KR0165031B1 - Lamp turn-on control method and device of a refrigerator - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fluorescent lamp lighting control device and a fluorescent lamp lighting control method of a refrigerator, and to start supplying power to the fluorescent lamp according to the opening of the refrigerator door, to preheat the fluorescent lamp for a predetermined time, and then to counter electromotive force from the ballast after preheating. The lighting operation is started by turning on the fluorescent lamp. The lighting operation is detected by detecting whether the fluorescent lamp is turned on and repeating the lighting operation until it turns on when the fluorescent lamp is not lit. As a result, when a failure occurs in the lighting operation of the fluorescent lamp installed in the refrigerator, it is possible to ensure the lighting operation of the fluorescent lamp by detecting it and repeating the lighting operation of the fluorescent lamp.

Description

Fluorescent lamp lighting control device and fluorescent lamp lighting control method of the refrigerator.

1 is a circuit diagram of a fluorescent lamp lighting control device according to the present invention.

2 is a circuit diagram of a conventional fluorescent lamp lighting control device.

* Explanation of symbols for main parts of the drawings

1: AC power supply 3: ballast

5: starter 10: fluorescent lamp

20: microcomputer 21: transformer coil

22: buffer 23: diode

25: LED 27: Photocoupler

The present invention relates to a fluorescent lamp lighting control device and a fluorescent lamp lighting control method of the refrigerator, and to ensure the lighting operation by repeating the lighting operation when the fluorescent lamp lighting failure.

In the refrigerator, a lamp is provided that lights up as the refrigerator door is opened. Lamps used in refrigerators are mainly composed of incandescent lamps. Incandescent lamps have been used in refrigerators because of the faster flashing time compared to fluorescent lamps. In order to turn on the fluorescent lamp, it takes about 1 second to warm up, and there is a problem of flickering until it turns on. However, it has been known that it is not desirable to adopt a product that opens and closes frequently, such as a refrigerator.

Recently, according to the trend of larger refrigerators, products using fluorescent lamps have been released. Compared to incandescent lamps, fluorescent lamps have the advantages of high power consumption of ⅓ ~ ¼, soft light, low radiant heat, and 5 to 10 times higher capacity than incandescent lamps. Because.

In such a refrigerator, a conventional fluorescent lamp lighting device is permanently installed.

2 is a circuit diagram of a conventional fluorescent lamp lighting control device. Components required for lighting of the fluorescent lamp 40 vary depending on the type, but will be described based on the lighting circuit using the starter 35. There are filaments 37 and 38 at both ends of the fluorescent lamp 40, and these two filaments 37 and 38 are connected to both ends of the starter 35, respectively. In addition, the two filaments 37 and 38 are connected to a circuit in which the ballast 33 and the alternating current power supply 31 are connected in series, and as a whole, the alternating current power supply 31-ballast 33-left filament 37-starter A closed circuit (hereinafter referred to as a "preheated closed circuit") consisting of the (35) -right filament 38-AC power supply 31 is formed.

The microcomputer 50 detects an open state of the refrigerator door, drives the relay 44 according to the opening of the door, and starts supplying power. When the supply of power is started from the AC power source 31, power is supplied along the preheat closed circuit to preheat the filaments 37 and 38. When the preheating is completed, the flow of current to the starter 35 is interrupted momentarily, and a high voltage back electromotive force is generated in the ballast, thereby turning on the fluorescent lamp 40. After it is turned on, a closed circuit (hereinafter referred to as a "lighting closed circuit") consisting of an AC power supply 31, a ballast 33, a left filament 37, a right filament 38, and an AC power supply 31 is formed to form a fluorescent lamp. The lighting state of 40 is maintained. Then, when the door of the refrigerator is closed, the microcomputer 50 detects this and turns off the relay 44 to cut off the power supply from the AC power source 31, thereby turning off the fluorescent lamp 40.

