KR200248851Y1 - High voltage board - Google Patents

Abstract

The present invention relates to an air purifier used in daily life and a high voltage generator which is a key component used in an air conditioner. To protect. To this end, power is supplied to the safety part using a feedback voltage, and the capacitor is charged. At the same time, the transistor is used to operate the oscillation transistor in normal operation and to turn off the operation of the oscillation transistor in the event of an overload. By emitting the charged voltage to the capacitor and turning off the transistor only as long as it is released, it protects against the risk of electric shock and fire due to the repeated operation, and it can be judged by sound that the overload occurs because the noise is just made. Do it. The components are transistors, resistors, diodes, and capacitors, and work with fewer components. Even if continuous operation is made, it is possible to reuse and semi-permanently use without affecting high voltage and appearance at all.

Description

High voltage generator with built-in safety circuit

The present invention relates to a high voltage generator, and is a technology used in the dust collector and air purifier of an air conditioner that requires high voltage generation. It relates to a high voltage generator.

The prior art generates a dust collecting form by generating a high voltage by the RCC (24) method and is designed for the purpose of simply generating a high voltage, without considering the safety of the high voltage section. Thus, high voltage generator without safety circuit part does not operate by itself when + part and-part short occurs in case of overload factor such as dust or dust, so there is a high risk of fire and electric shock.

In order to solve the above problems, the present invention provides safety circuits to high voltage generators, so it can be safely used by instantaneous disconnection of the power with its own safety function from the risk of electric shock in case of fire or human contact, which may be caused by overload factors. There is a characteristic to being.

Figure 1 is a partial product diagram showing the form of the product to which the present invention is inserted

Figure 2 is a part drawing that the subject innovation is inserted

3 is a cross-sectional view of the smallest case in which the present invention is inserted

Figure 4 is a voltage flow diagram when the normal operation of the subject innovation

5 is a voltage flow diagram when the operation of the safety circuit portion of the present invention

<Description of the code | symbol about the principal part of drawing>

1: dust collector 2: high voltage generator

4: air purifier and air conditioner 5: collecting part

6: electrode 7, 22: ground (GND)

8: case 10: control unit

11 resistor 12 capacitor

14 diode 13, 19, 21 transistor

15: overload factor 16: feedback voltage

24: oscillation circuit part (RCC circuit) 25: safety circuit part

In order to achieve the above object, by using the feedback voltage unit in the high voltage generator, the driving principle of the transistor is incorporated to block the high voltage output and set the time to be blocked using the capacitor. Even if this is done repeatedly and continuous repetition is performed, the actual high voltage device can be used permanently without any abnormality.

Hereinafter, the accompanying drawings will be described.

1 is a product diagram that is applied to the air conditioner and the air purifier (4) in the field of the product to which the present invention belongs and the high voltage generator (2) is inserted into the bottom. It is attached to the back of the dust collector (1) and when the front grill is removed, you can see the high voltage generator.

FIG. 2 is a dust collector 1 inserted into the air purifier 4 and is stacked with an electrode part 6, a collecting part 5, and a ground part GND 7 therein. The high voltage generator 2 is inserted therein to exhibit dust collection performance, and when the overload factor 15 of the electrode part 6 and the ground part GND 7 occurs, the high voltage generator 2 operates as shown in FIG. 5. .

FIG. 3 is a cross-sectional view of the smallest case 8 of the high voltage generator 2 inserted in FIG. A case 8, in which the oscillation circuit section 24 and the safety circuit section 25 are mounted at the same time, is constituted of the smallest type of high voltage generator. The circuit of the safety circuit part 25 and the control part 10 shows the smallest drive part of 25 mm x 28.3 mm.

4 is a circuit diagram showing the arrangement of components and the flow of normal operation.

In the normal operation without the overload factor 15 of the high voltage generator (2) is applied 12v (17) is a current that can be transmitted to the transistor 19 through the transformer 18 and the resistor 20 is transmitted and the existing As in the circuit of the RCC 24 system, the oscillation circuit section 24 operates. At the same time, a feedback voltage 16 is generated, which is charged to the capacitor 12 through the diode 14. At this time, since the transistor 21 operates to prevent the transistor 13 from operating, the transistor 21 flows the driving base current of the transistor 13 to the ground portion GND 22. The high voltage generation operates normally by continuously generating a voltage condition that can be driven by (19).

5 is a circuit diagram for viewing the arrangement of the components and the operation of the safety circuit unit. When an overload occurs due to the overload factor 15 of the high voltage generator, the voltage flowing to the feedback voltage 16 is down and the strength of the overload is sensed by the resistor 11 to detect the voltage down. 21 stops by making the inoperable condition and the voltage of the capacitor 12 charged back discharges 23 so that the transistor 13 can operate on the base of the transistor 13. When the voltage is supplied and at the same time the transistor 13 is driven, the base current of the transistor 19 flows to the ground (GND) 22 to stop the transistor 19 from driving. The time at which the driving stops is determined by the capacity of the condenser 12.

As described above, the high voltage generator 2 of the present invention is applicable to all fields using high voltage, and is characterized by zeroing damage from safety accidents of fire and electric shock. In case of continuous discharge between + and-, the safety circuit operates to protect the circuit. It is the smallest high voltage generator and can be applied anywhere. Ongoing use can be used permanently without affecting circuits or components.

Claims (1)

In the high voltage generator, which is overloaded with external factors such as dust and dust, the high voltage generation feedback voltage unit is used to merge the transistor driving principle to cut off the high voltage output and set the blocking time using the capacitor High voltage generator, characterized in that the built-in safety circuit to block the risk of electric shock