Headlamp

Information

  • Patent Grant
  • 6695466
  • Patent Number
    6,695,466
  • Date Filed
    Thursday, October 11, 2001
    23 years ago
  • Date Issued
    Tuesday, February 24, 2004
    20 years ago
Abstract
In a headlamp having a single filament bulb or discharge bulb, there is provided a movable shade that can appear from a reflection mirror located above the single filament bulb. In a usual condition, the movable shade is pulled at the back of the reflection mirror located above the single filament bulb. Then, a light emitted from the single filament bulb is condensed by the reflection mirror and irradiates a very long distance thereby to make a high-speed traveling possible. On the contrary, when it is rainy or foggy, the movable shade is protruded in the front of the reflection mirror. Then, a part of a light emitted from the single filament bulb is shielded by the movable shade, and the road surface in 20-40 m front of the vehicle is darkened thereby to reduce surface reflection from the road surface.
Description




BACKGROUND OF THE INVENTION




1. Field of the Invention




The present invention relates to a vehicle headlamp having a single filament bulb or discharge bulb, by which the optimum light irradiation range can be obtained at high-speed running time or in a bad weather.




2. Description of the Related Art




A headlamp of an automobile or the like irradiates usually a front range


2


as shown in FIG.


18


. At this time, in order to prevent the light of the headlamp from dazzling driver's eyes of a vehicle on the opposite lane, in the irradiation range on the opposite lane side, the light from the light source is shielded by a shade or the like (not shown) arranged in the lamp.




If the road surface is irradiated with a strong light of the headlamp when a vehicle travels in the rain, there is a problem that by surface reflection from a road surface


4


, a driver of the vehicle cannot confirm the condition of the front road surface very well or gives glare to an oncoming vehicle. Further, when fog is irradiated with a strong luminous flux


6


of the headlamp in the fog, the road surface on the downside of the luminous flux


6


is invisible. Therefore, there is a problem that even a white line on the road (a center line or a lane mark at the edge of the road) cannot be confirmed.




Therefore, in an automobile having a conventional headlamp, in the rain or fog, the light is diffused in the front wide range by a supplementary lamp such as a fog lamp or the like instead of the headlamp, and the front road surface portion on the both sides is mainly irradiated, whereby a driver of the vehicle is easy to see the front road surface and can see very well the road surface portion of the front both sides, and particularly a white line on the road to run on the road by the vehicle. Further, it is sometimes effective to reduce glare toward an oncoming vehicle.




However, there is a problem that provision of the above-mentioned supplementary lamp causes a high cost.




SUMMARY OF THE INVENTION




An object of the invention is to provide a headlamp which makes the front road surface portion on the both sides visible in the rain or fog and reduces glare toward an oncoming vehicle even by using only the headlamp without providing the supplementary lamp.




In order to solve the aforesaid problem, according to the first aspect of the invention, in a headlamp in which a light source and a reflection mirror that supports the light source are located in a light chamber comprising a transparent cover and a lamp body, a luminous distribution changing means is provided, which shields a part of light from the light source or changes the reflecting direction of the light, and a part of the front road surface is darkened by the luminous distribution changing means. Hereby, in the rain or fog, luminous flux from the headlamp is weakened by the luminous distribution changing means, and a part of the front road surface is darkened thereby to reduce surface reflection from this portion.




According to the second aspect of the invention, in the first aspect, as the aforesaid luminous distribution changing means, a movable shade that can appear in the front of a reflection mirror portion located upper than the light source is provided. Hereby, in the rain or fog, the movable shade is protruded in the front of the reflection mirror portion, and a part of the light emitted from the light source is shielded by the movable shade, whereby the luminous flux from the headlamp is weakened. Further, a part of the front road surface is darkened thereby to reduce the surface reflection from this portion.




According to the third aspect of the invention, a light extracting hole is provided for the reflection mirror portion located upper than the light source, and a movable reflector that can open and close the light extracting hole is provided as the aforesaid luminous distribution changing means. Hereby, in the rain or fog, the light extracting hole is opened thereby to let a part of the light emitted from the light source go backward of the reflection mirror, so that the luminous flux from the headlamp is weakened, and a part of the front road surface is darkened thereby to reduce the surface reflection from this portion similarly to the first aspect of the invention.




