KR200333483Y1 - Fluorescent lamp using inverter ballast in charge style - Google Patents

Abstract

The present invention relates to a fluorescent lamp using a rechargeable inverter ballast, and more particularly to a fluorescent lamp using a rechargeable inverter ballast for lighting the fluorescent lamp by driving the magnetic fluorescent ballast with the voltage charged in the rechargeable battery during power outage or blackout. The fluorescent lamp using the rechargeable inverter ballast according to the present invention is a fluorescent lamp that is lit by a ballast supplied with a commercial AC voltage, the charging unit for converting the commercial AC voltage into a DC voltage, and receives the DC voltage converted by the charging unit A battery to be charged, a DC / AC converter for receiving a DC voltage charged in the battery and converting the battery into a commercial AC voltage, and directly connecting the ballast to the fluorescent lamp when the commercial AC voltage is normally supplied, And a magnetic ballast which receives a commercial AC voltage converted from the DC / AC converter when the commercial AC voltage is interrupted and turns on the fluorescent lamp when the commercial AC voltage is interrupted. It features.

Description

Fluorescent lamp using rechargeable inverter ballast {FLUORESCENT LAMP USING INVERTER BALLAST IN CHARGE STYLE}

The present invention relates to a fluorescent lamp using a rechargeable inverter ballast, and more particularly to a fluorescent lamp using a rechargeable inverter ballast for lighting the fluorescent lamp by driving the magnetic fluorescent ballast with the voltage charged in the rechargeable battery during power outage or blackout.

In general, fluorescent lamps are widely used because they are brighter and more economical than incandescent lamps. Such a fluorescent lamp is a kind of discharge tube, and a high voltage is required initially to emit hot electrons required for discharging, and the voltage applied to the fluorescent lamp after discharge has a negative resistance characteristic that decreases as the lamp current increases. In other words, fluorescent lamps have a property that once the current increases and starts to brighten, it becomes brighter and eventually the tube is destroyed or, conversely, when the current decreases and becomes darker, it becomes darker and eventually loses light. In the inside, a ballast is installed to maintain a constant brightness of the fluorescent lamp, and initially, a lamp is supplied by supplying a high voltage necessary for lighting, and after lighting, the lamp controls the current of the lamp to maintain a constant brightness.

However, at present, the power supply system of KEPCO and the entire power supply system by the reserve power supply cause the confusion in places such as general customers or tunnel sections of subways or highways when the entire power supply is interrupted in case of power failure or power failure. There was a problem that things would happen.

Accordingly, an object of the present invention is to solve the above-mentioned problems, and the magnetic fluorescent lamp ballast is driven by a voltage charged in a rechargeable battery even during a power failure or a power failure using a rechargeable inverter ballast. The present invention provides a fluorescent lamp using a rechargeable inverter ballast that can be turned on.

1 is a block diagram of a fluorescent lamp using a rechargeable inverter ballast according to an embodiment of the present invention.

2 is a circuit diagram of a fluorescent lamp using a rechargeable inverter ballast according to an embodiment of the present invention.

<Explanation of Signs of Major Parts of Drawings>

10: relay 20: magnetic ballast

30: fluorescent lamp 40: transformer

50: charging unit 60: battery unit

70: DC / AC converter

The fluorescent lamp using the rechargeable inverter ballast of the present invention for achieving the above object is a fluorescent lamp that is lit by a ballast supplied with a commercial alternating voltage, the charging unit for converting the commercial alternating current voltage into a DC voltage, and is converted by the charging unit A battery that is charged with a DC voltage, a DC / AC converter that receives a DC voltage charged in the battery and converts the battery into a commercial AC voltage, and directly connects the ballast and the fluorescent lamp when the commercial AC voltage is normally supplied. A magnetic type to turn on the fluorescent lamp by receiving a relay which is automatically connected to the DC / AC converter when the commercial AC voltage is blocked, and a commercial AC voltage converted from the DC / AC converter when the commercial AC voltage is blocked; It includes a ballast.

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

1 is a schematic block diagram of a fluorescent lamp using a rechargeable inverter ballast according to an embodiment of the present invention, Figure 2 is a circuit diagram of a fluorescent lamp using a rechargeable inverter ballast according to an embodiment of the present invention.

As shown, the present invention is largely relay 10, magnetic ballast 20, fluorescent lamp 30, transformer 40, charging unit 50, battery unit 60, DC / It consists of an AC converter 70.

By this structure, 220 [V] of power is normally supplied directly to the magnetic ballast 20 normally as usual. At this time, as the relay 10 maintains the state directly connected to the magnetic ballast 20 and the fluorescent lamp 30, the relay 10 is driven and the magnetic ballast 20 is driven to the fluorescent lamp 30. ) Lights up.

In addition, the supply voltage of 220 [V] is lowered to a voltage of 12 to 14.4 [V] by the transformer 40 and then converted into a DC voltage through the charging unit 50. That is, the voltage of 12 to 14.4 [V] dropped is rectified by the diode D1, filtered by the resistor R4 and the electrolytic capacitor EC2, and supplied to the battery 60, as shown in FIG. The battery 60 is charged. At this time, during charging, an overcharge prevention circuit (not shown) is configured to prevent overcharging of the battery 60 in advance.

On the other hand, when the supply voltage of 220 [V] is cut off due to power failure or power failure, the switch contact of the relay 10 is connected to the bias resistors R5 and R6 of the DC / AC converter 70.

Accordingly, the high frequency of the charging voltage of the battery 60 is filtered by the choke coil CH1 as shown in FIG. 2.

Subsequently, the DC voltage of DC 12 [V], which is the charging voltage of the battery 60 filtered by the choke coil CH1, is converted into a commercial AC voltage of 220 [V] by the DC / AC converter 70.

Subsequently, the commercial AC voltage converted by the DC / AC converter 70 is supplied to the magnetic ballast 20 so that a high voltage is applied to the fluorescent lamp 30 so that the lighting is performed.

In particular, the lighting time of the fluorescent lamp 30 during power cut is determined by the capacity of the rechargeable battery 60. For example, to use 30 [W] fluorescent lamps for about 30 minutes, 12 [V] 1300 [㎃] Will require a dose of.

Meanwhile, in the detailed description of the present invention, specific embodiments have been described, but various modifications are possible without departing from the scope of the present invention. Therefore, the scope of the present invention should not be limited to the embodiments described, but should be determined by the equivalents of the utility model registration claims as well as the scope of the utility model registration claims described below.

As described above, according to the present invention, the magnetic fluorescent ballast is driven by the voltage charged in the rechargeable battery at the time of power failure or power failure by using the rechargeable inverter ballast, so that the fluorescent lamp is turned on for a predetermined time. It is effective in preventing safety accidents by satisfying lighting effects.

Claims (2)

In a fluorescent lamp that is lit by a ballast supplied with a commercial AC voltage, A charging unit converting the commercial AC voltage into a DC voltage; A battery which is charged by receiving the DC voltage converted by the charging unit; A DC / AC converter which receives a DC voltage charged in the battery and converts the DC voltage into a commercial AC voltage; A relay connected directly to the ballast and the fluorescent lamp when the commercial AC voltage is normally supplied, and automatically connected to the DC / AC converter when the commercial AC voltage is interrupted; And a magnetic ballast which receives the commercial AC voltage converted from the DC / AC converter and turns on the fluorescent lamp when the commercial AC voltage is interrupted. The method of claim 1, The fluorescent lamp using a rechargeable inverter ballast, characterized in that it further comprises an overcharge preventing circuit unit for preventing overcharging of the battery.