KR100339574B1 - Light collection structure for electrodeless lamp - Google Patents

Abstract

The present invention relates to a light collecting structure of an electrodeless lamp. The present invention relates to a wave guide mounted in an opening of a casing in which a high pressure generator and a microwave generator are accommodated, and to prevent light from being leaked by a microwave guided by the wave guide while allowing light to pass therethrough. A light transmitting member communicatively coupled to the wave guide to receive an electrodeless bulb filled with an inert gas, and a reflecting mirror installed to surround the light transmitting member so as to totally reflect the light passing through the light transmitting member. The light transmitting member is formed to be recessed in a conical cross section or an arc cross section shape inward with respect to the electrodeless light bulb, and a reflector for reflecting light radiating toward the center in the center of the depression to the outside diameter of the electrodeless light bulb. By forming greater than or equal to, straight line from the electrodeless bulb When at the same time that the non-installation of the light guide member of the light emitted particles to enhance the lighting effect so as to turn toward the edge of the light guide member has to block the glare.

Description

LIGHT COLLECTION STRUCTURE FOR ELECTRODELESS LAMP}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrodeless lamp using microwaves, and more particularly, to a light collecting structure of an electrodeless lamp for resonating microwaves to emit light in a bulb. Generally, an electrodeless lamp is a high intensity discharge lamp. This lamp is characterized by long lamp life and excellent lighting effect compared to conventional incandescent and fluorescent lamps. These electrodeless lamps are usually made of transparent materials such as glass and have an appropriate amount of sulfur (S) or argon (Ar) in them. ) Or a filling material made of an inert gas such as xenon (Xe), and then put into a resonator or applying microwave or high frequency through an inductive coupling to convert the above filling into a plasma state to emit visible light. Is a longitudinal sectional view showing the inside of a conventional electrodeless lamp. The conventional electrodeless lamp is formed of a transparent body and filled with a filler of an inert gas, and the electrodeless bulb 1 is accommodated to excite the filler of the electrodeless bulb 1 by supplying microwaves. The electrodeless light bulb 1 is joined to communicate with a light emitting portion 1a made of a hollow glass sphere and its light emitting portion 1a, and coupled to a light bulb motor 8 to be described later. The excitation means comprises a casing (C) having a predetermined internal volume, a high pressure generator (2) installed on one side of the casing (C), and the electrodeless light bulb (1). And a light emitting portion 1a of the electrodeless light bulb 1 so as to communicate with the microwave generator 3 installed between the supporting portion 1b of the casing C and one opening of the casing C. Also to accommodate the resonator 4 and the resonator 4, which is installed on the outside It is composed of a reflector (5) is provided on the outside of the y-shing (C). In addition, the outer end of the reflector (5) is installed in the lighting place long to guide the light guiding member far away from the electrodeless bulb ( The light guide 9 is mounted. The resonator 4 is mounted inside the casing C so as to accommodate the outlet side of the microwave generator 3 of the casing C, a part of which penetrates through the opening. The light guide 4A exposed to the side and the light emitting portion 1a of the electrodeless light bulb 1 are accommodated and fixed to the wave guide 4A, and a cylindrical light transmitting member 4B. ) Is made of a thin plate or mesh structure (which is a mesh structure in this embodiment) that blocks light leakage while allowing light to pass through, while one end is opened and inserted into the wave guide 4A while the other end is sealed. Of the reflector 5. At the side end, a disk-shaped glass plate (not shown), which is usually made of a transparent material and passes light emitted from the electrodeless light bulb 1 through the light guide member 9, is mounted. The fan motor, 6B is a cooling fan, 7 is a connecting member, 8 is a bulb motor, and M is a mirror. The conventional electrodeless lamp constructed as described above operates as follows.