According to the fourth aspect of the invention, in the first aspect, a part of the front road surface is a road surface portion in 20-40 m front of a vehicle. Hereby, in the rain or fog, the luminous flux from the headlamp is weakened by the luminous distribution changing means, and the front road surface in 20-40 m front of the vehicle is darkened thereby to reduce the surface reflection from this portion.




According to the fifth aspect of the invention, in the first aspect, as the aforesaid luminous distribution means, there is provided a moving means that moves the light source to a focal position of the reflection mirror and to a position distant from the focal position. Hereby, in the rain or fog, by separating the light source from the focal point of the reflection mirror, and the light emitted from the light source is diffused to the surroundings, so that a part of the front road surface is darkened thereby to reduce the surface reflection from this portion and to lighten the road surface portion of the both sides.




According to the sixth aspect of the invention, in the first aspect, a reflection part for irradiating a lane mark is provided for a part of the aforesaid reflection mirror, and when a part of the front road surface is darkened by the aforesaid luminous distribution changing means, the reflection light from its reflection part is emitted forward. Hereby, when it is rainy or foggy, even if a part of the front road surface is darkened in order to reduce the surface reflection from a part of the front road surface, the lane mark can be irradiated brightly.




According to the seventh aspect of the invention, in the first aspect, a part of the front road surface is located before a portion in 20 m front of a vehicle. Hereby, when it is rainy or foggy, a portion before the portion in 20 m front of the vehicle is darkened by the luminous distribution changing means thereby to reduce the surface reflection that dazzles the driver's eyes of the vehicle on the opposite lane











BRIEF DESCRIPTION OF THE DRAWINGS





FIG. 1

is a longitudinal sectional view taken along a line I—I of

FIG. 3

, in a headlamp of a first embodiment used in the rain or fog.





FIG. 2

is the same longitudinal sectional view in a usual condition.





FIG. 3

is a front view of a reflection mirror of the headlamp in the first embodiment.





FIG. 4

is a perspective view of a movable shade used in the first embodiment.





FIG. 5

is a longitudinal sectional view taken along a line II—II of

FIG. 7

, in a headlamp of a second embodiment used in the rain or fog.





FIG. 6

is the same longitudinal sectional view in a usual condition.





FIG. 7

is a front view of a reflection mirror of the headlamp in the second embodiment.





FIG. 8

is a longitudinal sectional view of a headlamp in a third embodiment used in the rain or fog.





FIG. 9

is a longitudinal sectional view of the headlamp in the third embodiment used in a usual condition.





FIG. 10

is a longitudinal sectional view of a headlamp in a fourth embodiment used in the rain or fog.





FIG. 11

is a longitudinal sectional view of the headlamp in the fourth embodiment used in a usual condition.





FIG. 12

is a diagram showing the surface irradiation state of the headlamp in the fourth embodiment.





FIG. 13

is a front view of a reflection mirror of a headlamp in a fifth embodiment of the invention.





FIG. 14

is a perspective view of a movable shade used in the headlamp of the fifth embodiment.





FIG. 15

is a longitudinal sectional view of the headlamp in the fifth embodiment used in the rain or fog, which is taken along a line III—III of FIG.


13


.





FIG. 16

is the same longitudinal sectional view of the headlamp of the fifth embodiment used in a usual condition.





FIG. 17

is a diagram showing a surface irradiation state of the headlamp in the fifth embodiment.





FIG. 18

is a diagram for explaining the surface irradiation state of a conventional headlamp and the headlamp in this invention.











DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT




Next, a mode for carrying out the invention will be described with reference to embodiments.




A first embodiment is shown in

FIGS. 1

to


4


.

FIG. 1

is a longitudinal sectional view taken along a line I—I of

FIG. 3

, in a headlamp of this embodiment used in the rain or fog,

FIG. 2

is the same longitudinal sectional view in a normal status, and

FIG. 3

is a front view of a reflection mirror of the headlamp in this embodiment.




