JPH0249634Y2 - - Google Patents

Description

[Detailed description of the invention] [Field of industrial application] The present invention is a halogen light bulb having a structure in which the bulb casing is made of a translucent alumina tube and the end of the bulb is sealed with an end cap made of conductive cermet. Regarding light bulbs.

[Prior art and problems] When a halogen light bulb made of a quartz container is used as a heat source for heating during semiconductor manufacturing, it must be lit at a temperature higher than the softening point of quartz to meet the desired temperature conditions. The drawback was that it was not available.

Therefore, translucent alumina tubes that can withstand high temperature and high pressure metal or halogen vapors have been developed, and high-pressure sodium lamps used as arc tube enclosures have already been put into practical use, and metal halide lamps have also been proposed. As shown in Japanese Publication No. 58-1510, a halogen light bulb has been proposed that uses an alumina tube as the light bulb casing and uses conductive ceramic at its end.

Tungsten metal is generally used as the filament material for such light bulbs, and the connection between the filament and conductive ceramic is achieved by direct bonding.

However, not only does the connection become loose due to the difference in thermal expansion coefficient of each material when the light bulb is turned on and off, but the thermal shock that occurs when the light bulb is turned on and off causes cracks in the ceramic, which reduces the conductivity of the conductive cermet. However, the crack area was heated abnormally, which eventually led to the destruction of the cermet.

[Purpose of the invention] The purpose of the invention is to use a chemically stable and devitrified-free translucent alumina tube as the bulb enclosure, and to seal the end with an end cap made of conductive cermet. Compared to conventional halogen bulbs, it is possible to design a higher bulb surface temperature, and by eliminating the loosening of the connection between the filament and the conductive cermet due to heat cycles and the cracking of the cermet when the light is turned on and off, the electricity is reduced. The aim is to ensure a reliable connection and extend the lifespan.

[Summary of the invention] The present inventors connected the tip of an internal lead rod made of tungsten metal fixed to the inner end of the end cap and the end of the filament in a winding manner, and applied tension to the filament. By stretching both ends of the filament in this state, not only will there be no loosening of the connection due to elongation due to thermal expansion of the filament during lighting, but also no cracks will occur in the cermet part, ensuring ohmic contact. I found out what I can get. As a result, when used as a heat source for a heating furnace using a halogen bulb, it is possible to provide a halogen bulb with a high thermal design margin and excellent vibration resistance.

[Structure and operation of the invention] Hereinafter, an embodiment of the invention will be described based on FIG. 1.

In Fig. 1, numeral 1 is a light bulb casing made of a translucent alumina tube, the end of which is La ₂ O ₃ −Y ₂ O ₃ −
It is sealed with an end cap 3 made of a conductive cermet made of tungsten-alumina via a SiO ₂ sealing material 2 . An internal lead rod 4 made of tungsten metal is embedded and fixed in the center of the inside of the end cap. The end of the filament 5 is connected to this tip by winding it around the end. Furthermore, the connected filament is always suspended within the tube under tension.

Hydrogen bromide is sealed in such a tube, and 6 in the figure indicates an external lead rod.

To manufacture such a light bulb, first attach one end of a recrystallized filament shorter than the total length of the alumina tube to the tip of an internal lead rod embedded in one end cap. Seal the connected end cap with a sealing material.

and pulling the other end of the filament from the other end opening of the alumina tube with tweezers or the like;
By connecting the other end of the filament to the tip of the internal lead rod of the other end cap, the filament is suspended under tension, and the other end cap is connected to the other end of the alumina tube in the same manner as above. Seal.

[Effects of the invention] As is clear from the above explanation, the halogen light bulb according to the invention has a filament at the tip of an internal lead rod made of tungsten fixed to a cermet end cap of a light bulb casing made of translucent alumina. By connecting the filament to the end and stretching it under tension, the filament connection part will not loosen due to repeated lighting cycles, and the cermet will not crack.It has excellent vibration resistance and has a long life. You can get a light bulb. Thus, a halogen light bulb that is optimal as a heat source for heating, etc. can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a partial vertical sectional view of a halogen light bulb showing an embodiment of the present invention.

Claims (1)

[Scope of Claim for Utility Model Registration] A halogen light bulb in which the end of a light bulb envelope 1 made of a translucent alumina tube is sealed with an end cap 3 made of conductive cermet, and halogen gas is sealed inside the light bulb. , an internal lead rod 4 made of tungsten metal is embedded and fixed in the center part of the bulb of the end cap;
A halogen light bulb in which both ends of a filament 5 are connected to the tip of the internal lead rod, and the filament is suspended under tension.