KR200183611Y1 - High pressure discharge light - Google Patents

Abstract

The present invention relates to a high pressure discharge lamp.

The present invention is a high-voltage discharge lamp having an external appearance and a light emitting tube having an electrode assembly of an electrode, molybdenum flakes and a lead wire provided at both ends of the exterior, and connecting the electrode and the lead wire of the electrode assembly. Molybdenum flakes are characterized in that the cylindrical tube is cut in the longitudinal direction.

Therefore, no matter how the high-pressure discharge lamp is installed on the ground (for example, horizontally, vertically, or at an inclined angle), the warpage does not occur as in the prior art. There is an advantage to guarantee the life of the design value.

Description

High pressure discharge light

1 is a schematic diagram of an apparatus of an example of a small MHL in a conventional high-pressure discharge lamp.

Figure 2 is an enlarged partial excerpt of the light tube from MHL of Figure 1;

3 is an enlarged partial view of the electrode assembly in the light emitting tube of FIG.

Figure 4 is an enlarged perspective view of a partial extract of the electrode assembly in the high-pressure discharge lamp according to the present invention.

* Explanation of symbols for main parts of the drawings

11,41: light emitting tube 12a, 12b, 42a, 42b: electrode

13a, 13b, 43a, 43b: insulation film 14, 44: appearance

15a, 15b, 45a, 45b: socket coupling portion 16, 46: getter

M, M ′, 47M: Molybdenum flakes W, W ′, 48W: Lead wire

The present invention relates to a high-pressure discharge lamp, and in particular, by altering and improving the structure of the molybdenum sheet to interconnect the electrode in the light emitting tube forming arc discharge and the lead wire for supplying current to the electrode, The present invention relates to a high-pressure discharge lamp that can extend the life of stable light emission and discharge lamp of the light tube.

In general, a relatively high brightness and long life lamps are used for the street lamps of the city or the lighting of industrial sites. Common examples of such lighting include high pressure mercury lamps, high pressure sodium lamps, and metal halide lamps (hereinafter abbreviated as MHL).

High-pressure mercury lamps are the first among high-pressure discharge lamps, and are relatively inexpensive and are widely used from the beginning to the present. . On the other hand, high-pressure sodium lamps have a drawback in that the color of the subject is difficult because the feeling of light emission color is mild and the luminance is high but the color rendering index is very low. On the other hand, MHL has high brightness and high color rendering index, and its use is increasing recently. However, the higher price point remains a problem to be solved in the future.

On the other hand, along with the increasing use of MHL as described above, there are some requirements for MHL. Especially in the interior field where lighting effects are important, the conditions are more demanding and discreet. For example, in the case of small MHL used in the indoor lighting field, low power consumption, high efficiency, high color rendering and long life is required.

Figure 1 of the accompanying drawings schematically shows an example of a small MHL among such conventional high-pressure discharge lamps.

Referring to this, in the conventional MHL 10, a pair of electrodes 12a and 12b are provided in the capsule-shaped quartz light emitting tube 11 so as to face each other, and the electrodes 12a and 12b are zirconia. The heat insulating films 13a and 13b which consist of coating films, such as these, are formed, respectively. Here, a predetermined rare gas, hydrogen, a metal halide, and the like are sealed in the arc formation space 11s inside the light emitting tube 11. The light emitting tube 11 is again protected and sealed by the exterior 14, and socket coupling portions 15a and 15b are provided at both ends of the exterior 14 to be electrically connected to the electrodes 12a and 12b. have. Reference numeral 16 is a getter, and serves to increase the degree of vacuum by removing residual gas.

FIG. 2 is an enlarged view of a partial excerpt of the light tube from the MHL of FIG.

As described above, the light emitting tube 11 has a shape similar to that of a capsule pill, and a heat insulating film for preventing the temperature drop of the electrode portion from the electrodes 12a and 12b at both ends on the long axis of the light emitting tube 11. Part of it is enclosed and provided in 13a, 13b. Further, lead wires W and W 'are drawn to the electrodes 12a and 12b, respectively, and molybdenum is maintained between the electrodes 12a and 12b and the lead wires W and W' for airtightness with glass. ) Flakes (M, M ') are provided to connect the lead wires.

By the way, in such a conventional MHL light tube, the shape of the molybdenum flakes (M, M ') is a rectangular flat plate, and the thickness thereof is also very thin (usually manufactured to a thickness of 0.05 mm) shown in FIG. When the electrode assembly 30 consisting of the electrodes 12a, 12b, molybdenum flakes (M, M ') and lead wires (W, W') is erected vertically (e.g., installed vertically when installing a high-pressure discharge lamp) When the molybdenum flakes M are bent due to the weight of the electrode 12a. Such warpage of molybdenum flakes (M) degrades the state of hermetic sealing with glass, which may destabilize the contact of the welds (C, C ′) of both ends of the molybdenum flakes (M) or ′) Will corrode, resulting in shortening the life of the discharge lamp.