In this embodiment, a reflection mirror


14


provided with a single filament bulb


12


is arranged in a light chamber comprising a lamp body


18


and a transparent cover


17


, the single filament bulb


12


is arranged so that its filament if is located at a focal point of the reflection mirror


14


, and the reflection mirror


14


is supported within the lamp body


18


by an aiming means (not shown). This is the same as the structure in the conventional headlamp.




The reflection mirror


14


is so constituted as to generate a suitable low beam thereby to irradiate an irradiation range


2


in the front of a vehicle. Further, at a part of the reflection mirror


14


, a diffusion step


15


is provided, which reflects the light nearby a road surface


4


in 20-40 m front of the vehicle.




Further, in this embodiment, as a luminous distribution changing means for shielding a part of light emitted from the single filament bulb


12


or for changing the reflecting direction of the light, a movable shade


16


is provided, which can appear from a slit


20


provided for the reflection mirror


14


located upward of the single filament bulb


12


. The movable shade


16


is formed in the shape as shown in

FIG. 4

, and a pair of light shielding convex portion


16




a


protruding forward shields the light from the diffusion step


15


, as shown in light shielding regions A and B.




The movable shade


16


is supported at the rear side of the reflection mirror


14


by a guide member


26


extending from the slit


20


backward, and coupled to a leading end of an output rod


24


of an actuator


22


fixed to the lamp body


18


, whereby it can appear in the front of the reflection mirror


14


by action of the actuator. The actuator


22


may be any of an electromagnetic type, an electric motor type, an air pressure type, an oil pressure type, and the like. However, the electromagnetic type that moves the output rod


24


by an electromagnet can be realized with a smallest number of parts.




Of course, as long as the movable shade


16


can shield the light incident in the vicinity of the diffusion step


15


, it may be formed in any shape, and may appear from any position in any direction. Further, a driver operates a switch (not shown) to operate the actuator


22


, whereby the appearance of the movable shade


16


is performed simply and surely. However, the actuator


22


may be operated automatically by a weather sensor for detecting rain or fog.




In this embodiment, when it is fine or cloudy, i.e., in a usual condition, the movable shade


16


is pulled at the back of the reflection mirror


14


as shown in FIG.


2


. Then, a light


1




a


emitted from the single filament bulb


12


, without being shielded by the movable shade


16


, is condensed by the reflection mirror


14


and irradiates a very long distance. Therefore, a high-speed traveling becomes possible. On the contrary, when it is rainy or foggy, as shown in

FIG. 1

, the movable shade


16


is protruded in the front of the reflection mirror


14


. Then, a part of a light


1




b


emitted from the single filament bulb


12


is shielded by the movable shade


16


and is not irradiated forward as shown with a dotted line. Therefore, as shown in

FIG. 18

, the light incident on the road surface


4


is reduced, and a luminous flux


6


becomes weak as well. At this time, a position, a shape and a protruded amount of the movable shade


16


is determined so that the road surface


4


appropriately becomes dark in 20-40 m front of the vehicle.




According to this embodiment, in spite of the headlamp having the single filament bulb


12


, when it is rainy or foggy, this headlamp can weaken the luminous flux


6


from the headlamp. Therefore, the driver can readily see the road surface of the both sides on the downside of the luminous flux


6


. Further, since reflection from the road surface portion


4


in 20-40 m front of the vehicle, where reflection hinders a driver from viewing the forward condition the most, can be reduced, it is possible to reduce the surface reflection from this portion


4


, and it is possible for the driver to see the forward road surface more readily. For this reason, in the case that the headlamp in this embodiment is used, even when it is rainy or foggy, the vehicle can run safely. Further, this improvement is economical.





FIGS. 5

to


7


show a second embodiment.

FIG. 5

is a longitudinal sectional view taken along a line II—II of

FIG. 7

, in a headlamp of this embodiment used in the rain or fog,

FIG. 6

is the same longitudinal sectional view in a usual condition, and

FIG. 7

is a front view of a reflection mirror of the headlamp in this embodiment.




