KR100346371B1 - High-pressure vapor discharge lamp - Google Patents

Abstract

PURPOSE: A high-pressure vapor discharge lamp is provided to reduce a connection portion of a lead line and simplify a fabrication process of a mount by substituting the lead line with a transparent conductive layer. CONSTITUTION: A light emitting tube(22) as a light source of a lamp includes a first input terminal(21) and a second input terminal(23). A transparent conductive layer(12) is coated on an inner face of an external sphere(11). An insulating phosphor material(13) is coated on the transparent conductive layer(12). A first stem(28) and a second stem(29) are installed at a lower portion of the external sphere(11). A first lead line(16) is extended from the first input terminal(21) of the light emitting tube(22). The first lead line(16) is connected to the transparent conductive layer(12). A second lead line(17) is connected to the second input terminal(23) and the second stem(29). A third lead line(16') is connected to the transparent conductive layer(12) and the first stem(28).

Description

High pressure metal steam discharge lamp

The present invention relates to a high pressure metal vapor discharge lamp, and more particularly to a high pressure metal vapor discharge lamp having an improved structure of the mount.

The high-pressure metal vapor discharge lamp has high efficiency and high color description, so it is widely used in outdoor lighting, factory lighting, and indoor lighting.

A conventional general high pressure metal vapor discharge lamp is as shown in FIG. That is, a gas such as nitrogen is injected into the outer opening 1, and a light emitting tube 2 emitting light by a power source is installed at the center thereof, and the light emitting tube 2 is fixed above and below the light emitting tube. Supports 3 and 3 'are respectively provided, and the support 3' is connected with a resistor 4 and a condenser 5 which allow the input DC power to be oscillated by AC and applied to the light emitting tube 2. have. A lead wire 6 extends from the stem portion 7 to supply power to the electrode of the light emitting tube, and another lead wire 6 'is connected to the light emitting tube from another stem portion 7'. have.

Usually, the lead wires 6 and 6 'serve as a frame for supporting the light tube 2 member at the same time as the power supply.

The light emitting tube 2 is usually composed of a sealing envelope formed in a tubular shape and a discharge electrode inserted therein. The sealed tube 2 is thus filled with various metal materials, which contain mercury, sodium and metal halides with one or more inert gases such as krypton, argon and xenon.

When power is supplied to the high-pressure metal vapor discharge lamp as described above through the lead wires 6 and 6 ', the input power is converted into AC power by the resistor 4 and the condenser 5, and the AC power thus converted is It is applied to the light emitting tube 2 through the supports 3, 3 '. Therefore, a potential difference is generated in the light emitting tube 2, and the gas injected into the light emitting tube emits light by the potential difference.

However, in the manufacture of such a high-pressure metal vapor discharge lamp in the prior art was assembled using a variety of supports and mounting members, and the process of welding and cutting them and the lead wire to each other was repeated, there was a problem of complicated work and excessive manpower and material requirements. .

In particular, sodium (Na) in the material injected into the light emitting tube (2) is basically added to the efficiency of the emission spectrum, the temperature of the light emitting tube (2) during the lamp emission is usually maintained at a high temperature of 700 to 800 ℃ or more In this case, the mobility of sodium increases to increase the possibility of exiting the light emitting tube. Therefore, in order to prevent the loss of sodium from the light emitting tube 2, a method of blocking an electric field by covering an insulating member such as hard glass or quartz tube in a portion of the lead wire 6 that triggers the loss of sodium is commonly used. In this case, in order to insert the hard glass or ceramic tube into the lead wire 6, the hassle was further increased, such as cutting the lead wire 6 and inserting an insulation member during the lamp fabrication process and welding the lead wire again.

The present invention has been devised to solve the above problems, by replacing the lead wire itself with a transparent conductive film coated on the inner surface of the lamp and essentially reducing the connection of the lead wire itself, eliminating the hassle of mounting fabrication and more stable and Its purpose is to provide a robust high pressure metal vapor discharge lamp.

The configuration of the present invention for achieving the above object is as follows.

