Light source device

Electric lamp and discharge devices – With gas or vapor – Having specified electrode spacing

Reexamination Certificate

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Details

C313S113000

Reexamination Certificate

active

06483239

ABSTRACT:

TECHNICAL FIELD
This invention relates to a light source device, and more particularly a light source that is used as a light source for a projector or a light source for a fiber lighting system.
BACKGROUND ART
In general, in the case of a light source device used as a light source for a projector or a light source for a fiber lighting system, it is necessary to achieve that light radiated from a light source lamp is collected efficiently and radiated against an area to be irradiated. Normally, such a light source device as described above is constituted by a short arc discharge lamp and a concave reflector for collecting light radiated from the discharge lamp.
In recent years, it has been required to provide a small-size light source device in which the rate of utilization of light radiated from the short arc discharge lamp is high.
FIG. 7
is an illustrative view showing one example of a configuration of this kind of light source device in the prior art. This light source device
50
is constituted such that a short arc discharge lamp
51
is assembled in a concave reflector
58
.
A discharge container of the short arc discharge lamp
51
is constituted by a light emitting bulb
52
and sealing parts
53
extending at both ends of the light emitting bulb
52
, wherein a cathode
54
and an anode
55
are arranged opposite to each other within the light-emitting bulb
52
.
The light-emitting bulb
51
of the discharge container is formed to have a rugby-ball type spinning barrel shape, for example, having a large inner surface area in view of its purpose to reduce the load on the bulb wall and prevent the phenomenon of devitrification of the light-emitting bulb
51
.
In turn, the concave reflector
58
, for example, is a mirror having an elliptical surface with an optical axis L, the discharge lamp
51
is arranged such that it coincides with the optical axis L in its arc discharge direction, and a bright spot position A of the arc formed between the cathode
54
and the anode
55
(hereinafter called “a center of the arc”) is coincident with a first focal point of the concave reflector
58
.
In the case of the light source device
50
, light radiated toward a rear region positioned in a rear part (the left side in the figure) of a virtual straight line N connecting any point M on the front outer edge of the concave reflector
58
with the center A of arc is collected by the concave reflector
58
and radiated against the area to be irradiated.
However, light radiated toward the front region positioned in front of the virtual straight line N, for example, almost all light I
3
of the radiated light I
11
radiated from the center A of the arc in one possible forward direction P, passes through the bulb wall of the light emitting bulb
52
, and the light cannot be collected by the concave reflector
58
, with the result that the light cannot be effectively utilized.
In turn, the part I
12
of the light of the radiated light I
11
is reflected by an inner surface
52
a
of the bulb wall of the light emitting bulb
52
, and the part of light I
22
of light I
21
which penetrated an inner surface and passed through the inner surface
52
a
of the bulb wall is reflected by the outer surface
52
b
of the bulb wall. In this case, the rate of light reflected by both surfaces reaches 8% of the incident light.
However, since the directions of the inner surface reflecting light I
12
and the outer surface reflecting light I
22
are not appropriate, or the light is shut off by the electrodes, or a part of it is absorbed by the electrodes, both types of light cannot be utilized effectively.
In order to increase the rate of utilization of light radiated from the short arc discharge lamp, the specification of U.S. Pat. No. 4,305,099, for example, provides a light source device having a constitution in which a ring-like auxiliary concave reflector is arranged at a forward position of the concave reflector in such a way that the first focal point is coincident with a first focal point of the concave reflector.
However, actually, it is quite hard to arrange the auxiliary concave reflector at a proper position with high accuracy so that at last there occurs the problem that the characteristic of a spot light source of the short arc type discharge lamp is lost.
As described above, in the case of the light source device utilizing a prior art short arc discharge lamp, actually, the light reflected at the light-emitting bulb cannot be utilized effectively and a high rate of utilization of light cannot be realized.
An object resolved by the present invention is to provide a small-size light source device having a simple construction and showing a high rate of utilization of light radiated from the short arc discharge lamp.
DISCLOSURE OF INVENTION
In order to solve the problem described above, the light source device of the present invention is comprised of a short arc discharge lamp in which a pair of electrodes are arranged opposite within a light emitting bulb of a discharge container, and a concave reflector is arranged in such a way that the arc direction of the discharge lamp is coincident with the optical axis, wherein a distance between the electrodes in the short arc discharge lamp is 4.0 mm or less, the light emitting bulb of the short arc discharge lamp, at least in a specific portion of its inner surface and its outer surface, has a spherical surface surrounding a center (A) of the arc, wherein the specific portion is in a front region in front of a critical straight line (D) and is defined by a solid angle of at least 3 sr or more, with the center (A) of the arc being an apex and the optical axis (L) of the concave reflector being a central axis, and wherein the critical straight line (D) is a straight line connecting the center (A) of the arc with a point (Y) corresponding to a cross point where an extended line of a virtual straight line (N) connecting any point (M) on the front outer edge of the concave reflector with the center (A) of the arc intersects the outer surface of the bulb wall of the said light emitting bulb.
Further, in the case of the aforesaid light source device, it is preferable that the outer surface at least in the specific portion of the light emitting bulb of the short arc discharge lamp is provided with a reflective film.
Further, in the case of the aforesaid light source device, the short arc discharge lamp can be made such that a cathode and an anode are arranged opposite to each other within a light emitting bulb in a discharge container, the cathode is arranged within the concave reflector while being positioned at a forward position, the light emitting bulb has a form elongated in a direction of the optical axis (L) within a rearward region where it is positioned at a more rear part than the critical straight line (D).
In accordance with the aforesaid configuration, a part of the light radiated toward the front region can be utilized advantageously, resulting in that a high rate of utilization of light can be realized. That is, the inner surface and the outer surface of at least the specific portion in the front region of the light emitting bulb of the short arc type discharge lamp are spherical surfaces, the center of the spherical surface is coincident with the center of the arc, whereby the light reflected by these surfaces is returned back to the arc region, resulting in that the reflected light can be utilized effectively by the concave reflector.
In the case that a reflective film is formed on the outer surface in at least the specific portion in the front region of the light emitting bulb of the short arc type discharge lamp, the light which must pass through the outer surface of the bulb wall of the light emitting bulb is also reflected and returned back to the arc region, resulting in that almost all of the light radiated toward the front region can be utilized effectively by the concave reflector and at the same time the constitution of the light source device can be made simple and small in size.


REFERENCES:
patent: 4305099 (1981-12-01), True e

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