In this way, the lighting operation of the fluorescent lamp requires preheating and supply of back electromotive force from the ballast.In the interior of the refrigerator, the optimum preheating time required for lighting the fluorescent lamp is different because the temperature and humidity of the refrigerator are different from that of the general room. do. Fluorescent lamps should be turned on after capturing the optimal preheating time, and it is not desirable to ensure the lighting operation by excessive preheating because it may shorten the life of the fluorescent lamps. Therefore, when the optimum preheating time is found and controlled to perform the lighting operation, the probability of the lighting failure being increased due to the environmental change in the refrigerator. By the way, such a conventional fluorescent lamp lighting method is left unlit when a lighting failure occurs. In the refrigerator, since the door acts as a switch to control the supply of power, there is an inconvenience in that when the lighting failure occurs, the current lighting method has to repeat the process of closing and opening the refrigerator door again.

Accordingly, an object of the present invention is to detect a defect in the lighting operation of a fluorescent lamp installed in a refrigerator, and to detect the defect and repeatedly perform the lighting operation of the fluorescent lamp to ensure the lighting operation of the fluorescent lamp. A lighting control device and a lighting control method of a fluorescent lamp are provided.

The object of the present invention is to provide a fluorescent lamp for preheating a fluorescent lamp for a predetermined time by starting the supply of power as the refrigerator door is opened, and lighting the fluorescent lamp by a counter electromotive force from a series connected ballast after preheating. A lamp lighting control device, comprising: a lighting detecting unit for detecting whether or not the fluorescent lamp is turned on, and a lighting control unit for controlling the lighting operation to be repeated until the lighting is turned on when it is determined that the lighting detection unit is not lit. It is achieved by the fluorescent lamp lighting control device characterized in.

The lighting detector may include a transformer coil for converting the voltage applied to the coil of the ballast, a rectifier for rectifying the voltage waveform from the transformer coil, and a voltage level for determining whether the lamp is lit according to the magnitude of the output voltage of the rectifier. With the determination unit, it is possible to easily determine whether the ballast is energized by using a voltage having a certain magnitude when the current flows through the ballast.

The lighting detection unit may further include an LED that emits light by the output voltage from the rectifier and an optical transistor that outputs a voltage having a predetermined size in response to the light emitted from the LED, thereby the voltage waveform rectified by the rectifier. It is possible to configure a lighting control device that can easily detect whether light is on by detecting light emission.

In addition, according to the present invention, there is provided a fluorescent lamp lighting control method of a refrigerator performed by the lighting control device as described above.

Hereinafter, the present invention will be described in detail with reference to the drawings. 1 is a circuit diagram of a fluorescent lamp lighting control device according to the present invention. The fluorescent lamp 10 and other parts for lighting the same are composed of a power source 1, a starter 5, a ballast 3, and the like, as in the conventional fluorescent lamp lighting control device described above. The driving of the microcomputer 20 for controlling the lighting and the relay 24 driven by the microcomputer 20 is as described above.

The lighting detection unit is necessary to determine whether the lighting operation is normally performed. The lighting detection unit includes a transformer coil 21, a diode 23 connected in series with the transformer coil 21, and a photo-coupler composed of a light emitting diode (LED) 25 and an optical transistor 26 ( 27). The transformer coil 21 converts the voltage applied to the coil in the ballast 3 into a size suitable for driving other components constituting the lighting detection unit. The voltage reduced in the transformer coil 21 is half-wave rectified in the diode 23 and supplied to the LED 25, and the LED 25 emits light by the supplied voltage. At this time, the light emitted is sensed by the phototransistor 26, the phototransistor 26 outputs a constant voltage input accordingly and inputs it to the microcomputer 20.

When voltage is applied to the ballast 3, a voltage having a predetermined magnitude is input to the microcomputer 20 from the phototransistor 26. When the voltage is not applied to the ballast, the voltage is input to the microcomputer 20 from the phototransistor 26. Will not be. When the fluorescent lamp 10 is turned on, the voltage is applied to the ballast 3 by the current flowing along the above-described closed circuit, and thus, the microcomputer 20 receives the fluorescent lamp when the predetermined voltage is input from the phototransistor 26. 10 is determined to be turned on, and when no voltage is input from the phototransistor 26, it is determined that the fluorescent lamp 10 is not lit.