That is, the high-pressure metal vapor discharge lamp according to the present invention,

A light emitting tube having a first input terminal and a second input terminal as a light source of the lamp;

An outer surface in which a transparent conductive film is coated on an inner surface and an insulating fluorescent material is coated on the transparent conductive film;

A first stem and a second stem disposed under the outer sphere;

A first lead wire connected to and electrically connected to a transparent conductive film on an inner surface of the outer peripheral upper part extending from the first input terminal of the light emitting tube;

A second lead wire having both ends connected to a second input terminal of the light emitting tube and the second stem, respectively; And

And a third lead wire having both ends connected to the transparent conductive film on the lower inner surface of the outer sphere and the first stem, respectively.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. 2 shows one embodiment of a high-pressure metal vapor discharge lamp according to the present invention.

Referring to the structure of the present invention with reference to the drawings, the first lead wire 16 extends from the first input terminal 21 of the light emitting tube 22, the second input terminal 23 on the opposite side is the second lead wire (17) is connected to the second stem 29 in the lower portion of the outer opening 11 and is energized.

The characteristic of the high-pressure metal vapor discharge lamp according to the present invention is prominent in the outer opening 11 of the lamp. The structure of the high-pressure metal vapor discharge lamp is shown in detail by a partial enlarged view. An insulating fluorescent substance is applied. The first lead wire 16 connected to the first input terminal is connected to the outer opening 11, and as shown in the drawing, the end of the first lead wire 16 is connected to the transparent conductive material 12.

In the same manner, the third lead wire 16 ′ also connects the transparent conductive film 12 and the first stem 28 on the inner surface of the outer opening 11 to the lower portion of the outer opening 11.

In the high-pressure metal vapor discharge lamp having such a structure, when power is applied, current flows through the first and third lead wires and flows along the transparent conductive film 12 on the inner surface of the outer opening 11 connected thereto to the upper portion of the outer opening 11. It is energized. The upper portion of the outer opening 11 again flows to the first input terminal 21 of the light emitting tube 22 via the first lead wire 16 connected to the transparent conductive film 12.

In the present invention, the transparent conductive film 12 is preferably indium thin oxides (ITO) and may be coated over the entire inner surface of the outer opening 11, but is coated in one line from the top to the bottom of the outer opening 11 so as to be suitable for energization. May be

As described above, the high-pressure metal vapor discharge lamp according to the present invention does not assemble the light emitting tube by the lead wires and mounts, and replaces a part of the lead wires with a transparent conductive film coated on the outer surface of the outer surface, thereby simplifying the manufacturing process. Although somewhat unstable by serving as a frame for supporting the tube, the light emitting tube of the lamp according to the present invention can be more stable by being directly connected to the upper end of the outer opening by a lead wire.

In addition, as described above, since a part of the lead wire that promotes loss of sodium in the light emitting tube under high temperature and high pressure is removed, there is an effect of preventing shortening of the lamp life.

1 is a cross-sectional view showing the structure of a conventional high pressure metal vapor discharge lamp.

2 is a schematic cross-sectional view showing a high-pressure metal vapor discharge lamp according to the present invention.

* Explanation of symbols for main parts of the drawings

1,11.Exterior 2,22.Light emitting tube

3,3'.support 4.resistance

5.Capacitor 6,6 ', 16,16', 17.Lead wire

7,7 ', 28,29.Stem 12.Transparent conductive film

13.Fluorescent film 21,23.Input terminal

Claims (3)

A light emitting tube having a first input terminal and a second input terminal as a light source of the lamp; An outer sphere in which a transparent conductive film is coated on an inner surface and an insulating fluorescent substance is coated on the transparent conductive film again; A first stem and a second stem disposed under the outer sphere; A first lead wire connected to and electrically connected to the transparent conductive film of the outer inner upper film extending from the first input terminal of the light emitting tube; A second lead wire having both ends connected to the second input terminal and the second stem of the light emitting tube, respectively; And a third lead wire connected to both ends of the outer conductive inner film of the lower outer inner film and the first stem. The method of claim 1, The transparent conductive film is a high-pressure metal vapor discharge lamp, characterized in that the ITO film. The method of claim 1, The transparent conductive film is a high-pressure metal vapor discharge lamp, characterized in that the coating in one line from the top to the bottom of the outer sphere.