Electric lamp and discharge devices – With optical device or special ray transmissive envelope – Plural diverse optical devices
Reexamination Certificate
2002-03-22
2004-03-02
Wong, Don (Department: 2821)
Electric lamp and discharge devices
With optical device or special ray transmissive envelope
Plural diverse optical devices
C313S113000, C362S268000, C362S309000
Reexamination Certificate
active
06700316
ABSTRACT:
This invention claims the benefit of Japanese patent application No. 2001-85090, filed on Mar. 23, 2001, which is hereby incorporated by reference.
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a lamp for vehicles such as headlamp, a fog lamp, or the like, and more particularly to a projector type lamp. A projector typeamp used herein can be composed of: an ellipsoidal reflector having a first focal point and a second focal point that is formed, for example, as a spheroid-of-revolution surface, or an elliptic free-curved surface; a light source arranged in the vicinity of the first focal point of the reflector; a projection lens arranged with its focal point located in a vicinity of the second focal point on which light emitted from the light source and reflected by the reflector converges; and a shade, as may be required, for controlling light distribution characteristics, arranged in the vicinity of the focal point of the projection lens.
2. Description of the Related Art
An example of a conventional projector type lamp
90
of the type mentioned above is shown in FIG.
13
. The projector type lamp
90
is composed of: a reflector
91
which is formed, for example, as a spheroid-of-revolution surface having a first focal point f
1
and a second focal point f
2
; a light source
92
arranged in the vicinity of the first focal point f
1
of the reflector
91
; and a projection lens
93
arranged such that a focal point f
3
thereof is located in the vicinity of the second focal point f
2
on which light emitted from the light source
92
and reflected by the reflector
91
converges.
Here, it is preferable to additionally employ a shade
94
. Only beams of light required for producing an intended light distribution characteristic are permitted to pass above the shade
94
, and unnecessary portions of light that converge on second focal point f
2
are blocked thereby. This makes it possible to realize a projector type lamp
90
having appropriate light distribution characteristics such that, for example, when the shade
94
is located in the light path, a passing beam (hereafter referred to as “low beam”) is turned on, and, when the shade
94
is retracted from the light path, a driving beam (hereafter referred to as “high beam”) is turned on.
In the conventional projector type lamp
90
, however, the light having converged on the second focal point f
2
once, and which is expected to diverge radially thereafter, is condensed by the projection lens
93
to such an extent that it is projected in an illumination direction. Thus, the projected light is apt to diverge radially even after passing through the projection lens
93
. This makes it difficult to satisfactorily focus light at a desired position.
Accordingly, the projector type lamp
90
, though having the advantage of producing a light distribution characteristic of desired profile, particularly of forming a cut-off line of a low beam, has a limited degree of freedom in luminance distribution within the profile of the light distribution characteristic. Thus, the projector type lamp
90
cannot be suitably used as a lamp which illuminates a faraway area more brightly than a front, closer area, such as a headlamp for high-beam distribution.
Moreover, the projection lens
93
appears circular when seen from the front, and, when the projector type lamp
90
is mounted on a vehicle, only the projection lens
93
is visible. Therefore, any lamp of this type provides similar impressions, and it is substantially impossible to render design variations according to the type of a vehicle on which the light is mounted. That is, the conventional projector type lamp
90
has a disadvantage in that it lacks design flexibility.
Further, since the heat produced by the light source
92
is considerably concentrated on the projection lens
93
, a sharp temperature rise is inevitable. This necessitates the use of a glass member which is excellent in heat resistance, leading to an increase in cost and making it difficult to achieve weight reduction. These are examples of problems in the art that need to be solved.
Note that, in order to obtain the above-described illumination characteristics, namely, to illuminate a faraway area more brightly than a front area, and to increase the flexibility in design, there has been proposed a horizontally elongated projection lens. This projection lens is formed by cutting end portions in a vertical direction of the projection lens so that it appears substantially oval when viewed in a direction of an optical axis. However, such a horizontally elongated configuration cannot be realized without using an unprocessed projection lens that has a large outer diameter in terms of the need for cutting. The larger the outer diameter of a lens, the greater the thickness. This makes weight reduction very difficult.
SUMMARY OF THE INVENTION
In view of the foregoing, an object of the present invention is to provide a projector type lamp having an excellent light illumination characteristic in which a distant area is illuminated more brightly than an area closer to the lamp. The lamp can be made thin and lighter in weight, and have a shape of novel design when seen from the front, that is, offering a differentiating feature in terms of outward appearance, unlike conventional projection lenses. Another object of the present invention is to provide a projector type lamp in which it is possible to use light coming from a reflecting surface, even light which is typically not utilized when using a conventional Fresnel lens (because the light becomes glare light), thus increasing a quantity of light emitted from a vehicle lamp while also reducing weight of the lamp without causing glare light.
To attain the above objects, a projector type lamp according to the present invention can include: an ellipse group reflector having a first focal point and a second focal point; a light source arranged in a vicinity of the first focal point of the reflector; and a projection lens arranged with its focal point located in a vicinity of the second focal point on which light emitted from the light source and reflected by the reflector converges. The projection lens can be formed by combining a plurality of processed projection lens elements that are fabricated by processing a plurality of unprocessed projection lenses that are substantially identical in optical axis center and focal point yet different in outer diameter. The projection lens can have a substantially rectangular shape in a plan view as seen in an optical axis direction. Boundary portions between the plurality of processed projection lens elements in the plan view can be composed of a line connecting points of intersection between a contour line of the projection lens and a line defining part of each unprocessed projection lens at which the thickness of the lens is substantially zero as measured/viewed in the optical axis direction. (Contour lines defined as lines that define the periphery of the projection lens when viewed from the front along the optical axis.) Thereby, lens surfaces of the processed projection lens elements can be continuous with one another through stepped portions. A longitudinal section of each of the stepped portions includes a straight line substantially parallel to the optical axis in a longitudinal section of the projection lens. In other words, the stepped portions are separated from each other by a lens surface that is substantially parallel to the optical axis of the lens.
With this projector type lamp according to the invention, it is possible to obtain an excellent light illumination characteristic in which a distant area is more brightly illuminated than an area closer to the lamp. Moreover, the projection lens can be made slimmer and lighter in weight, and, unlike a conventional circular projection lens, can have a shape of novel design when seen from the front, that is, it can offer a differentiating feature in terms of outward appearance. Further, the junctions among the lens surfaces constituting th
Koike Teruo
Taniuchi Hitoshi
Dinh Trinh Vo
Morgan & Lewis & Bockius, LLP
Stanley Electric Co. Ltd.
Wong Don
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