JP2630646B2 - Metal vapor discharge lamp - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Object of the Invention] (Industrial application field) The present invention relates to a metal vapor discharge lamp having a single sealed airtight container.

(Prior Art) Metal vapor discharge lamps are excellent in luminous efficiency and / or color rendering, and have recently been adopted as lighting equipment for low ceilings in stores and the like. In addition, since lighting fixtures in stores and the like are required to be miniaturized, miniaturization of metal vapor discharge lamps is also required.

However, when trying to reduce the size by adopting a double-sealed hermetic container structure that has been generally adopted in the past, not only is molding time and labor necessary, but also the pinch seal portion becomes large with respect to the discharge space volume. Cannot be downsized. In addition, since the pinch seal portion becomes large, heat dissipation increases, so that the coldest portion can be maintained at a temperature at which the discharge medium emits light as desired, and there is a problem that it is difficult to obtain desired efficiency and / or color rendering.

In order to meet the demand for miniaturization and improvement of luminous efficiency and / or color rendering, metal vapor discharge having a single sealed airtight container as described in JP-A-60-232658 (conventional lamp 1). Lamps have been proposed.

This is a single-sealed hermetic container having a pinch seal portion at one end, a pair of metal foils spaced apart from each other on a single sealing surface of the pinch seal portion, and a base end portion corresponding thereto. A pair of electrode assemblies connected to one surface of the metal foil and having a pair of electrode shafts introduced into the hermetic container and electrode coils disposed so as to face each other at the tips of these electrode shafts; And a pair of external conductors connected at one end near the other end of one surface of the corresponding metal foil and led out of the airtight container. .

(Problem to be Solved by the Invention) Conventional lamp 1 is provided with a single-sealed airtight container having a pinch seal portion at one end, and a pair of metal foils is sealed in the pinch seal portion, and these metal foils are sealed. The electrode shafts are connected to the same side of the
It comprises an electrode structure provided with electrode coils so as to face each other.

In the conventional lamp 1, an electrode shaft is welded to each side surface of the metal foil, and when the pinch seal portion is pinch-sealed, pressing is performed in a direction perpendicular to the surface of the metal foil. The electrode shaft will be pushed. In such a pinch sealing process, a phenomenon in which the electrode axis is inclined in the airtight container is seen depending on the degree of pressing.

When the electrode axis is inclined in the airtight container, and when the metal foils are connected to the surfaces in the same direction, the inclination directions of both electrode axes are the same, so the position of the electrode coil is deviated from the tube center. Resulting in. Therefore, the arc center during lighting is deviated from the tube center, and the light emission characteristics are not stable.
Further, there is a problem that the tube wall to which the arc is approached is excessively heated, resulting in a short life.

SUMMARY OF THE INVENTION An object of the present invention is to provide a metal vapor discharge lamp having a single-sealed hermetic container capable of suppressing the deviation of the arc center, stabilizing the light emission characteristics, prolonging the lamp life, and meeting the demand for miniaturization. It is something to offer.

[Constitution of the Invention] (Means for Solving the Problems) A metal vapor discharge lamp according to the present invention includes a single-sealed hermetic container having a pinch seal portion at one end; and a single sealing surface of the seal portion. A pair of metal foils spaced apart and juxtaposed;
An electrode shaft and a pair of electrode coils disposed so as to face each other at the distal end of the electrode shaft, and the base end of each electrode shaft was connected to one end near the opposite surface of the corresponding metal foil. A pair of electrode assemblies implanted in a hermetic container in a state; a discharge medium containing a metal or a metal halide sealed in the hermetic container; and one end connected to the vicinity of the other end of each metal foil for hermetic sealing. And a pair of external conductors led out of the container.

The present invention may be any metal vapor discharge lamp having an airtight container having a pinch seal portion formed only at one end of the airtight container, and may be a metal vapor discharge lamp such as a metal halide lamp or a high-pressure mercury lamp.

As a discharge medium, for example, mercury and SnI ₂ , NaI, TlI, In
What consists of metal halides, such as I, NaBr, and LiBr, and a rare gas for starting is used.

As the electrode coil, a coil-shaped coil provided at the tip of the electrode shaft is allowed to be used.

(Operation) Since the base ends of the respective electrode shafts are connected near one end of the opposite surface of the corresponding metal foil, the respective electrode shafts are in opposite directions even if they are inclined at the time of pinch sealing. Lean to Therefore, the electrode coils provided at the distal end of the electrode shaft can be kept symmetrical with respect to the center of the tube, and the arc center can be easily positioned at the center of the tube, so that the light emission characteristics are stabilized.

Further, since the arc does not approach the tube wall, heating of the tube wall is prevented, and the life is extended. Further, since the inclination of the electrode shaft is alternated, the pinch seal failure is reduced and the yield is improved.

(Embodiment) FIG. 1 is a front sectional view showing a metal halide lamp having a lamp input of 150 W according to an embodiment of the present invention in a partially transparent manner.

 FIG. 2 is a sectional view taken along the line II-II in FIG.

FIG. 3 is a sectional view taken along the line III-III in FIG.

Reference numeral 1 denotes an airtight container made of quartz glass, for example, in which the discharge space formed therein has an elliptical spherical shape and has an inner volume of 0.5 cc. The long axis direction of the airtight container 1 is the tube axis,
A flat pinch seal portion 2 is formed at one end in a direction perpendicular to the tube axis.