That is, when external power is supplied to the high pressure generator 2, the high pressure is generated in the high pressure generator 2 and transmitted to the microwave generator 3, and the microwave generated by the microwave generator 3 is the wave guide 4A. Is transmitted to the inside of the resonator 4 composed of the wave guide 4A and the light transmitting member 4B. At the same time, the gas enclosed in the electrodeless bulb 1 in the resonator 4 is applied to the microwave. By discharging, the inner surface of the electrodeless light bulb 1 is heated, thereby generating visible light having a unique emission spectrum and radiating through the main wall and the sealing end of the light transmitting member 4B. This visible light was reflected by the reflector or went straight to illuminate the installation location while proceeding along the cylindrical light guide member 9 to the other end. However, in the resonator of the conventional electrodeless lamp as described above, Some of the light generated from the electrode bulb 1 is directed toward the center far from the inner circumferential surface of the light guide member 9, so there is a problem that the lighting effect is reduced as the degree of light transmitted to the outside decreases. In the lamp in which the light guide member 9 is not mounted, there is a problem that glare is generated at the front side of the reflector 5.

The present invention has been made in view of the problems of the conventional electrodeless lamp as described above, to provide a light collecting structure of the electrodeless lamp that can improve the lighting effect by inducing light generated from the bulb toward the inner peripheral surface side of the light guide member. Another object of the present invention is to provide a light collecting structure of an electrodeless lamp that can prevent glare from occurring on the front side of the reflector when the light guide member is not installed.

1 is a longitudinal sectional view showing an example of a conventional electrodeless lamp.

Figure 2 is a perspective view showing a light transmitting member which is part of the resonator of the conventional electrodeless lamp.

Figure 3 is a schematic view showing the flow of light in a conventional electrodeless lamp equipped with a light transmitting member.

Figure 4 is a longitudinal sectional view showing an example of the electrodeless lamp of the present invention.

5 is a perspective view showing a light transmitting member that is part of a resonator of an electrodeless lamp of the present invention;

Figure 6 is a schematic view showing the flow of light in the electrodeless lamp equipped with the light transmitting member of the present invention.

** Description of symbols for the main parts of the drawing **

1: electrodeless light bulb 1a: light emitting portion

5: reflector 9: light guide member

10 resonator 12 light transmitting member

12a: reflector

In order to achieve the object of the present invention, the inert gas is filled with a wave guide mounted in the opening of the casing housing the high-pressure generator and the microwave generator, and a structure that allows light to pass while preventing leakage of the microwave induced by the wave guide. A light transmitting member communicatively coupled to the wave guide to accommodate the electrodeless light bulb, and a reflector installed to surround the light transmitting member so as to totally reflect the light passing through the light transmitting member, wherein the light transmitting member is electrodeless It is formed by forming a conical cross section or an arc shaped cross section inward with respect to the light bulb, and forming a reflector for reflecting light radiating toward the center at the center of the depression to the outside of the bulb without the diameter of the electrodeless bulb. Provides a light collecting structure of an electrodeless lamp.

Hereinafter, a light collecting structure of an electrodeless lamp according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

Figure 4 is a longitudinal sectional view showing an example of the electrodeless lamp of the present invention, Figure 5 is a perspective view showing a light transmitting member which is part of the resonator of the electrodeless lamp of the present invention, Figure 6 is a light in the electrodeless lamp equipped with the light transmitting member of the present invention. Schematic diagram showing the flow of.

As shown therein, the electrodeless lamp with the light collecting structure according to the present invention is provided with a high pressure generator 2 on one side of the casing C. The microwave generator 3 is provided on the side of the high pressure generator 2, and the light transmitting member 12 forming part of the resonator 10 is provided outside the casing C, and the microwave generator 3 is connected to the microwave generator 3. Between the light transmitting member 12, a wave guide 11 also forming a part of the resonator 10 is installed, the electrodeless light bulb 1 is installed inside the light transmitting member 12, the light transmitting member 12 A reflecting mirror 5 is provided at the periphery thereof, and a light guide member 9 is provided at the end of the reflecting mirror 5.