The present invention has been made to solve the above problems, and by preventing the bending of molybdenum flakes in the electrode assembly irrespective of the installation form of the discharge lamp, it is possible to obtain a stable luminous efficiency of the discharge lamp, as well as to extend the life. The purpose is to provide a high-pressure discharge lamp that can be.

In order to achieve the above object, the high-pressure discharge lamp according to the present invention, the high-pressure discharge lamp having a light emitting tube provided with an electrode assembly of the electrode, molybdenum flakes and lead wires at both ends thereof are installed inside the exterior. The electrode assembly is characterized in that the molybdenum flake connecting the electrode and the lead wire is in the form of a cylindrical tube cut in the longitudinal direction.

Therefore, no matter how the high-pressure discharge lamp is installed on the ground (for example, horizontally, vertically, or at an angled angle), bending of molybdenum flakes does not occur as in the prior art, and thus the discharge lamp has stable light emission. There is an advantage that the efficiency and the lifetime of the predetermined design value can be guaranteed.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The high pressure discharge lamp according to the present invention basically has a structure similar to that of the conventional high pressure discharge lamp. That is, as shown in FIG. 1, the high-pressure discharge lamp 40 of the present invention is provided with a pair of electrodes 42a and 42b opposed to each other in the capsule-shaped quartz tube 41, and the electrodes 42, 42b), heat insulating films 43a and 43b each formed of a coating film such as zirconia are formed. Here, a predetermined rare gas, hydrogen, a metal halide, and the like are sealed in the arc formation space 41s inside the light emitting tube 41. The light emitting tube 41 is again protected and sealed by the exterior 44, and socket coupling portions 45a and 45b are provided at both ends of the exterior 44 to be electrically connected to the electrodes 42a and 42b. Reference numeral 46 is a getter and serves to remove the residual gas inside the exterior 46 to increase the degree of vacuum.

Figure 4 is a partial extract showing the structure of the electrode assembly of the light tube in the high-pressure discharge lamp according to the present invention.

As shown, the electrode assembly 50 of the light emitting tube 41 in the high-pressure discharge lamp of the present invention is located in the center of the molybdenum flakes 47M of the form in which the cylindrical tube is cut in the longitudinal direction, the electrode on both sides 42a and lead wire 48W are respectively fixed by welding. Thus, since the molybdenum flake 47M has the form cut | disconnected the cylindrical tube which has a predetermined curvature, structural strength with respect to a bending force becomes much larger than a flat plate type. Therefore, even if the high-pressure discharge lamp is installed perpendicular to the ground, the warping phenomenon of the molybdenum flakes as in the prior art does not occur.

On the other hand, in the production of the molybdenum flakes 47M, the ratio of width (a): length (b) of the molybdenum flakes 47M in a state before bending to have a predetermined curvature, that is, a flat state, is 1: 2. It is preferable that the thickness is 0.05 mm or less. In addition, the curvature radius R when bending to have a predetermined curvature satisfies the relationship of R = 0.4a to 0.7a. Such numerical values and correlations are merely absolute values obtained from experiments considering structural strength and dynamics of bending of molybdenum flakes 47M with respect to a predetermined weight of the electrode, and are not absolute. Therefore, in some cases, the above values may be slightly changed. And, the description so far has been limited to MHL, but it is obvious that the high-pressure discharge lamp of the present invention can be applied to not only MHL but also high pressure mercury lamp and high pressure sodium lamp.

As described above, the high-pressure discharge lamp according to the present invention has a form in which a molybdenum flake connecting the electrode and the lead wire is cut in a cylindrical tube, so that the high-pressure discharge lamp is installed in some form with respect to the ground (for example, horizontal, vertical and predetermined). Regardless of whether it is installed at an inclined angle), the bending phenomenon of the conventional molybdenum flakes does not occur. Therefore, there is an advantage that the stable luminous efficiency of the discharge lamp and the life of a predetermined design value can be guaranteed.

Claims (4)

In a high-pressure discharge lamp having an exterior and a light emitting tube provided inside the exterior and having electrode, molybdenum flake, and lead wire electrode assemblies at both ends thereof, the molybdenum flake connecting the electrode and the lead wire of the electrode assembly. A high-pressure discharge lamp characterized in that the cylindrical tube is cut in the longitudinal direction. The high-pressure discharge lamp according to claim 1, wherein the molybdenum flakes satisfy a relationship of a ratio of horizontal (a): vertical (b) in a flat state before having a predetermined curvature of 1: 2. The high-pressure discharge lamp according to claim 1, wherein the molybdenum flake has a radius of curvature (R) satisfying a relationship of R = 0.4a to 0.7a during bending. The high-pressure discharge lamp according to claim 2 or 3, wherein the molybdenum flake has a thickness of 0.05 mm or less.