KR101616231B1 - High voltage generation apparatus for generating an ion - Google Patents

Abstract

The present invention relates to a high-voltage generation apparatus of an ion generator. The purpose of the present invention is to generate an oscillation frequency through a microcontroller so as to supply a high voltage to an ion generator, and to output a high voltage as an electrode by boosting the voltage with a transformer, after generating a surged high voltage through an inductor. The present invention relates to a high-voltage generation apparatus of an ion generator capable of generating ions by neutralizing positive ions in the air by the high voltage supplied to the electrode exposed to the air. The high-voltage generation apparatus comprises: a microcontroller for generating an oscillation frequency having a constant period by using the supplied direct current power; a pulse generation unit for generating the pulse of the high voltage by using the oscillation frequency outputted from the microcontroller; a transformer for boosting the voltage of the pulse outputted from the pulse generation unit to the predetermined voltage; and an ion generation unit for generating ions through the electrode by using the boosted voltage from the transformer.

Description

HIGH VOLTAGE GENERATION APPARATUS FOR GENERATING AN ION BACKGROUND OF THE INVENTION [0001]

The present invention relates to a high voltage generator for an ion generator, and more particularly, to an ion generator for generating an instantaneous high voltage by using an inductor to increase the oscillation frequency generated from a microcontroller to supply a high voltage to the ion generator, And a high voltage generating device.

Generally, the ion generator is configured to generate anions locally by a corona discharge or a plasma discharge by supplying a high pressure through an anion generating needle which generates an anion.

However, such an anion generator generates local anions when it is used for a long time, and harmful substances such as ozone and nitrogen oxides are generated, thereby causing a headache and rancidity as well as a smell, and the chest becomes frustrated, have.

In order to solve such a problem, conventionally, nano silver ions are generated together with anions, thereby causing contaminated indoor air to be replaced with cleaner, fresh and fresh air while not adversely affecting various electronic products. In addition, The present invention provides an anion and a silver ion generator for alternating current which can maintain a pleasant indoor fresh environment at all times by antimicrobial and sterilizing action of bacteria and can promote the metabolism of the human body by greatly improving the cleanliness of the room air .

1 is a block diagram of an AC negative ion generator according to the related art,

An AC power supply unit 1 having a power plug J1 and supplying an AC voltage necessary for operation of the apparatus and a DC power supply unit 1 including resistors R1 and R2 and diodes D1 and D2 and a capacitor C1, An oscillation unit 2 for generating an output pulse of a predetermined frequency by oscillating when a voltage is supplied from the power supply unit 1; resistors R3 and R4 and a silicon control rectifier (SCR) And a high voltage transformer (T1) for boosting an AC voltage of a predetermined frequency outputted through the switching unit (3) to an AC voltage of a high voltage necessary for generation of anion, the switching unit (3) And a high voltage supplied from the boosting unit 4 to the discharge electrode 61 provided in the negative ion generator 6, In the form in which the ions are applied, Anions in the fiber 62, and has a silver ion is an output section 5 such that release.

The conventional anion generator according to the related art can simultaneously generate anions and nano-silver ions through the metal fibers of the anion generator, and can prevent the outflow voltage from adversely affecting various electronic products, It has the effect of turning it into a fresher, fresher air.

However, in the conventional AC negative ion generator, it is necessary to have an oscillation unit for oscillating the AC power before the boosting, so that it can oscillate at a high voltage. Since the oscillation unit is driven by the AC power supply, And there is a limit in increasing the voltage.

Domestic Patent Registration No. 10-0518387 (Notification Date: Sep. 30, 2005)

SUMMARY OF THE INVENTION The present invention has been made in order to solve the problems of the prior art described above, and it is an object of the present invention to provide a high voltage generator of an ion generator which generates an oscillation frequency through a microcontroller to supply a high voltage to an ion generator, generates an instant high voltage through an inductor, The purpose is to provide.

An apparatus for generating a high voltage of an ion generator for achieving the object of the present invention is a high voltage generator of an ion generator for neutralizing positive ions in air by a high voltage supplied to an electrode exposed in air to generate ions, A microphone controller for generating an oscillation frequency having a predetermined period by using the oscillation frequency; A pulse generator for generating a high voltage pulse using the oscillation frequency output from the microcontroller; A transformer for boosting the pulse output from the pulse generator to a predetermined voltage; And an ion generator for generating ions through the electrodes using the voltage boosted by the transformer.

The microcontroller further includes a pulse generation controller for transferring the oscillation frequency output from the microcontroller to the pulse generator in addition to the microcontroller and the pulse generator.

Wherein the pulse generator comprises: an inductor for generating a high-voltage peak signal according to a control signal of the pulse generation controller; A capacitor for charging / discharging a high-voltage peak signal generated through the inductor; And a thyristor for outputting a charging / discharging signal of the coffee sheater to a transformer only when the charging / discharging signal of the coffee sheater is higher than a predetermined voltage, wherein a DC voltage (VCC) and a control signal of a pulse generation control unit are applied to both ends of the inductor.

