JPS6326903A - Fluorescent lamp apparatus - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed description of the invention] [Purpose of the invention] (Industrial application field) The present invention relates to a fluorescent lamp device equipped with a power supply section.

(Prior art) Recently, with the aim of saving energy, fluorescent lamps that are more efficient than incandescent lamps have been bend-molded into a compact size to be approximately the same size as the incandescent lamps. Fluorescent lamp devices that can be used as alternative light sources have become widespread.

However, in the future, if the size of the fluorescent device is to be reduced to the size of an armpit or an incandescent light bulb, and the brightness is further increased, the power supply unit for making the lamp emit light will be made smaller accordingly. Power consumption also increases, and the heat generation density of the power supply section continues to increase. Furthermore, since the light energy from the light emitting part is absorbed as heat energy, countermeasures against the heat are serious. There is no current fluorescent lamp 'IAm that overcomes this problem.

(Problems to be Solved by the Invention) An object of the present invention is to provide a fluorescent lamp device comprising a light emitting part and a power supply part connected via a heat insulating substrate, even if the size is reduced to the same size as a popular incandescent light bulb.

An object of the present invention is to provide a fluorescent lamp device in which the temperature of the power supply section can be kept sufficiently within a set temperature even in a fluorescent lamp device with higher brightness.

[Structure of the invention]

(Means for Solving the Problems) The fluorescent lamp device of the present invention houses a light emitting tube section consisting of a translucent envelope housing a glass bulb forming a curved discharge path, and a power supply element! A power source unit consisting of a source case is connected via a heat insulating board. In this fluorescent lamp device, the side surface of the arc tube part of the heat insulating substrate and the opposite surface thereof are plated with diodes, capacitors, etc. that serve as power supply elements and do not generate heat, or are coated with a material with good heat reflectivity such as aluminum vapor deposition, Same<i! FFFI elements that generate a lot of heat, such as transformers, chokes, and transistors, should be coated with a material that has a high thermal emissivity, such as black. Furthermore, by making the entire interior of the arc tube a vacuum, the heat insulation effect can be enhanced.

(Function) With the above configuration, until now the light energy of the arc tube was converted into thermal energy and passed through the heat insulating board to heat the power supply section, making it impossible to keep the power supply section within the set temperature.
By directly reflecting light energy as light, there is no need for heat to pass through to the power supply section, and on the contrary, brightness can be increased. Heat that has passed through the heat insulating substrate can be radiated to the power supply element by plating provided on the surface opposite to the arc tube side. In addition, the radiated heat is further reflected by the plating applied to the capacitor and diode, so that the temperature of the power supply element, which does not generate heat, can be kept low.

Elements that generate a lot of heat, such as transformers and chokes, on the other hand, are coated with materials with high emissivity, so the temperature rise can be kept low, making it possible to keep the overall temperature within a predetermined range. Further, by making the arc tube part a vacuum, the above-mentioned heat insulation effect and high brightness can be further enhanced. Furthermore, by using a coating material with good thermal conductivity, such as plating or aluminum vapor deposition, it has the effect of evening out the heat trapped in one area and eliminating hot spots.

(Embodiment) The present invention will be explained below based on an embodiment shown in FIG. 1. In FIG. 1, 1 is a translucent envelope, which is made of transparent or translucent material such as glass or acrylic resin. It is formed.

The envelope 1 has a hollow, spherical shape with one vent open so as to match or approximate the shape of a Ps-type or G-type bulb known as a general incandescent light bulb. Inside the envelope 1, a glass bulb 2 forming a curved discharge path is attached to a heat insulating substrate 3 which is joined to the open end of the envelope 1. Plating 4 is applied to the joint surface of the open end of this heat insulating board 3 and the opposite surface thereof.
are installed so that they are in close contact with each other. The envelope 1 is joined. A power supply section 5 is provided on the opposite surface of the heat insulating substrate 38. The power supply unit 5 includes an electric wiring board 6, an electric element 7 mounted thereon, and a power supply case 8 that houses them. The diode 12, starting capacitor 13, etc. that do not generate heat in the electric element 7 are coated with plating 4.

Also, the transformer 14, choke 15, which generates a lot of heat,
The transistor 16 and the like are coated with black paint 1o. This black paint 10 is also coated on the inner and outer surfaces of the power supply case 8 described above.

With this configuration, the light energy, that is, the thermal energy, emitted from the glass bulb 2 is reflected by the plating 4 coated on the surface of the heat insulating substrate 3, and the amount of heat passing through the heat insulating board 3 can be reduced. Conversely, the plating 4 provided on the mounting surface of the power supply section 5 can suppress the heat that has passed through the heat insulating substrate 3 from being radiated to the power supply section 5 to a small extent.

In addition, the diode 12, startup capacitor 13, etc. that do not generate heat can reflect the heat coming from the light emitting part by the mereki 4.The heat coming from the light emitting part is greatly affected by the black paint lO coated on the inner surface of the power supply case 8. The transformer 14, which can absorb heat and has a notable heat generation, is a choke.

15, the heat dissipation of the transistor 16 and the like can be increased by applying black paint 10. Because of this, the electric element 7 can be kept at a temperature lower than the maximum operating temperature.

Further, since the arc tube section 9 made of the envelope 1 and the heat insulating substrate 3 is sealed, heat tends to stagnate inside the arc tube section 9. These hot spots cause variations in heat dissipation density and deteriorate the heat dissipation effect. However, by providing the plating 4, the hot spots can be made uniform and the heat dissipation effect can be enhanced. At the same time, since the aluminum foil 4 has a glossy surface, it also has the effect of increasing brightness.

Note that when the arc tube section 9 is evacuated, there is no convective heat transfer by air, and only heat exchange by radiation occurs. Therefore, the effect can be further enhanced by using a material with good reflectance such as the plating 4.

〔Effect of the invention〕

According to the present invention, the generation of heat in the power supply section can be kept within a predetermined temperature range, so the elements inside the power supply can be operated stably, and as a result, the entire device can be downsized, and a high 1R temperature can be achieved. It becomes possible to design

[Brief explanation of drawings]

FIG. 1 is a sectional view showing one embodiment of the present invention. 1...Envelope 7...Electric element 2...
Glass bulb 8... Power supply case 3... Heat insulation board 9... Luminescent tube part 4... Plating
10...Black paint 5...Power supply section
11...Case 6...Electric wiring board agent Patent attorney Nori Chika Ken Yudo Kikuo Takehana

Claims (2)

[Claims] (1) An arc tube section in which a glass bulb forming a curved main discharge path is housed in a container composed of a light-transmitting envelope and an insulating substrate, and the insulating substrate is provided on the opposite side of the glass bulb. In a fluorescent lamp device formed of a power supply unit consisting of a power supply element and a power supply case that houses the element, the luminous tube side surface of the heat insulating substrate and the opposite surface thereof, a diode that does not generate heat, a resonant capacitor, and a starter. Coating capacitors, etc. with a material with good heat reflectivity such as plating or aluminum vapor deposition, and coating circuit elements that generate a lot of heat, such as transformers, chokes, and transistors, with material with good heat emissivity, such as black. A fluorescent lamp device characterized by having its inner and outer surfaces coated with a material with good thermal emissivity. (2) The fluorescent lamp device according to claim 1, wherein the entire interior of the arc tube is evacuated.