The light transmitting member 12 has a mesh structure that blocks light leakage while allowing light to pass through, and is generally formed in a cylindrical shape, and one end thereof is opened to be extrapolated to the wave guide 11 while the other end thereof. Like the main wall is made of a mesh structure is formed by sealing.

In addition, the sealing side surface of the light transmitting member 12 is formed to be recessed inwardly in a conical shape or an arc shape during side projection with respect to the light emitting portion 1a of the electrodeless bulb 1 accommodated inside the light transmitting member 12. In the recessed central portion of the light transmitting member 12, the reflecting portion 12a is formed larger than the diameter of the light emitting portion 1a of the electrodeless light bulb 1.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the drawings, reference numeral 6A denotes a fan motor, 6B a cooling fan, 7 a connecting member, 8 a bulb motor, and M are mirrors.

The general operation of the electrodeless lamp with a light collecting structure according to the present invention configured as described above is similar to the conventional.

That is, when external power is supplied to the high pressure generator 2, the high pressure is generated in the high pressure generator 2 and transferred to the microwave generator 3, and the microwaves generated by the microwave generator 3 are wave guides 11 Is transmitted to the inside of the resonator 10 to discharge the gas encapsulated in the electrodeless bulb 1, and in this process, visible light having a unique emission spectrum is generated and transmitted through the electrodeless bulb 1. Radiated through the circumferential wall and the sealing end of the member 12, this visible light proceeds to the other end along the light guide member 9 to illuminate the installation site.

At this time, among the particles of light generated from the electrodeless bulb 1, particles of light radiating in a square with respect to the fixed direction of the electrodeless bulb 1 are reflected by the reflector 5 as described above and thus the glass plate (not shown). While passing through the light guide member 9 as it is, the particles of light radiating in a straight line with the fixed direction of the electrodeless light bulb 1 are conical or of the projection member 12 disposed on the front side thereof. Reflected by the surface of the arc-shaped reflector 12a, the direction of movement of the particles is changed, reflected by the reflector 5, and then introduced into the light guide member 9.

As such, the particles of light radiating in a straight line with the fixed direction of the electrodeless light bulb 1 generally pass through the center portion of the light guide member 9, but the particles of the light as described above are transmitted to the light transmitting member 12. First, the light is reflected by the reflector 12a and passes through the reflector 5 so that the direction of movement of the particles of the light is shifted so that a large amount of light particles are directed toward the edge of the light guide member 9, thereby improving the lighting effect.

On the other hand, in the electrodeless lamp (not shown) that is not provided with the light guide member 9, the light radiated in a straight line from the electrodeless bulb 1 is transmitted as it is, so that glare or the like occurs, but the electrodeless bulb Light emitted in a straight line from (1) is blocked by the reflecting portion 12a of the light transmitting member 12, so that the above glare phenomenon is remarkably reduced.

In the light collecting structure of the electrodeless lamp according to the present invention, one side of the light transmitting member communicatively coupled to the wave guide to receive the electrodeless bulb is formed to be recessed inward with respect to the bulb and is larger than the diameter of the electrodeless bulb in the recessed center thereof. By forming the reflector, the particles of light emitted in a straight line from the electrodeless light bulb can be distorted toward the edge of the light guide member to improve the lighting effect and block glare when the light guide member is not installed. .

Claims (3)

A wave guide mounted in the opening of the casing in which the high-pressure generator and the microwave generator are accommodated, and a structure that prevents leakage of microwaves induced by the wave guide while allowing light to pass therethrough to accommodate the electrodeless bulb filled with the inert gas. A light transmitting member communicatively coupled to the wave guide, and a reflecting mirror installed to surround the light transmitting member so as to totally reflect the light passing through the light transmitting member, The light transmitting member is formed to be concave inwardly in the shape of a conical cross section or an arc cross section with respect to the electrodeless bulb, and a reflecting portion for reflecting the light radiating toward the center in the center of the depression to the outside than the diameter of the electrodeless bulb. Condensing structure of an electrodeless lamp formed by forming the same or larger. delete delete