KR200293891Y1 - Lamp stabilizer with a built in electronic starter - Google Patents

Abstract

The present invention relates to an electronic starter built-in ballast of fluorescent lamps, its purpose is to configure the starter electronically to be suitable for use in fluorescent lamps and to operate by lighting the fluorescent lamps electronically and to be stable, semi-permanent, and fluorescent lamps. The present invention provides an electronic starter ballast, such as a fluorescent lamp, which can improve efficiency.

The present invention is a triac (12) for lighting a fluorescent lamp by generating a high voltage to the ballast (L1) by the operation of being connected in parallel to the fluorescent lamp 11 and turned ON / OFF in the fluorescent electronic starter, and the triac (12) RsCs circuit 13 connected in parallel to suppress an initial voltage rise ratio, a diac 14 connected to a gate of the triac 12 to give a gate signal, and a connection to the diaac 14 C1-C2-R1 (15) for operating the diac by a charging voltage, a diode (D1) connected with the C1-C2-R1 (15) to supply a rectified current, and the triac (12) And capacitors C3 and C4 connected in parallel with C1-C2-R1 15 to give stability of the circuit.

Description

Lamp stabilizer with a built in electronic starter

The present invention relates to a ballast built-in electronic starter of fluorescent lamps, and more specifically, to the electronic starter ballast of fluorescent lamps in which the starter is electronically configured to be suitable for use in fluorescent lamps, and the fluorescent lamp is operated electronically and the electronic starter is integrated with the ballast. It is about.

Conventional ballasts include starter, rapid and electronic ballasts.

1 is a schematic diagram showing a connection state of a conventional starter ballast, and FIG. 2 is a schematic diagram showing a connection state of a conventional electronic and rapid ballast.

As shown in Figure 1, the starter-type ballast is complicated to assemble because the ballast for the ballast (1) and the starter (3) must be separately connected to the lamp. Especially in the case of signboards installed outdoors, the problem becomes larger. Because of the difficulty of the signboard when the signboard is attached to the outside of the building, the troublesome work must be done as described above. Especially, since the ballast itself is exposed to external moisture after the signboard is attached, it is easily corroded, causing problems in safety management. In addition, in the case of the starter type, the lifespan of the fluorescent lamp and the starter is shortened, so there is a problem that the maintenance cost increases due to frequent replacement of the fluorescent lamp and the starter.

In addition, the rapid and electronic ballasts, as shown in Figure 2, because the assembly operation is simple, the above-mentioned problem is solved, but there are the following problems.

Specifically, in the case of the rapid type, the unit price of the product is not only high but also heavy, so it is not suitable for signage, and in the case of an electronic ballast, the weight can be reduced, but the unit price of the product is high and there is a possibility of problems with moisture. Therefore, it is not suitable for signboards installed outdoors.

The present invention is devised to solve the above-mentioned shortcomings, and the starter is electronically configured to be suitable for use in a fluorescent lamp, and the fluorescent lamp is electronically operated to be turned on, and the electronic starter is integrated with a ballast, which is stable, semi-permanent, and fluorescent lamps. It is an object of the present invention to provide an electronic starter ballast, such as a fluorescent lamp, which can improve the efficiency of the lamp.

The present invention is a triac (12) for lighting a fluorescent lamp by generating a high voltage to the ballast (L1) by the operation of being connected in parallel to the fluorescent lamp 11 and turned ON / OFF in the fluorescent electronic starter, and the triac (12) RsCs circuit 13 connected in parallel to suppress an initial voltage rise ratio, a diac 14 connected to a gate of the triac 12 to give a gate signal, and a connection to the diaac 14 C1-C2-R1 (15) for operating the diac by a charging voltage, a diode (D1) connected with the C1-C2-R1 (15) to supply a rectified current, and the triac (12) And capacitors C3 and C4 connected in parallel with C1-C2-R1 15 to give stability of the circuit.

1 is a schematic diagram showing the connection state of a conventional starter ballast

Figure 2 is a schematic diagram showing the connection state of the conventional electronic and rapid ballast

3 is a circuit diagram of a ballast built-in electronic starter according to the present invention

<Description of the symbols for the main parts of the drawings>

(11) Fluorescent Lights (12) TRIAC

(13) RsCs circuit (initial voltage rise ratio suppression circuit)

(14) DIAC

(15) C1-C2-R1 (Diak Operation Circuit)

(L1) Ballast (D1) Diode

(C3, C4) condenser

If described in detail in connection with the configuration and the operation of the embodiment of the present invention for achieving the above object in the accompanying drawings.

