JP3206347B2 - High pressure metal vapor discharge lamp - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a high-pressure metal vapor discharge lamp.

[0002]

2. Description of the Related Art Generally, in a high-pressure metal vapor discharge lamp such as a high-pressure mercury lamp or a metal halide lamp, an arc tube is supported in an outer sphere using a stem, and an external lead wire of the stem is attached to one end of the outer sphere. Soldered to the base. Conventionally, in such a high-pressure metal vapor discharge lamp, the arc tube and the base are fixed in the outer bulb so that the temperature of the soldered portion of the base does not excessively increase due to convection and radiation from the high-temperature arc tube during lamp operation. And a metal heat shield is attached between them. The metal heat shield plate has a cut from the center to the peripheral edge, and the cut is fitted into the stem pinch portion of the stem and fixed.

[0003]

However, such a structure is a compact one that employs a tubular bulb made of heat-resistant hard glass as the outer sphere.
When applied to a high wattage metal halide lamp of 000 W or more, cracks occur in the glass of the stem pinch portion after sealing the outer bulb and the stem during the lamp manufacturing process, and the lamp failure rate increases significantly. A problem arose. This is because, when the sealing portion of the outer sphere is heated to a high temperature by the gas burner in the outer sphere sealing step, the metal heat shield plate is almost in close contact around the stem pinch portion,
Excessive temperature gradients occur in the stem pinch at the border of the metal heat shield and the metal heat shield having a significantly different thermal conductivity from the glass of the stem is in contact with the stem pinch. It is considered that the residual strain is generated.

The present invention has been made in view of the above circumstances, and provides a high-pressure metal vapor discharge lamp capable of preventing cracks in a stem pinch portion in a lamp manufacturing process without increasing costs. is there.

[0005]

A high-pressure metal vapor discharge lamp according to the present invention has an arc tube supported in an outer bulb, a base attached to one end of the outer bulb, and a space between the arc tube and the base. In a high-pressure metal vapor discharge lamp provided with a metal heat shield, the metal heat shield is arranged around a stem pinch portion of a stem provided at an end of the outer sphere, and The inner edge of the notch has a gap with the stem pinch, and is provided in a non-contact state with the stem pinch.

[0006]

According to this structure, in the step of sealing the outer sphere,
When the end of the outer sphere is heated by the gas burner, the air heated at the inner end of the outer sphere can pass around the stem pinch by convection without being blocked by the metal heat shield. There is no excessive temperature gradient in the part. Also, since the metal heat shield is not in contact with the stem pinch,
No residual strain is generated in the stem pinch portion. For this reason, it is possible to prevent occurrence of cracks in the stem pinch portion during the outer ball sealing step.

[0007]

An embodiment of the present invention will be described below with reference to the drawings.

As shown in FIG. 2, a metal halide lamp having a rated power of 1000 W according to an embodiment of the present invention comprises a tubular heat-resistant hard glass outer bulb 2 having a base 1 attached to one end thereof, and an inner bulb of the outer bulb 2. And the support plate 3
a luminous tube 5 made of quartz glass supported by a support wire 4 via a and 3b; a stem 6 made of glass sealed to one end of the outer sphere 2 and supporting the support wire 4; Arc tube 5 inside
The main part is a metal heat shield plate 8 made of a nickel-plated iron plate, which is located between the base 1 and the base 1 and is disposed around the stem pinch portion 7 of the stem 6 as described later. Main electrodes 9a and 9b are provided at both ends of the arc tube 5,
An auxiliary electrode 10 is provided in the vicinity of the main electrode 9b, and a metal halide such as dysprosium iodide, thallium iodide, cesium iodide and the like are enclosed in the arc tube 5 together with mercury and a starting rare gas. Have been.

As shown in FIG. 1A, an elongated tongue piece 11 is formed integrally with the metal heat shield plate 8. This tongue piece 1
By erecting, the notch 12 having the shape shown in FIG. 1B is formed. Notch 12
Has a substantially circular center portion 12a, an elongated portion 12b connected to this portion, and an elongated opening portion 12c also connected to the portion 12a.