In the airtight container 1, a pair of electrode structures 3, 3 are arranged facing each other in the tube axis direction, and these electrode structures 3, 3 are both implanted in the pinch seal portion 2 on one side. The electrode assemblies 3, 3 are composed of an electrode shaft 4 and an electrode coil 5. For example, the electrode shaft 4 is made of a pure rhenium wire having a wire diameter of 0.5 mm, and the electrode coil 5 is made of a thoriated tungsten wire having a wire diameter of 0.5 mm. And is wound three to four times around the bent tip of the electrode shaft 4.

These electrode coils 5, 5 are arranged along the tube axis direction.
They are opposed to each other at a distance of about 6 mm.

The base ends of the electrode shafts 4, 4 are connected to metal foils 6, 6 such as molybdenum Mo sealed in the pinch seal 2.

In addition, as shown in FIG. 2, the base ends of the electrode shafts 4 and 4 are welded to the surfaces of the metal foils 6 and 6 in the vicinity of one end thereof on opposite sides. That is, the base end of one electrode shaft 4 is welded to one surface of one metal foil 6, while the other electrode shaft 4 is welded to the other surface of the other metal foil 6. .

One end of each of the external conductors 7, 7 is connected near the other end of the surface of each of the metal foils 6, 6, and the external conductors 7, 7 are led out of the pinch seal portion 2 to the outside.

In the hermetic container 1, for example, a rare gas for starting, a predetermined amount of mercury, SnI ₂ , NaI, TlI, In
Metal halides such as I, NaBr, and LiBr are enclosed.

Further, in such a sealed metal vapor discharge lamp, the lamp current I at the time of stable lighting is set at 1.8 A, and the lamp input power W at this time is set at 150 W. The inner surface area S of the hermetic container is about 3.5 cm ² , and the lamp load per unit surface area of the hermetic container is about 43 W / cm ² .

 The operation of the embodiment having such a configuration will be described.

When the pinch seal portion 2 is formed at the end of the hermetic container 1, the metal foils 6, 6 to which the electrodes 3, 3 and the external lead wires 7, 7 are connected in advance are inserted into the openings of the still open tube. Then, the opening wall of the tube is heated and softened by a burner or the like. Next, the pipe wall softened by a pincher (not shown) is
As shown by arrows A and A in the figure, the openings are closed and the metal foils 7, 7 are simultaneously sealed.

In this case, there is a tendency that the metal foils 7, 7 are sandwiched by glass, and the electrode shaft 4 connected to one side surface of the metal foils 7, 7 is inclined in a direction indicated by an imaginary line.

However, in this embodiment, one electrode shaft 4 is welded to one metal foil 6 on one surface, and the other electrode shaft 4 is welded to the other metal foil 6 on the other surface. As a result, the directions of inclination of these electrodes 4 are opposite to each other.

For this reason, even if the electrode coils 5, 5 are displaced, they face symmetrical positions with respect to the tube center, so that the arc center is maintained at a position substantially coincident with the tube center.

For this reason, the pinch seal failure is reduced, the yield is improved, the light emission characteristics are stabilized, and the arc does not approach the tube wall so that the airtight container 1 is not locally heated. Life will be over.

[Effects of the Invention] Since the base end of each electrode shaft is connected near one end of the opposite surface of the corresponding metal foil, the arc center can be easily positioned at the center of the tube. Light emission characteristics are stabilized. Moreover, since the arc center does not approach the tube wall, heating of the tube wall is prevented, and the life is extended. Furthermore, since the inclination of the electrode shaft is alternated, the pinch seal failure is reduced, the yield is improved, and a metal vapor discharge lamp having a long life and meeting the demand for downsizing can be provided.

[Brief description of the drawings]

The drawings show an embodiment of the present invention, FIG. 1 is a front sectional view,
2 is a sectional view taken along the line II-II in FIG. 1, and FIG. 3 is a sectional view taken along the line III-III in FIG. DESCRIPTION OF SYMBOLS 1 ... Airtight container, 2 ... Pinch seal part, 3 ... Electrode assembly, 4 ... Electrode shaft, 5 ... Electrode coil, 6 ... Metal foil, 7 ... External conductor.

Continuation of the front page (72) Inventor Hisanori Sano 1-21-1-1, Funakoshi-cho, Yokosuka City, Kanagawa Prefecture Inside the Yokosuka Plant of Toshiba Lighting & Technology Corporation (56) References JP-A-58-71554 (JP, A) JP-A-60-1985 232658 (JP, A) JP-A-60-9048 (JP, A) JP-A-61-158063 (JP, U)

Claims (1)

(57) [Claims] 1. A single-sealed hermetic container having a pinch seal portion at one end; a pair of metal foils spaced apart from each other on a single sealing surface of the seal portion; and an electrode shaft and an electrode shaft A hermetic container comprising a pair of electrode coil portions disposed so as to face each other at the distal end portion thereof, and the base end portions of the respective electrode shafts are connected to the vicinity of one end of the opposite surface of the corresponding metal foil. A pair of electrode structures implanted in the inside; a discharge medium containing a metal or a metal halide sealed in an airtight container; one end connected to the vicinity of the other end of each metal foil; And a pair of derived outer conductors.