the side of the passing headlamp 81 and is disposed in front of and above the movable light shielding plate 103 to bend the light from the light source 97 to the side. It is driven integrally with the light shielding plate 103 to move in the vertical direction.
When the low beam headlamp 81 is used, the traveling beam headlamp 83 is used, and the prism 105 is moved upward in conjunction with the movable light shielding plate 103 of the traveling beam headlamp 83. Thus, the upward light is cut and the amount of light to the side is increased.
[0041]
Therefore, in this embodiment, the effects of the first embodiment are obtained, and the amount of light in front of the low beam headlamp 81 is reduced by the fact that the low beam illuminates the side due to the movement of the prism 105 in this way. There is an advantage that can be further supplemented. Further, since the prism 103 is disposed at a position as shown in FIG. 9B, there is also an effect that the glare forward is further reduced by bending the light mainly traveling upward to the side.
[0042]
Instead of the prism 103, a half mirror (not shown) that similarly bends light to the side can be disposed at the position of the prism 103 and used.
(Example 3)
Next, Example 3 will be described.
[0043]
As shown in the plan view of FIG. 9, the vehicle headlamp apparatus of the present embodiment is a four-lamp type headlamp equipped with a passing headlamp 111 and a traveling beam headlamp 113 as in the first embodiment. It is a headlamp device.
Among these, in front of the lens 115 of the passing headlamp 111, a half mirror 117 through which a part of the light passes and a part of the light is reflected is disposed. The half mirror 117 is disposed obliquely with respect to the main optical axis LL and is movable in the directions of arrows A and B.
[0044]
Therefore, by moving the half mirror 117 in the direction of arrow A when turning left, turning on a curve, changing the course, etc., the light reflected to the side increases, so the side field of view becomes clear. In addition to moving the half mirror 117 to the side, the half mirror 117 may be tilted slightly downward. In this case, the amount of light that is directed downward to the side is increased, which has the advantage that glare can be reduced.
[0045]
At this time, the light may be lit with the movable light shielding plate 119 of the traveling beam headlight 113 raised, and the prism 103 (or half mirror) used in the second embodiment is used. May be. In that case, the same effect can be obtained.
Although one embodiment of the present invention has been described above, the present invention is not limited to this embodiment, and can be implemented in various modes without departing from the spirit of the present invention.
[0046]
For example, it is conceivable to use a plurality of prisms side by side instead of using one prism. In this case, there is an advantage that the thickness of each prism can be reduced.
In the embodiment, the light distribution pattern is merely changed by turning right or left and changing the curve or the course, but the light distribution pattern may be defined more finely.
[0047]
Furthermore, you may use the reflector from which the curvature of a reflective surface changes continuously with parts. Moreover, it is good also as a structure which changes the curvature of a reflective surface partially using the mechanism which deform | transforms the reflector itself of a headlight, for example with a hydraulic pressure.
In addition, the type of headlight is not limited to the project type, but may be a shielded beam type or a modified headlight.
[0048]
In the above-described embodiment, the four-lamp type is described, but a two-lamp type may be used. In that case, the light-shielding plate is moved in the vertical direction to switch between the passing beam and the traveling beam.
Instead of a prism having an incident surface and a reflecting surface, a prism having a concave incident surface (having no reflecting surface) is used for a low beam headlamp, and a traveling beam headlamp has a The light amount of the passing beam may be compensated by using the movable light shielding plate of each of the above-described embodiments, or using a prism or a half mirror in addition to the movable shielding plate. In that case, the above-described effects by the movable shielding plate, the prism and the half-me can be obtained.
[0049]
【The invention's effect】
As described in detail above, in the first aspect of the invention, as the prism used to change the irradiation direction of the headlamp, the angle of the light that faces the side of the light passing through the exit surface from the back is continuously set. In addition to adopting a large configuration, a reflecting surface for reflecting light is formed on the incident side end surface of the prism in the direction in which the light is bent. For this reason, light enters and enters the prism with little reflection at the incident surface and is bent in a predetermined direction, and light is reflected at the reflection surface, so that the light emitted from the light source is efficiently bent in the predetermined direction. Will be irradiated. In addition, since the thickness of the prism can be reduced by adopting this reflecting surface, the prism can be suitably arranged even in a narrow space in the headlamp. Further, since the prism can be made thin, there is an advantage that the prism does not need to be subjected to complicated processing like a Fresnel lens.
[0050]
In the invention of claim 2, the reflecting surface of the prism is concave so that the reflected light intersects after the light is reflected by the reflecting surface. Therefore, the traveling direction of the light reflected by the rear part of the reflecting surface is not bent so much, while the traveling direction of the light reflected by the front part of the reflecting surface is greatly bent. As a result, the state in which the light is bent becomes continuous, and it is possible to prevent unevenness in the amount of irradiation light due to light loss.
[0051]
In the invention of claim 3, by changing the position of the prism arranged in front of the light source of the headlamp by the prism adjusting means, the light of the headlamp can be used efficiently and laterally or laterally downward. The irradiation direction can be set in a predetermined direction as appropriate.
[0052]
In the invention of claim 4, the vehicle headlamp device having the prism as in claim 3 is used as a low beam headlamp, and the traveling beam headlamp cuts the upper light of the running beam. A movable shielding part is arranged. Therefore, when traveling, the low beam is adjusted by using the prism to illuminate the sides and front, and the movable beam is driven to cut off the upward light of the traveling beam so that the low beam illuminates the side. The reduced front light quantity can be compensated.
[0053]
In the invention of claim 5, since the half mirror is adopted as the optical means for changing the direction of the light of the headlamp, the direction of a part of the light irradiated from the back is changed by reflection, and the light is also changed. Can be passed forward. Therefore, not only the front side but also the side or side lower side can be illuminated. Further, since the half mirror is thin, there is an advantage that it can be easily arranged even in a narrow space in the headlamp.
[0054]
In a sixth aspect of the invention, the half mirror as in the fifth aspect is arranged in the low beam headlamp, and a movable shielding portion for cutting the upward light of the running beam is arranged in the traveling beam headlamp. Yes. Therefore, when traveling, the half beam is used to adjust the passing beam to illuminate the sides and the front, and the movable beam is driven to cut the upper light of the traveling beam so that the passing beam illuminates the side. It is possible to compensate for the amount of light in the front reduced by the above.
[0055]
In the invention of claim 7, since the prism or half mirror for directing a part of the traveling beam to the side is arranged in the traveling beam headlamp, the passing beam headlight reduced by the passing beam illuminating the side. The amount of light in front of the lamp can be compensated.
[Brief description of the drawings]
FIG. 1 is a schematic configuration diagram of a vehicle headlamp device according to a first embodiment viewed from a plane.
FIGS. 2A and 2B show a vehicle headlamp device, in which FIG. 2A is a schematic configuration view of a low beam headlamp viewed from the side, and FIG. 2B is a schematic view of a traveling beam headlamp viewed from the side; It is a block diagram.
FIG. 3 is an explanatory diagram of a prism.
FIG. 4 is a schematic configuration diagram viewed from the plane of the vehicle headlamp device.
FIG. 5 is a schematic configuration diagram of a control system of the vehicle headlamp device.
6A and 6B are diagrams illustrating the operation of the prism, wherein FIG. 6A is an explanatory diagram illustrating a state in which the prism is moved to the side, and FIG. 6B is an explanatory diagram illustrating a state in which the prism is moved to the main optical axis side.
FIGS. 7A and 7B are diagrams illustrating the operation of the prism, wherein FIG. 7A is an explanatory diagram illustrating a state in which the prism is moved when turning left, and FIG. 7B is an explanatory diagram illustrating a state in which the prism is moved during a curve.
FIG. 8 is a schematic configuration diagram of a vehicle headlamp device according to a second embodiment viewed from the plane.
FIG. 9 shows a vehicular headlamp device, where (a) is a schematic configuration diagram of a low beam headlamp viewed from the side, and (b) is a schematic diagram of the traveling beam headlamp viewed from the side. It is a block diagram.
FIG. 10 is a schematic configuration diagram of a vehicle headlamp device according to a third embodiment viewed from the plane.
11A and 11B are diagrams illustrating a conventional technique, in which FIG. 11A is an explanatory diagram illustrating a position of a prism, and FIG. 11B is an explanatory diagram illustrating a shape of the prism.
[Explanation of symbols]
1,81,111 ... passing beam headlight,
3, 83, 113 ... traveling beam headlamps,
5, 17, 85, 97 ... light source, 9, 21, 89, 101, 115 ... lens,
11, 91 ... (fixed type) light shielding plate, 23, 103, 119 ... movable light shielding plate,
15, 95, 105 ... prism, 117 ... half mirror,
61 ... Control computer, 15a ... Incident surface, 15b ... Reflective surface,
15c ... reflective layer, 15d ... emitting surface, LL ... main optical axis

