JPH05283045A - Metal halide lamp - Google Patents

Abstract

PURPOSE:To prevent the expansion of a luminous tube, and ensure the long service life of a metal halide lamp used in the form of only the luminous tube without any outer tube. CONSTITUTION:The section 1b of a quartz luminous tube 1 where an insulation and reflector film 5 is applied, is formed so as to have inner surface tapered nearly straight toward a sealed section at one side. The thickness of the section 1b applied with the film 5 is made thicker than the other section 1a of the tube 1. In addition, electrodes 2 and 2' are laid at both ends of the tube 1 and rare earth metal halogen compound DyI3-NdI3-CsI, HgI2, Hg and Ar are sealed into the tube 1, thereby constituting a metal halide lamp.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a metal halide lamp, which is used only as an arc tube without an outer tube.
The present invention relates to a metal halide lamp used as a relatively small image light source.

[0002]

2. Description of the Related Art Conventionally, a short arc metal halide lamp, which is used only as an arc tube without providing an outer tube, has a good color rendering property and a high luminous efficiency. , Is used as a light source for overhead type liquid crystal projection TVs and projectors, and is becoming popular.

Next, a structural example of such a short arc metal halide lamp will be described with reference to FIG. In the figure, 1 is an arc tube, maximum outer diameter 11 mm, maximum inner diameter 8.8 mm,
Tungsten wire with a diameter of 0.45 mm was obtained by closely winding a tungsten wire with a diameter of 0.3 mm into a discharge vessel made of quartz with a distance of 10 mm between embedded electrodes and an internal volume of 0.4 cc. The electrodes 2 and 2'which are attached to the core rod at a distance of 0.5 mm from the tip end are embedded in the seal portions at both ends so that the arc length is 5 mm. In addition, 3,3 'is a molybdenum foil, and 4,4' is a power supply lead wire.

The wall thickness of the body of the arc tube 1 is substantially uniform and is 1.1 to 1.3 mm. One electrode 2 '
Around the outer periphery of the arc tube and the seal, a heat insulating and reflecting film 5 consisting of about 50% alumina and 50% silica is about 0.2 mm thick.
Is formed by coating. As an arc tube additive, DyI ₃
-NdI ₃ -CsI in a weight ratio of 8: 2: 5 is 0.4.
In addition to mg to 0.8 mg, HgI ₂ for squeezing the arc and effectively utilizing the arc, 0.2 mg, and 10 mg of mercury for adjusting the lamp voltage, 20 KPa of starting auxiliary gas Ar is enclosed.

The metal halide lamp thus constructed is lit by a rectangular wave electronic ballast capable of obtaining a lamp power of 150 W in a horizontal lighting posture.

[0006]

By the way, the metal halide lamp which is used only in the arc tube without providing the outer tube as described above, is different from the arc tube arranged in the outer tube and used.
In order to obtain a desired arc tube vapor pressure, a high tube wall load of 30 W / cm ² or more is applied. Therefore, during lighting, 500 to 600
After a lapse of time, the arc tube portion provided with the heat retaining / reflecting film 5 swells around the portion A shown in the drawing and the inner volume increases. Therefore, there is a problem that the lamp voltage significantly decreases from a predetermined value, the predetermined lamp power is not input, the color change significantly increases, and the illuminance lowers significantly. This occurs because the devitrification of the portion A is large and the temperature of the portion A is further increased by the heat retaining / reflecting film 5 during lighting by the enclosed DyI ₃ together with the internal pressure of the arc tube.

As a countermeasure against this, a method of increasing the maximum outer diameter of the arc tube to increase the wall thickness or increasing the wall thickness without changing the maximum outer diameter is considered so that the arc tube does not expand during the life. However, if the maximum outer diameter is increased and the wall thickness is increased, the heat conduction loss increases and the vapor pressure decreases, resulting in poor color characteristics, total luminous flux, and illuminance. There is. If the maximum outer diameter is not changed and the wall thickness is adjusted, the initial color and brightness are not inferior, but the devitrification speed becomes more remarkable, and the clear part of the light emitting part becomes frosted and the illuminance deteriorates significantly. Another problem occurs.

The present invention has been made to solve the above problems in the conventional metal halide lamp, and provides a metal halide lamp capable of preventing the arc tube from bulging and preventing characteristic deterioration during the life of the lamp. With the goal.

