JPH0439661Y2 - - Google Patents

Description

[Detailed description of the invention] [Industrial application field] The present invention aims to improve the life characteristics of a metal halide lamp (hereinafter referred to as a ceramic metal halide lamp) using a translucent alumina ceramic tube as its arc tube during horizontal lighting. It is related to.

[Prior art and its problems] When producing a ceramic metal halide lamp consisting of a ceramic tube and an end cap, a sealing material is generally used to fix the ceramic tube and the end cap. . As this sealing material, La ₂ O ₃ −B ₂ O ₃ −P ₂ O ₅ −Al ₂ O ₃ −MgO
system, Dy ₂ O ₃ −Al ₂ O ₃ −SiO ₃ system, Al ₂ O ₃ −SiO ₂ −La ₂
Mixed oxides such as O ₃ -Y ₂ O ₃ are known. or,
Metal halides such as ScI ₂ and DyI ₃ are added as additives in the arc tube.

The sealing material described above has inferior halide resistance against added iodides and the like when compared to alumina ceramic. Therefore, the life characteristics of ceramic metal halide lamps largely depend on the halide resistance of this sealing material. Further, the metal halide reaches a high temperature of 900 to 1100°C during lighting, and the molten liquid of the added metal halide aggregates in the lowest temperature part of the arc tube. The part where this melt coagulates becomes the part where the erosion reaction is most active. Therefore, when this molten liquid comes into contact with a sealing material that has relatively low resistance to halides, the sealing material is selectively eroded, leading to arc tube leakage.

FIG. 1 shows a conventional ceramic metal halide lamp having a structure using sealing material at both ends.
In the figure, 1 is a translucent ceramic tube, and end caps 2 and 2' made of conductive cermet made of alumina tungsten are attached to both ends of the tube.
3' and is airtightly fixed. Further, electrodes 4, 4' are sealed inside the arc tube of the end cap, and metal halide is added to the inside of the tube. 5,
5' indicates an external lead wire.

When this is lit vertically, the sealing material and the added metal halide come into contact at the sealing part at the lower end of the arc tube, so if it is lit for about 2000 hours after being lit for a long time, the sealing material at the lower end of the arc tube will come into contact. This erosion eventually leads to arc tube leaks. Therefore, as shown in FIG. 2, an arc tube has been proposed in which the lower end of the arc tube is integrally sintered without using a sealing material. That is, an end cap 2a is airtightly fixed to one end of the translucent ceramic tube 1 via a sealing material 3, and the other end cap 2b is integrally sintered to the end of the ceramic tube. It is fixed airtight. Note that the same reference numerals in the figure as in FIG. 1 indicate the same parts. With this structure, the sealing material and the metal halide melt do not come into contact at the lower end of the arc tube, and only come into contact with the metal halide vapor at the upper end of the arc tube, so the time it takes for arc tube leakage to occur is reduced to approx. Extends to 4000 hours, improving the life characteristics of the arc tube. It is important to create a structure in which the sealing material and the added metal halide melt do not come into contact with each other in the ceramic metal halide arc tube in order to improve the life characteristics of the arc tube. When lighting the lamp vertically, the second
In the lamp with the structure shown in the figure, it is possible to avoid contact between the sealing material and the added metal halide melt in the arc tube, but when the lamp is lit horizontally, Contact between the sealing material and the added metal halide melt cannot be avoided. Therefore, there is a drawback that the arc tube life characteristics vary widely.

[Purpose of invention]

The object of the present invention is to improve the luminescence life characteristics of a ceramic metal halide lamp when it is operated horizontally.

[Structure and action of the device]

In order to improve the life characteristics of ceramic metal halide lamps, it is necessary to prevent the sealing material from coming into contact with the additive metal halide melt. The added metal halide melt condenses in the lowest temperature part inside the arc tube.

Therefore, in a ceramic metal halide lamp, the condition for preventing the sealing material from coming into contact with the added metal halide is to configure the lamp so that the portion of the sealing material exposed within the arc tube does not become the coldest part. In other words, if the arc tube structure is designed to have such a temperature distribution, the life characteristics of the ceramic metal halide lamp when the lamp is operated horizontally will be greatly improved.

FIG. 3 shows an embodiment of the metal halide lamp according to the present invention, in which an end cap made of conductive cermet made of alumina tungsten is hermetically fixed to the end of a translucent ceramic tube 11. One end cap 12a is fixed via a sealing material 13, and an electrode 14 is sealed on the inner end surface of the tube, and an external lead wire 15 for connection to an external power source is sealed on the outer end surface. Further, the other end cap 12b is integrally sintered to the end of the ceramic tube to be airtightly fixed without using a sealing material or the like, and the electrode 14 and external lead wire 15 are sealed as before. There is. A metal heat insulating plate 16 is installed around the outer periphery of the end of the arc tube on the one end cap 12a side which is airtightly fixed via the sealing material. Metal halides such as ScI ₂ and DyI ₃ are added to the interior of the arc tube.

In this way, when a ceramic metal halide lamp is lit horizontally, by insulating only the end portion where the sealing material is used, the sealed portion using the sealing material within the arc tube does not become the coldest part. This is done to prevent the added metal halide melt from agglomerating. Such a structure prevents the sealing material exposed inside the arc tube from coming into contact with the added metal halide melt. Therefore, the life of the arc tube of the ceramic metal halide lamp is long and the life characteristics are stable.

In addition, when the above-mentioned heat insulation plates are installed at both ends, the temperature will be lower at both ends where the sealing material is used, and there is a high possibility that the sealing material will be the coldest part, and the temperature will be lower at both ends where the sealing material is used. The drawback is that the life characteristics vary widely.

[Effect of idea]

As explained above, by adopting the arc tube structure of the ceramic metal halide lamp according to the present invention, when the ceramic metal halide lamp is lit horizontally, the sealing material inside the arc tube does not become the coldest part of the arc tube. Therefore, since the sealing material inside the arc tube and the added metal halide melt do not come into contact with each other, it is possible to obtain a metal halide lamp having a long arc tube life characteristic and stable life characteristics.

[Brief explanation of the drawing]

Fig. 1 is a partially longitudinal side view showing a conventional ceramic metal halide lamp, Fig. 2 is a partially longitudinal side view similarly showing the conventional lamp, and Fig. 3 is a partially sectional side view showing an example of the metal halide lamp according to the present invention. FIG. 11... Translucent ceramic tube, 12a, 12b
... Conductive cermet end cap, 13 ... Sealing material, 14 ... Electrode, 15 ... External lead wire, 1
6... Heat insulation board.

Claims (1)

[Scope of utility model registration request] A conductive cermet end cap equipped with an electrode is fixed to one end of the translucent ceramic tube with a sealing material, and the same end cap is fixed airtight to the other end by integral sintering. 1. A metal halide lamp for horizontal lighting, characterized in that a heat insulating material is installed around the outer periphery of the end of the arc tube on the side where the end cap is fixed with a sealing material, in the metal halide lamp made by lighting the arc tube horizontally.