3 is a circuit diagram of a ballast built-in electronic starter according to the present invention,

In a general magnetic ballast fluorescent lamp, if it is turned on by a starter, it can be seen that if the starter can not be turned on by the end of its life, it is turned on by shortening both terminals of the starter holder temporarily.

The present invention intends to provide a device for lighting the fluorescent lamp by operating electronically using this principle.

The present invention is connected to the fluorescent lamp 11 in parallel as shown in Figure 3 generates a high voltage to the ballast (L1) by the ON / OFF operation to turn on the fluorescent lamp triac (12), and the triac ( 12 is connected in parallel with the RsCs circuit 13 for suppressing the initial voltage rise ratio, the diac 14 connected to the gate of the triac 12 to give a gate signal, and the diaac 14 with A C1-C2-R1 (15) connected to operate the diac by a charging voltage, a diode (D1) connected to the C1-C2-R1 (15) to supply a rectified current, and the triac (12) ) And capacitors C3 and C4 connected in parallel with C1-C2-R1 (15) to give stability to the circuit.

The present invention configured as described above requires a high voltage of 800V or higher to start the fluorescent lamp, and a high voltage is generated in L1 by briefly operating the triac Q1 (12) and then cutting it to make a high voltage. In order to turn on the triac Q1 (12), the charging voltage Vc1 of C1 must operate the diac 14 to generate I _G1 . Where Vc1 is charged via C1-C2-R1 the rectified current by D1. At this time, the size of V _C1 is related to the capacity of C1, the capacity of C2, and the size of R1. (The higher the value of C1 / C2, the lower the voltage. The smaller the value of R1, the higher the voltage.) C3 and C4 are determined by considering the stability of the circuit.

The present invention connects the R _S C _S circuit 13 in parallel to the triac (TRIAC) in the proposed circuit to suppress the initial voltage rise ratio (dv / dt). This is a circuit for eliminating transients in which the signal rises rapidly. Usually triac (TRIAC) is a triac ON because it is not possible to suppress the rise up ratio appears to triac terminal is not connected to R _S C _S circuit in this manner because it has a certain voltage ratio, dv / dt without a gate signal There is a possibility. Standard triacs have a dv / dt of about 100V / usec. If the surge voltage is applied to the triac terminal, the dv / dt ratio must be reduced so that it cannot be turned on without a gate signal. Here, the C _S 0.15㎌ condenser prevents the triac from operating at high frequencies and acts as a low impedance to the rising frequency so that transients of AC power do not appear on the load, and the role of R _S is a triac. In this normal operation, it limits the discharge current of the capacitor. _{(Note: R S = 33Ω, C S} = 0.15㎌)

The present invention is not limited to the above-described specific preferred embodiments, and any person having ordinary skill in the art to which the present invention pertains may make various modifications without departing from the gist of the present invention claimed in the claims. Of course, such changes will fall within the scope of the claims.

Electronic starter built-in ballasts of the present invention fluorescent lamp constructed and operated as described above is semi-permanent using an electronic starter, and can reduce the price to half the level while exhibiting the same effect as a conventional electronic ballast, and supplying power It is a useful design that turns on immediately and does not worry about electromagnetic waves.

Claims (1)

In fluorescent electronic starter, Triac 12 which generates high voltage in ballast L1 by the operation of being connected to the fluorescent lamp 11 in parallel and is turned on / off and lights up the fluorescent lamp, and is connected in parallel with the triac 12 to raise initial voltage A RsCs circuit 13 for suppressing rain, a diac 14 connected to a gate of the triac 12 to give a gate signal, and a diaac 14 connected to the diac 14 to operate a diac by a charging voltage C1-C2-R1 (15), a diode (D1) connected to the C1-C2-R1 (15) to supply a rectified current, the triac (12) and C1-C2-R1 (15) Ballast with built-in electronic starter of fluorescent lamp, characterized in that it consists of capacitors (C3, C4) connected in parallel with each other to give stability to the circuit