Discharge lamp including heat releasing device and lamp device

Electric lamp and discharge devices – With temperature modifier – Having heat conducting path

Reexamination Certificate

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C313S018000, C313S019000, C313S025000, C313S047000, C313S635000, C362S263000, C362S264000, C362S265000, C362S266000, C362S267000

Reexamination Certificate

active

06784601

ABSTRACT:

TECHNICAL FIELD
The present invention relates to a discharge lamp having a pair of opposing discharge electrodes and enclosing mercury, rare gases, and so forth in an arc tube. It also relates to a lamp device constructed such that this kind of discharge lamp is built into the inside of a reflector. This lamp device can be used as, for example, the light source of a screen projector.
BACKGROUND ART
Conventionally, as, for example, the light source of a screen projector, a lamp device provided with a discharge lamp, such as a high-pressure mercury vapor discharge lamp, inside a concave reflector has been used. A discharge lamp is constructed such that a pair of opposing discharge electrodes is provided, and mercury, rare gases, and so forth are enclosed in an arc tube. In order that the interior of the arc tube be gastight, power is supplied to the discharge electrodes by means of wiring members enclosed in sealed portions, which are provided on both sides of the arc tube, and connected by welding or the like. In addition, by adjusting the discharge electrodes so as to be at a comparatively short distance from each other and forming an arc having a short arc length (short arc), projected light is efficiently supplied to a specified optical system, and thus a bright image can be projected on a screen.
A discharge lamp such as the one described above is characterized in that the arc tube reaches a very high temperature during operation. Specifically, in, for example, a 100 W to 150 W common short arc high-pressure mercury vapor discharge lamp, the maximum temperature of the arc tube (the interior wall surface side of the upper portion of the arc tube) is approximately 900° C. to 1000° C. In addition, the temperature of the sealed portions is about 500° C., lower than the above-mentioned maximum temperature, but still a rather high temperature. For this reason, the wiring members disposed in the sealed portions are composed of a high melting point metal such as molybdenum. However, when the temperature of these sealed portions rises too much, the welded portions of the wiring members in the sealed portions and near the sealed portions begin to oxidize, corrode, and the like resulting in disconnection, and there is a risk of the lamp being extinguished. Thus, in a common projector, a cooling fan is provided in the main body of the projector making it possible to prevent an excessive temperature rise of the discharge lamp and the reflector. It is to be noted that, in order to prevent disconnection by oxidation and the like of the welded portions of the wiring members as described above, it is thought that the temperature of the above-mentioned welded portions should be regulated according to, for example, the standard (350° C.) specified in the regulations for halogen lamps, “Tungsten Halogen Lamps,” IEC (International Electrochemical Commission) 60357 and “Halogen Lamps,” JIS (Japanese Industrial Standards) C7527, and it is preferable to restrict the temperature to, at the highest, 400° C. or less.
In addition, the discharge lamp is characterized in that the inside of the arc tube reaches a very high pressure during operation. Specifically, in, for example, a 100 W to 150 W common discharge lamp as above, the pressure (operating pressure) of the inside of the arc tube approaches 200 atmospheres. For this reason, when the arc tube is damaged during lamp operation, large explosive sounds and the scattering of glass fragments tend to result. The occurrence of these kinds of large explosive sounds and scattering of glass fragments, for example, especially when the discharge lamp is applied to projectors for household use, is a factor in lowering the commercial value of the lamp. Thus, lamp devices which block the open end of the reflector with a glass plate to lower the frequency of explosive sounds and the scattering of glass fragments are widely used. When a completely hermetically sealed space is formed between the reflector and the glass plate by the reflector and the glass plate, the temperature rise of the discharge lamp is considerable. On the other hand, when a notch or the like is provided in the reflector and/or the glass plate and outside air is circulated inside the lamp in order to cool the discharge lamp, in event that the arc tube is damaged, substantial reduction in explosive sounds and consistent prevention of the scattering of glass fragments and dispersal of mercury vapor are difficult to achieve.
Furthermore, in recent years, there have been increasing demands for an increase in the brightness of projected images and a reduction in the size of projectors. However, because increase in lamp power and reduction in the size of the reflector, which accompany these demands, invite an even greater temperature rise in discharge lamps, it has been difficult to satisfy the demands. Therefore, in order to sufficiently satisfy the increasing demands for an increase in the brightness of projected images and a reduction in the size of projectors, effective restriction of the temperature rise of a lamp device accompanying an increase in output and reduction in the size of a reflector and above all restriction of a temperature rise at the welded portions of wiring members are needed.
DISCLOSURE OF THE INVENTION
In view of the foregoing problems, it is an object of the present invention to provide a high-pressure vapor discharge lamp and a lamp device which, even with an increase in lamp power and a reduction in the size of the reflector, can prevent disconnection due to oxidation and the like of the welded portions of wiring members and the like and with which a lengthening of lamp life and a decline in the percentage of defective lamps can be expected. It is another object of the present invention to provide a lamp device that can reduce explosive sounds from the arc tube and consistently prevent the scattering of glass fragments and the dispersal of mercury vapor.
The foregoing problems are solved in one aspect of the invention, by the provision of a lamp device comprising:
a discharge lamp comprising an arc tube, the arc tube enclosing luminescent materials and having disposed therein a pair of opposing electrodes, and a pair of sealed portions extending from the arc tube (namely, the sealed portions are coupled to the arc tube);
a reflector which reflects light radiated by the discharge lamp;
a transparent member covering an open end of the reflector and accommodating the discharge lamp in a space between the transparent member and the reflector; and
means for preventing an excessive temperature rise wherein the temperature rise of welded parts of wiring members electrically connected to the electrodes is restricted.
In other words, according to the present invention, in a lamp device accommodating a discharge lamp in a space formed by a reflector and a transparent member covering the reflector, a means for preventing an excessive temperature rise of the wiring members and welded parts of the wiring members caused by the generation of heat accompanying operation of the lamp is provided. Through this means, it is possible to limit thermal degradation of the welded parts of wiring members. Thus, disconnection at the welded parts is prevented, and a lengthening of lamp life and a decline in the percentage of defective lamps can be anticipated. In addition, demands for increased lamp power and reduction in the size of reflectors can be responded to without difficulty.
The discharge lamp may have a foil sealed construction.
The present invention is useful in so-called foil sealed construction discharge lamps, which are widely used. In foil sealed construction discharge lamps, metal foils, serving as the wiring members in the sealed portions and capable of securing a large area of contact, are used such that adhesion is maintained despite the difference in the coefficients of thermal expansion of the glass and the metal foils, and the hermetic seal of the space in which the electrodes and so forth are disposed is maintained despite damage from thermal shock between the glass that fo

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