Claims (7)

The angle of the light directed out the side of the light passing from behind using continuous large prisms, a head lamp device before a vehicle for changing the irradiation direction of the headlamp,
A vehicular headlamp apparatus, wherein a reflecting surface for reflecting light is formed on an incident-side end surface in a direction in which light is bent among the incident-side end surfaces behind the prism. The reflecting surface of the prism, the vehicle headlamp apparatus according to claim 1, reflected light after reflection of light by the reflective surface characterized in that it is formed in a concave shape so as to intersect. A prism adjusting means for changing a direction of light irradiated through the prism to a side or a side downward by changing a position of the prism disposed in front of the light source of the headlamp; the vehicle headlamp apparatus according to claim 1 or 2 shall be the features. In a vehicle headlamp device comprising a low beam headlamp having the prism and a traveling beam headlamp,
The traveling beam headlight is provided with a movable shielding portion that cuts the upper light of the traveling beam, and the traveling beam is used together when adjusting the passing beam using the prism, and the movable shielding portion is driven to travel. The vehicle headlamp device according to claim 3 , wherein the upward light of the beam is cut. In a vehicle headlamp device provided with optical means that can be changed in position in front of the light source of the headlamp, and can change the light irradiation direction to the side or to the side downward,
The vehicular headlamp device characterized in that the optical means is a half mirror that reflects part of light emitted from behind and allows part of the light to pass therethrough. In a vehicle headlamp apparatus comprising a low beam headlamp having the half mirror and a traveling beam headlamp,
In the headlamp for the traveling beam, a movable shielding part for cutting the upper light of the traveling beam is provided, and the traveling beam is used together when adjusting the passing beam using the half mirror, and the movable shielding part is driven. The vehicle headlamp device according to claim 5 , wherein upper light of the traveling beam is cut. The high-beam before the headlight, the traveling beam vehicle headlamp apparatus according some to claim 4 or 6 characterized in that a prism or a half mirror directs to the side of.

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