[0009]

In order to solve the above problems, the present invention provides electrodes at both ends to enclose at least a rare earth metal halide and keeps the outer peripheral surface of the arc tube near one of the electrodes warm. In a metal halide lamp that uses an arc tube coated with a reflective film without an outer tube, the inner volume is 1 cc or less and the wall load is 30 W / cm ² or more.
The wall thickness of the arc tube portion coated with the heat retaining / reflecting film is made thicker than the wall thickness of the arc tube portion not coated with the heat retaining / reflecting film.

As described above, by making the arc tube portion coated with the heat retaining / reflecting film thicker than the other portions, it is possible to prevent the arc tube from bulging during the life, to prevent characteristic deterioration, and to extend the life. It can be measured.

[0011]

EXAMPLES Next, examples will be described. FIG. 1 is a cross-sectional view showing an embodiment of the metal halide lamp according to the present invention, and the same or corresponding parts as those of the conventional example shown in FIG. In the present invention, the thickness of the portion 1b of the arc tube 1 where the heat retaining / reflecting film 5 is applied and formed is made thicker than the thickness of the other portion 1a. In this embodiment, the arc tube shape has a maximum outer diameter of 11 mm and a maximum inner diameter.
Arc tube part 1 with 8.8 mm that does not have heat insulation and reflection film 5
The thickness of a is 1.1 to 1.3 mm, which is the same as that of the conventional example shown in FIG. 2, and the arc tube portion 1b on the side where the heat retaining / reflecting film 5 is applied is formed on one side as shown in the figure. The inner surface is tapered toward the seal portion with a shape close to a straight line. Therefore, in the portion 1b where the heat retaining / reflecting film 5 is formed, A
The thickest part is about 1.6 mm, and the internal volume of the arc tube is 0.35 cc. Then, similarly to the conventional example shown in FIG. 2, the electrodes 2 and 2'are embedded in the arc tube 1 having such a shape, and the same additives are enclosed to form a metal halide lamp. The arc tube load of this example is about 42 W / cm ² .

[0012] Examination of thus constituted metal halide lamp lit using conventional example and the rectangular wave electronic ballast lamp power 0.99 W in a horizontal lighting position obtained analogously characteristics, R _a is 86, (X, y) coordinates are (0.30, 0.325)
), The total luminous flux was 12500 lm, and it was found that there was no problem as the initial characteristics. In terms of life characteristics, the bulb 1 did not swell even after 1000 hours of lighting, and the devitrification rate was almost the same as that of the conventional example shown in FIG.

However, if the wall load is less than 30 W / cm ² , the devitrification rate will be slow, but the original color characteristics will be remarkably inferior and the commercial value will be lost, so the wall load will be 30 W / cm ^2.
It turns out that it must be at least cm ² . Further, since the metal halide lamp according to the present invention is used as a light source for an image device or the like using an optical system, if the inner volume of the arc tube exceeds 1 cc, optical parts such as a mirror and a lens become large, and therefore, the device. Is also unfavorable because it becomes large. Further, in the case of a large-sized lamp exceeding 1 cc, it is possible to normally provide the blowing means locally so as to intensively cool only the high temperature portion, so that the effect of the constitution of the present invention is reduced. Therefore, in the present invention, the internal volume of the arc tube is specified to be 1 cc or less.

[0014]

As described above on the basis of the embodiments,
According to the present invention, it is possible to prevent the arc tube from bulging during the life and to prolong the life without deteriorating the color characteristics and the like.

[Brief description of drawings]

FIG. 1 is a sectional view showing an embodiment of a metal halide lamp according to the present invention.

FIG. 2 is a cross-sectional view showing a configuration example of a conventional metal halide lamp.

[Explanation of symbols]

 1 arc tube 2,2 'electrode 3,3' molybdenum foil 4,4 'power supply lead wire 5 heat retaining and reflecting film

Claims (1)

[Claims] 1. A metal halide in which an arc tube having electrodes at both ends and at least a rare earth metal halide enclosed and a heat insulating / reflecting film applied on the outer peripheral surface of the arc tube in the vicinity of one electrode is used without providing an outer tube. The internal volume of the lamp is 1cc
In the following, the wall load is set to 30 W / cm ² or more and the wall thickness of the arc tube portion coated with the heat retaining / reflecting film is made thicker than the wall thickness of the arc tube portion not coated with the heat retaining / reflecting film. Is a metal halide lamp.