In this embodiment, a light extracting hole


30


is provided for the reflection mirror


14


near the diffusion step


15


for reflecting the light to the portion


4


in 20-40 m front of the vehicle in the first embodiment, and a movable reflector


32


that can open and close the light extracting hole


30


is provided as a luminous distribution changing means that shields a part of the light emitted from a single filament bulb


12


or changes the reflecting direction of the light. One side of the movable reflector


32


is attached to a reflection mirror


14


by a hinge


34


, and one end of a rod


36


is rotatably coupled to a bracket


35


on the rear surface on the other side thereof. The other end of the rod


36


is rotatably coupled to an output rod of an actuator


22


, and the light-extracting hole


30


is opened and closed by action of the actuator


22


.




The position, the shape, and the size of the light extracting hole


30


, when the light extracting hole


30


is opened, are determined so that a road surface portion


4


in 20-40 m front of the vehicle becomes dark since a part


1




b


of the light emitted from the single filament bulb


12


is let go backward thereby not to irradiate the forward portion as shown by a dotted line. Except this point, this embodiment is the same as the first embodiment. Instead of by letting a part of the light go backward, a part of the light may irradiate a portion in the front of the road surface portion


4


by tilting the movable reflector


32


forward in order to darken the road surface portion


4


. Also in this embodiment, by rotating the movable reflector


32


according to the weather, the same effects are obtained as the effects in the first embodiment.





FIGS. 8 and 9

show a third embodiment.

FIG. 8

is a longitudinal sectional view of a headlamp in this embodiment used in the rain or fog, and

FIG. 9

is a longitudinal sectional view of the same used in a usual condition. Similarly to the second embodiment, in this embodiment, a light extracting hole


30


provided for a reflection mirror


14


located upward of a single filament bulb


12


is opened and closed by a movable reflector


33


. However, this movable reflector


33


is directly fixed to an output shaft


24


of an actuator


22


, and moved back and forth by action of the actuator


22


. Except this point, the third embodiment is the same as the second embodiment. Also in this embodiment, by rotating the movable reflector


33


according to the weather, the same effects are obtained as the effects in the first or second embodiment.





FIGS. 10

to


12


show a fourth embodiment.

FIG. 10

is a longitudinal sectional view of a headlamp in this embodiment used in the rain or fog, and

FIG. 11

is a longitudinal sectional view of the same used in a usual condition. In this embodiment, a rear end portion


44


of a lamp body


18


is protruded backward, and a socket-supporting member


42


for supporting a socket


40


of a single filament bulb


12


is slidably fixed between this rear end portion


44


and a reflection mirror


14


. Further, in this embodiment, as a luminous distribution changing means that shields a part of the light emitted from the single filament bulb


12


or changes the reflecting direction of the light, an actuator


22


that is a moving means for moving the single filament bulb


12


is fixed to the rear end portion


44


of the lamp body


18


, and a leading end of an output rod


24


of the actuator


22


is secured to a rear portion of the socket


40


. Therefore, the single filament bulb


12


can be moved back and forth along an optical axis of a reflection mirror


14


by action of the actuator


22


.




In a usual condition, as shown in

FIG. 11

, the single filament bulb


12


is moved so that a filament


1




f


of the single filament bulb


12


is located at a focal point F of the reflection mirror


14


. Then, a light


1




h


emitted from the single filament bulb


12


is condensed into a nearly parallel ray by the reflection mirror


14


, and irradiates the forward range that is distant enough. Therefore, high-speed traveling becomes possible. On the contrary, in the rain or fog, as shown in

FIG. 10

, the single filament bulb


12


is moved so that the filament


1




f


of the single filament bulb


12


is suitably located backward (or forward) of the focal point F. Then, since a light


1




g


emitted from the single filament bulb


12


is diffused to the surroundings as shown in

FIG. 12

, a range


8


on this side and its both sides becomes bright in the shape of a circular arc, while the road surface in the front of this range


8


becomes dark. The position of the single filament bulb


12


in the rain or fog is set to such a position that the road surface


4


in 20-40 m front of the vehicle becomes appropriately dark. A bulb position shown by a dotted line in

FIG. 10

shows a bulb position in FIG.