Since the high-voltage generator of the ion generator according to the present invention does not need to add a separate oscillator circuit since it outputs the oscillation frequency in the microcontroller already provided, it is possible to reduce the number of parts, There is an effect to reduce consumption.

In addition, since the high voltage pulse is generated using the inductor, the power consumption and the high voltage pulse can be generated only by the low DC voltage.

1 is a circuit diagram of an AC negative ion generator according to the related art,
2 is a circuit diagram of a high voltage generator of the ion generator according to an embodiment of the present invention,
3 is a waveform diagram at a main point in Fig.

The high voltage generator of the ion generator according to the embodiment of the present invention will be described in detail with reference to the accompanying drawings.

2 is a circuit diagram of a high voltage generator of an ion generator according to an embodiment of the present invention. As shown in FIG. 2, a microcontroller (MCU) 100 for generating an oscillation frequency having a predetermined period using a supplied DC power A pulse generation control unit 110 for transmitting the oscillation frequency output from the microcontroller 100 and a pulse generation unit 110 for generating a high voltage pulse using the oscillation frequency transmitted through the pulse generation control unit 110, A pulse generator 130 for generating a pulse having a predetermined voltage and a pulse generator 130 for boosting the pulse output from the pulse generator 120 to a predetermined voltage, 140).

The pulse generating unit 120 generates an inductor L2 for generating a high voltage peak signal according to a control signal of the pulse generating control unit 110 and an inductor L2 for generating the DC voltage VCC through the inductor L2. And a thyristor D18 for outputting the charge / discharge signal of the capacitor C1 to the transformer 130 only when the charge / discharge signal of the capacitor C1 is equal to or higher than a predetermined voltage. The inductor L2, The DC voltage VCC and the control signal of the pulse generation control unit 110 are applied to both ends.

The detailed operation of the present invention will now be described in detail with reference to FIGS. 2 and 3. FIG.

First, an oscillation frequency is generated by using a microcontroller 100 for controlling each part of the ion generator, and the generated oscillation frequency is applied to an inductor to generate a high-voltage pulse frequency through an inductor. The high- And discharges the ions through the ion generating electrode PIN.

FIG. 2 is a circuit diagram of a high voltage generator of an ion generator according to an embodiment of the present invention. When the microcontroller 100 is driven at 3.3 V or 5 V (Vcc) and generates an oscillation frequency having a predetermined period, The pulse controller 110 transmits the oscillation frequency to the pulse generator 120.

That is, the oscillation frequency of the microcontroller 100 drives the transistor Q4 of the pulse controller 110 and the inductor L2 of the pulse generator 120 is driven by the transistor Q4 .

That is, when the collector terminal of the transistor Q4 is connected to the inductor L2 and is turned on / off by the oscillation frequency of the microcontroller 100 applied to the base end, the inductor L2 is turned on A high voltage pulse is generated by the DC voltage (VCC).

That is, a pulse wave having a peak voltage of a high voltage as shown in waveform (A) of FIG. 3 is generated. The pulse wave generated through the inductor L2 passes through the diode D17 and is charged and discharged in the capacitor C1 to generate a pulse signal having a constant voltage as shown in FIG. 3 (B).

The pulse signal output from the charge and discharge of the capacitor C1 generates a peak waveform as shown in (C) of FIG. 3 only when the pulse signal is higher than a predetermined voltage set through the thyristor D18.

The output signal of the thyristor D18 generates a signal that is boosted from the secondary side to a high voltage through the transformer 130 and applies the signal to the ion generator 140. [

The ion generator 140 receives the secondary output signal of the transformer 130 and applies the generated output signal to the built-in electrode PIN so that the ion generator 140 combines with oxygen in the air to generate ions.

As described above, the high-voltage generator of the ion generator according to the present invention has been described with reference to the limited embodiments and drawings, but the present invention is not limited thereto and can be applied to a person having ordinary skill in the art It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

100: Microcontroller 110: Pulse generation control unit
120: Pulse generator 130: Transformer
140: ion generator

Claims (4)

A high voltage generator for an ion generator for generating ions by neutralizing positive ions in air by a high voltage supplied to an electrode exposed in air,
A microcontroller for generating an oscillation frequency having a predetermined period using the supplied DC power;
A pulse generator for generating a high voltage pulse using the oscillation frequency output from the microcontroller;
A transformer for boosting the pulse output from the pulse generator to a predetermined voltage;
An ion generating unit for generating ions through electrodes by using a voltage boosted from the transformer; And
And a pulse generation control unit coupled between the microcontroller and the pulse generation unit and transmitting the oscillation frequency output from the microcontroller to the pulse generation unit,
The pulse generator includes an inductor for generating a high voltage peak signal according to a control signal of the pulse generation controller, a capacitor for charging / discharging a high voltage peak signal generated through the inductor, And a thyristor for outputting the discharge signal to the transformer only when the discharge signal is a constant voltage,
Wherein a DC voltage (VCC) and a control signal of a pulse generation control unit are applied to both ends of the inductor. The method according to claim 1,
Wherein the microcontroller generates an oscillating frequency by using a driving power source direct current power of 5V or 3.3V. delete delete

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