The tip of the tongue piece 11 is fixed to one of the two stem internal lead wires 13 supported by the stem 6 by welding. The inner edge of the cutout portion 12 of the metal heat shield plate 8 has a gap with the stem pinch portion 7 and is not in contact with the stem pinch portion 7. The two stem external lead wires 14a and 14b are soldered to the base shell 15 and the top terminal of the base 1, respectively, so that the base 1 has a first soldering portion 16 and a second soldering portion 17, respectively. ing.

With the above configuration, according to the metal halide lamp of the embodiment of the present invention, the sealing portion of the outer sphere 2 is sealed by a gas burner (not shown) in the step of sealing the outer sphere 2 during the manufacture of the lamp. Even if the air is heated to a higher temperature, the heated air in the outer sphere 2 passes through the surface of the stem pinch portion 7 by convection without being blocked by the metal heat shield plate 8 due to the presence of the cutout portion 12. As a result, the stem pinch portion 7 does not have an excessive temperature gradient that is harmful to glass processing, and the metal heat shield plate 8 having a different thermal conductivity from glass, that is, a cooling rate, comes into contact with the stem pinch portion 7. As a result, excessive residual strain does not occur in the stem pinch portion 7, and as a result, cracks can be prevented from occurring in the stem pinch portion 7 in the sealing step of the outer sphere 2. Eliminate lamp failure Door can be.

In the vertical lighting in which the base is on the upper side, the first soldering portion 16 between the stem external lead wire 14a and the base shell 15 and the second soldering between the stem external lead wire 14b and the top terminal are used. The temperature of the portion 17 tends to increase. Therefore, regarding the positional relationship between the stem pinch portion 7 and the notch portion 12c, it is preferable that the radiation from the arc tube 5 does not directly hit the first soldering portion 16 when the lamp is completed. When the angle between the opening of the notch 12c and the first soldering portion 16 with respect to the lamp center axis is set to 90 degrees or more (270 degrees or less), the first soldering portion becomes smaller than the case where the angle is less than 90 degrees. 16 can be kept low.

[0013]

As described above, according to the present invention,
Cracks in the stem pinch portion can be prevented from occurring in the lamp manufacturing process without increasing the cost. Also,
The temperature of the base soldering portion during lamp operation can be suppressed to within an allowable limit.

[Brief description of the drawings]

FIG. 1A is an enlarged perspective view of a main part of a high-pressure metal vapor discharge lamp according to an embodiment of the present invention. FIG. 1B is an enlarged cross-sectional view showing an arrangement state of a metal heat shield with respect to a stem pinch portion of the lamp.

FIG. 2 is a front view of the high-pressure metal vapor discharge lamp.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Base 2 Outer sphere 5 Arc tube 6 Stem 7 Stem pinch part 8 Metal heat shield plate 11 Tongue piece of metal heat shield plate 12 Notch 12c Opening 13 Internal lead wires 14a, 14b Stem external lead wire 16 First soldering Part 17 Second soldering part

──────────────────────────────────────────────────続 き Continuing on the front page (72) Inventor Hong Gion 1-1, Sachimachi, Takatsuki-shi, Osaka Matsushita Electronics Co., Ltd. (56) References: Japanese Utility Model Reference Sho 57-22162 (JP, U) (58) Field surveyed (Int.Cl. ⁷ , DB name) H01J 61/52 H01J 61/34

Claims (3)

(57) [Claims] 1. A high-pressure metal vapor discharge lamp in which an arc tube is supported in an outer sphere, a base is attached to one end of the outer sphere, and a metal heat shield is installed between the arc tube and the base. The metal heat shield plate is disposed around a stem pinch portion of a stem provided at an end of the outer sphere, and an inner edge of a cutout portion of the metal heat shield plate has a gap with the stem pinch portion. A high-pressure metal vapor discharge lamp provided in a non-contact state with the stem pinch portion. 2. The positional relationship between the opening of the cutout portion of the metal heat shield and the soldered portion of the base is such that the angle formed with respect to the lamp axis is 90 degrees or more.
2. A high-pressure metal vapor discharge lamp according to claim 1. 3. The high-pressure metal vapor discharge lamp according to claim 1, wherein the rated power of the lamp is 1000 W or more.