The lighting operation is repeated by such a configuration by the re-drive of the relay 24 by the microcomputer 20. The overall control process is as follows. The microcomputer 20 detects an open state of the refrigerator door, drives the relay 24 according to the opening of the door, and starts supplying power. When the supply of power from the AC power source 1 is started, power is supplied along the preheat closed circuit described above to preheat the filaments 7 and 8. When the preheating is completed, the flow of current to the starter 5 is interrupted instantaneously and a high voltage back electromotive force is generated in the ballast 3 so that the fluorescent lamp 10 is turned on. After the light is turned on, a closed circuit consisting of an AC power source (1), a ballast (3), a left filament (7), a right filament (8), and an alternating current power source (1) is formed to maintain the lighting state of the fluorescent lamp (10). Done. At this time, since the phototransistor 26 outputs a predetermined voltage, the microcomputer 20 determines that the lighting is normal and maintains the ON state of the relay 24. Then, when the door of the refrigerator is closed, the microcomputer 20 detects this. By turning off the relay 24, the power supply from the AC power supply 1 is cut off, and the fluorescent lamp 10 is turned off.

If the fluorescent lamp 10 is not turned on and the lighting is not turned on, the phototransistor 26 does not output a voltage, so the microcomputer 20 turns off the relay 24 and then turns it on again. On the other hand, the preheating closed circuit is configured again to perform preheating by the starter and then lighting operation by the lighting closing circuit. The process of turning off the relay 24 and turning it on again is repeated until it turns on.

As described above, according to the fluorescent lamp lighting control device and lighting control method as described above, when the lighting operation of the fluorescent lamp installed in the refrigerator is defective, the fluorescent lamp lighting control unit detects this and repeats the lighting operation of the fluorescent lamp. We can ensure lighting operation

Claims (6)

A fluorescent lamp lighting control device in a refrigerator for starting a supply of power as the refrigerator door is opened to preheat the fluorescent lamp for a predetermined time, and lighting the fluorescent lamp by back electromotive force from a ballast connected in series after the preheating. And a lighting control unit for controlling to repeat the lighting operation until it turns on when it is determined that the lamp is not lit as a result of detection by the lighting detection unit. According to claim 1, wherein the lighting detection unit, the transformer coil for converting the voltage applied to the coil of the ballast, the rectifier for rectifying the voltage waveform from the transformer coil, and whether the lighting according to the magnitude of the output voltage of the rectifier And a voltage level discriminating unit for discriminating. The fluorescent lamp of claim 2, wherein the lighting detector further comprises an LED that emits light by the output voltage from the rectifier and an optical transistor that outputs a voltage having a predetermined size according to the light emitted from the LED. Lighting control device. A method of controlling lighting of a fluorescent lamp in a refrigerator, comprising: starting supply of power to the fluorescent lamp as the refrigerator door is opened, preheating the fluorescent lamp for a predetermined time, and lighting the fluorescent lamp by back electromotive force from the ballast after preheating. Initiating a lighting operation; Detecting whether the fluorescent lamp is lit; And repeating the lighting operation until it turns on when it is determined that the lighting detection unit is not lit as a result of the detection of the lighting detection unit. The method of claim 4, wherein detecting whether the fluorescent lamp is turned on comprises: converting a voltage applied to a coil of the ballast, rectifying the converted voltage waveform, and determining a voltage magnitude of the rectified waveform. According to claim 1, wherein the fluorescent lamp lighting control method comprising the step of determining whether the lighting. 6. The method of claim 5, wherein the detecting of the lighting further comprises applying an output voltage from the rectifier to the LED to emit light, and determining whether the LED is turned on according to whether the LED is emitted. Fluorescent lamp lighting control method.