KR200274259Y1 - Electronic Stabilizer of Lamp - Google Patents

Abstract

The present invention fills and fills liquid tar on a printed circuit board on which various circuit parts of an electronic ballast are mounted, thereby dissipating heat generated from various parts to the outside of the case through the tar to increase the heat dissipation effect and moisture-proof of the printed circuit board. By improving the effect, it provides a ballast for electronic fluorescent lamps, which greatly extends the life of the ballast in an inexpensive and simple manner.

Description

Electronic Stabilizer of Lamp

The present invention relates to a ballast, and in particular, by filling and filling tar on a printed circuit board on which various circuit parts of the electronic ballast are mounted, an electronic fluorescent lamp which heats heat generated from various parts to the outside of the case through tar to enhance heat radiation effect. It relates to a ballast.

In general, the ballast acts as a starter to turn on the lamp because it provides an initial starting voltage to the fluorescent lamp to facilitate the discharge of the lamp.

Since the lamp has a negative voltage-current characteristic, when the initial lamp is turned on, the voltage continuously decreases and the current rises, eventually destroying the lamp. In order to prevent this phenomenon, a ballast is required. After lighting, the ballast supplies a constant voltage to the lamp to limit the current.

The ballast keeps the lamp steady by supplying a constant voltage to the lamp to interrupt the discharge of the lamp.

To this end, the electronic ballast converts a commercial power supply frequency (60 Hz) into a high frequency of 30 to 45 KHz using a high frequency conversion circuit to be used as a lamp power source.

Such electronic ballasts have several advantages over conventional magnetic ballasts. First, the electronic ballasts turn on high-frequency light, making it easy to turn on the lamps, and the electronic ballasts turn on high-frequency light, so there is no flicker. Since the high frequency light is turned on, the luminous efficiency is increased, and since it is composed of an electronic circuit, it is possible to miniaturize and reduce the weight, and the energy efficiency is improved.

However, such an electronic ballast converts alternating current into direct current and then converts it back into alternating current of high frequency through an output switch, thereby increasing the load and resistance of various electronic components and generating a lot of heat.

Therefore, in the related art, each electronic component is deteriorated due to heat generated during high-speed operation of various electronic components, which shortens the lifespan of the ballast. Also, if a separate heat dissipation device is added to solve the problem, the manufacturing cost increases and the competitiveness of the product decreases. There was a problem.

Accordingly, an object of the present invention is to fill and fill liquid tar on a printed circuit board on which various circuit parts of an electronic ballast are mounted, thereby radiating heat generated from various parts to the outside of the case through tar to increase the heat dissipation effect and to print. It is to provide a ballast for an electronic fluorescent lamp that improves the moisture proof effect of the circuit board.

1 is a device shown for explaining the liquid tar filling method of the electronic ballast according to the present invention.

* Explanation of symbols for the main parts of the drawings *

10: lower case 20: printed circuit board

40: upper case 50: tar melting device

55: tar 60: tar discharge device

Technical means of the present invention for achieving the above object, an electronic ballast having a lower case on which a printed circuit board is placed, and an upper case that is matched with the lower case and covered on an upper end of the lower case: printing of the electronic ballast It is characterized in that the liquid tar is solidified by filling the liquid tar in the lower case on which the circuit board is placed.

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

1 is a device shown for explaining the liquid tar filling method of the electronic ballast according to the present invention.

The electronic ballast according to the present invention has a lower case 10 in an external structure, and a printed circuit board 20 having various electronic components 30 mounted therein is disposed in the lower case 10, and the lower case 10. At the top of the upper case 40 is matched with the lower case 10 is covered.

The circuits of the electronic ballast mounted on the printed circuit board 20 are generally composed of various circuits, for example, line filters, surge suppression circuits, rectifier circuits, oscillation circuits, inverters, resonant circuits, protection circuits, and the like. Mounted on the printed circuit board 20, each component plays the following role.

In other words, the line filter generates EMI (Electromagnetic Interference) in all electronic devices, so that it does not violate the EMI regulations and minimizes the adverse effects on other electronic devices. The surge suppression circuit is a surge generated by nature. This circuit protects the ballast circuit from voltage (lightning) and surge voltage applied by an external power supply. The rectifier circuit converts a commercial AC voltage (220V / 60Hz) into a DC voltage. The oscillator circuit uses a commercial AC voltage ( 220V / 60Hz) is a high frequency conversion signal voltage circuit, the inverter circuit is a high frequency signal generated by the oscillation circuit converts the input DC voltage into a high frequency voltage (square wave), the resonance circuit is generated in the inverter circuit The high frequency voltage (square wave) is converted into sine wave through L (coil) and C (condenser) filter. It is a circuit that protects the ballast from damage by detecting excessive current of the lamp at the end of the term.

The electronic ballast having the above configuration should have the following conditions: power factor must be 90% or more, good comparative efficiency, surge protection circuit must be able to withstand the lightning strike, and lamp life It is desirable to extend the lamp life by adopting the soft-start method because the protection circuit should be able to protect the ballast at the end, and the lamp life is instantaneously high frequency when it is turned on. The electronic ballast applied to the present invention is not limited to this circuit configuration at all.

The present invention is on the printed circuit board 20 is equipped with the circuit components 30 as described above

The liquid tar 55 melted at 140 ° C. or higher is poured into the lower case of the ballast, that is, onto the printed circuit board 20 to be solidified, so that heat generated in various electronic components 30 through the solidified tar 55 is solidified. By conducting to the case 10 of the ballast will increase the heat dissipation effect.

Reference numeral 50 denotes a tar in the liquid state by heating the solid tar injected as a tar melting apparatus to 140 ° C or higher, and reference numeral 60 denotes a discharge pipe 65 according to the operation of a predetermined switch with a tar discharge device. It is configured to discharge the tar 55 to the ballast.

That is, when the lower case 10 (the upper case is open) in which the printed circuit board 20 of the ballast is mounted is positioned at the lower end of the discharge pipe 65, and the predetermined pressure switch of the tar discharge device 60 is pressed, the tar melting device ( The liquid tar 55 accumulated in 50 is discharged and filled into the printed circuit board 20 of the ballast through the discharge pipe 65.

When the tar 55 is filled as desired, press the switch to turn it off, and when the upper case 40 is covered with the upper end of the lower case 10, the tar filling operation is terminated, and the tar naturally solidifies as a predetermined time elapses.

The tar used in the present invention does not refer to a specific material, but refers to a general material which is an insulator and excellent in thermal conductivity, and may be any material that easily solidifies at low temperature while being easily melted at high temperature.

Therefore, the present invention fills and fills liquid tar on a printed circuit board on which various circuit components of the electronic ballast are mounted, thereby heat dissipating heat generated from various components to the outside of the case through the tar to increase the heat dissipation effect and to the printed circuit board. It is effective to increase the lifespan of ballast in a cheap and simple way by improving the moisture-proof effect.

Claims (1)

In an electronic ballast having a lower case on which a printed circuit board is placed, and an upper case that is mated with the lower case and covers the top of the lower case: The ballast for an electronic fluorescent lamp characterized in that the liquid tar is filled and solidified in the lower case in which the printed circuit board of the electronic ballast is placed.