KR200151333Y1 - Airconditioner - Google Patents

Abstract

The present invention relates to an air conditioner, comprising: a rectifier circuit for converting alternating current into direct current, and an air conditioner having an anion generator for generating anions by receiving current from the rectifier circuit, wherein the output terminal of the rectifier circuit and the It is provided between the input terminal of the negative ion generating device includes a noise blocking unit for blocking the noise conducted from the negative ion generating device to the rectifier circuit. As a result, an air conditioner capable of preventing malfunction and component destruction by blocking noise conducted from the anion generator is provided.

Description

Air conditioner

The present invention relates to an air conditioner, and more particularly, to an air conditioner capable of blocking noise conducted from an anion generator.

An air conditioner is usually called an air conditioner and a device that artificially maintains the temperature, humidity, airflow, and cleanliness of indoor air in a state most suitable for a human body or an article. The air conditioner generates negative ions and blows them to the outside. There is a model equipped with an anion generator.

3 is a circuit diagram around an anion generator in a conventional air conditioner. The circuit diagram is composed of a power transformer 111, a bridge diode 112, a capacitor 113, 114, a constant voltage IC 115, a connector 128, and an anion generator 126. The circuit of the part which outputs DC 12V in the inside is shown.

In this configuration, the supply voltage AC 220V is lowered to a voltage level suitable for rectification while passing through the power supply 111, and rectified to DC 12V while passing through the bridge diode 112, the capacitors 113 and 114, and the constant voltage IC 115. Is output. The output DC 12V is applied to the negative ion generating device 126 and is boosted to a high voltage while passing through a transformer or the like in the negative ion generating device 126, and this high voltage is used to generate negative ions.

However, since the negative ion generator 126 uses a high voltage to generate negative ions, a surge voltage may be generated due to moisture. However, in the conventional air conditioner, since there is no means for blocking the surge voltage, the surge voltage generated from the negative ion generator 126 and conducted as a noise acts as a noise, causing malfunctions in various control devices, or severe diesel. There is a problem that it may cause destruction.

Accordingly, an object of the present invention is to provide an air conditioner capable of blocking noise generated from an anion generating device in an air conditioner having an anion generating device.

1 is a partial block diagram of an air conditioner according to the present disclosure.

2 is a circuit diagram of the main surface of the negative ion generating device of the air conditioner according to the present invention

3 is a circuit diagram around an anion generator of a conventional air conditioner.

* Explanation of symbols for main parts of the drawings

1: motherboard 2: power outlet

10: rectifier circuit 20: microcomputer

22,24: Various function control unit 26: Connector A

28: connector B 30: DSA

The above object is, according to the present invention, in the air conditioner having a rectifier circuit for converting alternating current into direct current, and an anion generating device for generating anion by receiving a vault current to the rectifier circuit, the output terminal of the rectifier circuit It is achieved by an air conditioner, characterized in that it is provided between the input terminal of the negative ion generating device and comprises a noise blocking unit for blocking the noise conducted from the negative ion generating device to the rectifier circuit.

The noise blocking unit can be configured by DSA.

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

1 is a partial block diagram of an air conditioner according to the present Goane. In the block diagram, the rectifier circuit 10, the microcomputer 20, the various function control units 22 and 24, and the connectors A and B 26 and 28 are provided on the main board 1.

Here, the rectifier circuit 10 rectifies the power voltage AC 220V input through the external power outlet 2 to DC 12V and DC 5V, DC 5V is supplied to the connector A (26), DC 12V is the connector B Supply to (28). The respective DC voltages supplied from the rectifier circuit 10 to the connectors A and B 26 and 28 are provided as driving voltages to the microcomputer 20 and the various function control units 22 and 24, and the microcomputer 20 and various functions. The controllers 23 and 24 control the operation of the various devices in the air conditioner. The DC 12V output from the rectifier circuit 10 is also provided to the negative ion generating device that generates negative ions.

2 is a peripheral circuit diagram of the negative ion generating device. The dotted line in the circuit diagram represents a circuit for outputting DC 12V from the rectifier circuit 10, and the entire circuit is a power supply transformer 11, a bridge diode 12, a capacitor 13, 14, a constant voltage IC 15 DSA (Dia Surge Absorber) between the DC 12V output terminal of the rectifier circuit 10 and the input terminal of the negative ion generator 26 and the input terminal of the rectifier circuit 10 to which the power voltage AC 220V is applied. 20 is connected.

In such a configuration, the power supply voltage AC 220V is input to the power supply transformer 911 in the rectifier circuit 10 through an external power outlet 2, and the power supply transformer 11 has an appropriate voltage size for rectifying it by electromagnetic induction. Print it down. The voltage output from the power transformer 11 is rectified to DC 5V and DC 12V while passing through the bridge diode 12, the capacitors 13 and 14, and the constant voltage IC 15 in which the diode is bridged. In this case, DC 12V is provided to the negative ion generating device 20 and the various function control unit 24 using the DC 12V and used as a driving voltage.

The anion generator 26 receives the DC 12V output from the rectifier circuit 10 through the connector B 28, boosts it to a high voltage (about 3KV) using a transformer, etc., and then increases the high voltage. The negative ions are applied to the negative ions generating tip, and the negative ions are blown out of the air conditioner using the blower.

However, in the negative ion generating device 20, since a high voltage is used to generate negative ions, a surge voltage may be generated due to moisture or other causes, and the surge voltage conducts to the rectifier circuit 10 or elsewhere with an abnormal voltage having high impact. This can cause noise, which can cause malfunctions or, in severe cases, destroy components within the device.

Accordingly, a DSA 30 is provided between the DC 12V output terminal and the input terminal of the rectifier circuit 10, and the DSA 30 absorbs the surge voltage generated from the negative ion generating device 26 to the rectifier circuit 10. Protect other circuits.

The DSA 30 is a device used to absorb surge voltage, and its operation principle is similar to that of a surge absorber that uses a condenser in combination with an arrester to absorb the instantaneous voltage wave generated by lightning. Do. That is, the DSA 30 is a device in which two electrodes connected to a conductive wire are disposed in a sealed glass tube filled with gas, and a special film having a minute gap is installed between the two electrodes, and serves as a capacitor in a surge absorber. Do it. The DSA 30 is mainly used to absorb a surge voltage by being used in a communication system or a power supply circuit and the like, and a resistor or a varistor may be connected in series for protection from overvoltage.

By using the DSA 30 as described above, it is possible to cut off the surge voltage, thereby preventing the noise due to the surge voltage, and the noise blocking means may generate the surge voltage in addition to the anion generator 26. Application is possible where possible.

As described above, according to the present invention, there is provided an air conditioner capable of blocking the noise conducted from the negative ion generating device to prevent a malfunction and to prevent the destruction of the component.

Claims (2)

An air conditioner having a rectifier circuit for converting alternating current into a direct current and an anion generator for generating anions by receiving current from the rectifier circuit, the air conditioner being disposed between the output terminal of the rectifier circuit and the input terminal of the anion generator. And a noise blocking unit for blocking noise conducted from the negative ion generating device to the rectifier circuit. The air conditioner of claim 1, wherein the noise blocking unit is a DSA.