11


.




Also in this embodiment, the position of the filament if of the single filament bulb


12


can be changed to the focal point F of the reflection mirror


14


and to the position distant from this focal point, whereby the road surface


4


in 20-40 m front of the vehicle can be darkened and the road surface on the both sides can be lightened. Therefore, the same effects are obtained as those in the first to third embodiments. Further, since the driver can recognize the lane mark for his/her vehicle, the driver can drive more easily.




Needless to say, instead of by moving the single filament bulb


12


, the position of the single filament bulb


12


may be changed to the focal point of the reflection mirror


14


and to the position distant from the focal point of the reflection mirror by moving the reflection mirror.





FIGS. 13

to


17


show a fifth embodiment.

FIG. 13

is a front view of a reflection mirror of a headlamp in this embodiment,

FIG. 14

is a perspective view of a luminous distribution changing means used in this embodiment,

FIG. 15

is a longitudinal sectional view of the headlamp in this embodiment used in the rain or fog, which is taken along a line III—III of

FIG. 13

,

FIG. 16

is the same longitudinal sectional view of the headlamp used in a usual condition, and

FIG. 17

is a diagram showing a surface irradiation state of the headlamp in this embodiment.




In the headlamp of this embodiment, as shown in

FIG. 13

, a reflection mirror


14


includes a reflection part


14


A that irradiates a portion A (refer to

FIG. 17

) before a portion in 20 m front of a vehicle, a reflection part


14


B that irradiates a portion B (refer to

FIG. 17

) near a lane mark D at the edge of the road in approximately 10-30 m front of the vehicle, a reflection part


14


C that irradiates a distant portion C (refer to FIG.


17


), and a part


14


G shielded by a shade


54


fixed to the reflection mirror


14


by one or plural legs


52


. In this embodiment, both right and left headlamps have the reflection parts


14


B that irradiate the lane mark D at the edge (on the left) of the road. However, in this embodiment, the reflection part


14


B of the headlamp on the center line E side (on the right) may irradiate a portion F near the center line E (or near the right lane mark) as shown by two-dot chain lines.




As a luminous distribution changing means for shielding a part of the light emitted from a single filament bulb


12


or changing the reflecting direction of the light, a movable shade


50


as shown in

FIG. 14

is provided for the reflection mirror


14


portion located above the single filament bulb


12


. This movable shade


50


has a T-shaped part


50


A for shielding the part


14


A that irradiates the portion A before the portion in 20 m front of the vehicle, and a side part


50


B for shielding the reflection part


14


B that irradiates the lane mark D. The both parts


50


A and


50


B are coupled to a rotational shaft


50


C with crossing at right angles. Further, as shown in

FIGS. 15 and 16

, this movable shade


50


is rotatably supported by a bracket


114




b


provided on the upper wall on the inner surface of the reflection mirror


14


by the rotational shaft


50


C.




When it is fine or cloudy, i.e., in a usual condition, the distant portion C ahead of the vehicle is irradiated with a reflection light Rc from the reflection part


14


C. Further, regarding the movable shade


50


, as shown in

FIG. 16

, by an actuator (not shown), the side part


50


B is hung down and the T-shaped part


50


A is pulled up horizontally. Then, by the action of the movable shade


50


, a reflection light Rb from the reflection part


14


B that irradiates the portion B near the lane mark D is shielded, so that the portion near the lane mark D becomes dark. Further, a reflection light Ra from the reflection part


14


A that irradiates the portion A before the portion in 20 m front of the vehicle is emitted forward, so that the portion A before the portion in 20 m front of the vehicle can be irradiated brightly.




When it is rainy or foggy, similarly to the case when it is fine or cloudy, i.e., in a usual condition, the distant portion C ahead of the vehicle is irradiated with the reflection light Rc from the reflection part


14


C. As shown in

FIG. 15

, the T-shaped part


50


A of the movable shade


50


is hung down by the actuator (not shown), and the side part


50


B is pulled up horizontally. Then, by the action of the movable shade


50


, a reflection light Ra from the reflection part


14


A that irradiates the portion A before the portion in 20 m front of the vehicle is shielded, so that the portion A on this side of the portion in 20 m front of the vehicle becomes dark. Further, the reflection light Rb from the reflection part


14


B that irradiates the portion B near the lane mark D is emitted forward, so that the portion B near the lane mark D can be irradiated brightly.




Also in this embodiment, by turning the movable shade


50


according to the weather, the same effects are obtained as those in each of the aforesaid embodiments. Further, when it is rainy or foggy, even if the portion A before the portion in 20 m front of the vehicle is darkened, the lane mark D in 10-20 m front of the vehicle is irradiated brightly. Therefore, the automobile lane can be confirmed clearly, and the driver can drive the vehicle more readily. Particularly, in the rain, the surface reflection before the portion A in 20 m front of the vehicle gives glare to the vehicle on the opposite lane. However, in this embodiment, when it is rainy, since the portion is darkened, the glare is seldom given to the vehicle on the opposite lane.




The invention is not limited to the aforesaid embodiments, but there are other various embodiments. For example, as a light source, not only the single filament bulb


12


but also a light source such as a discharge lamp can be used. Further, not by using the actuator


22


but by using a driving means such as a cable, the movable shade


16


, the movable reflection mirrors


32


,


33


, the single filament bulb


12


, or the reflection mirror


14


in each of the embodiments may be moved by human power.




As clear from the above description, according to the first to seventh aspects of the invention, when it is rainy or foggy, the forward road surface portion on the both sides becomes visible by darkening a part of the forward road surface. Therefore, the vehicle can run safely also in the rain or fog. Further, this improvement is economical.




Particularly, according to the fifth or sixth aspect of the invention, when it is rainy or foggy, even if a part of the front road surface is darkened, the lane mark for the driver's vehicle can be irradiated brightly. Therefore, the driver can drive the vehicle more readily.




Further, according to the seventh aspect of the invention, when it is rainy, since the portion A in 20 m front of the vehicle is darkened, it is possible to prevent the surface reflection from this portion from giving glare to the vehicle on the opposite lane.



Claims
  • 1. A headlamp comprising:a light source; a reflection mirror supporting said light source; a light chamber defined by a transparent cover and a lamp body, said light chamber accommodating said light source and said reflection mirror; and a luminous distribution changing member that is movable in front of a portion of the reflection mirror and only over an upper portion of the light source, the luminous distribution changing member shielding a part of light from said light source or changing a reflecting direction of the light, wherein the luminous distribution changing member is movable to a back portion of the reflection mirror when not shielding a part of the light from said light source, and wherein a part of a front road surface is darkened by said luminous distribution changing member.
  • 2. The headlamp according to claim 1, wherein a part of the front road surface is a surface portion in 20-40 m front of a vehicle.
  • 3. The headlamp according to claim 1, wherein a part of the front road surface is located before a portion in 20 m front of a vehicle.
  • 4. A headlamp comprising:a light source; a reflection mirror supporting said light source; a light chamber defined by a transparent cover and a lamp body, said light chamber accommodating said light source and said reflection mirror; and a luminous distribution changing member that is movable in front of a portion of the reflection mirror and only over an upper portion of the light source, the luminous distribution changing member shielding a part of light from said light source or changing a reflecting direction of the light,wherein the luminous distribution changing member is movable to a back portion of the reflection mirror when not shielding a part of the light from said light source, and wherein a reflection part for irradiating a lane mark is provided for a part of said reflection mirror, and when a part of the front road surface is darkened by said luminous distribution changing member, reflection light from said reflection part is emitted to the lane mark.
Priority Claims (2)
Number Date Country Kind
P2000-311882 Oct 2000 JP
P2001-310047 Oct 2001 JP
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Entry
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