KR920003345Y1 - Apparatus for generating high voltage - Google Patents

Abstract

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Description

High voltage generator

1 is a conventional high voltage generation circuit diagram.

2 is a high voltage generation circuit diagram of the present invention.

3 is an output waveform diagram of each part of the present invention.

* Explanation of symbols for main parts of the drawings

T: transformer D ₁ -D ₃ : diode

C ₁ -C ₃ : condenser N ₁ -N ₄ : winding

The present invention relates to a high voltage generator, and in detail, in a high voltage generator of an air cleaner that absorbs contaminated air and converts it into clean and comfortable air, the primary side and the secondary side have the same number of turns (Turn number). A device for obtaining high voltages HV ₁ and HV ₂ . Air Cleaner is a device that absorbs polluted air in the room, for example, various dusts, dust, cigarette smoke, and odors, and makes clean and comfortable indoor air.

Such a device uses an electric dust collection method. For this electric dust collection, a high voltage of about 3-7 KV is applied to a fiber layer filter formed of a dielectric material to generate dielectric polarization and adsorb various contaminated air. Various ion generators make indoor air clean and comfortable.

In the air purifier, the functional role of the high voltage generator is to rectify the accumulated power to secure the rectified power connected to the primary winding of the boost transformer, and back pressure the high voltage to be induced in the secondary winding of the boost transformer. The change of voltage causes a change in the voltage generated by the supply rectifier circuit, but by stabilizing and correcting it, it stabilizes the high pressure output from the back pressure circuit and supplies the stabilized high pressure to the ion generator of the electrostatic precipitator (not shown). Perform.

As described above, the high voltage generator has conventionally formed two back pressure circuits separately on the secondary side of the boost voltage transformer for high voltage generation to obtain high voltage HV ₁ and HV ₂ as shown in FIG.

Here, the high voltage HV ₁ is a high voltage supplied to the electrostatic precipitator, and the high pressure HV ₂ is a high voltage supplied to the ion generator.

Therefore, the high voltage HV ₁ generator on the secondary side obtains a high voltage of 3 KV as in the high voltage HV ₁ waveform and supplies it to the electrostatic precipitator, and the high pressure HV ₂ generator on the secondary side provides 7 KV in the same manner as the high voltage HV ₂ waveform. It obtains high voltage and supplies it to ion generator.

As such, in the related art, the high-pressure HV ₁ and HV ₂ are wound separately to increase the number of windings N ₂ and N _3, thereby increasing the size of the high-pressure device and increasing the labor and manufacturing time in manufacturing, thus increasing the cost of the product. .

The subject innovation is that made in view of solving the conventional closed end above, the object of the present invention is to a single winding to the secondary winding for high voltage HV ₁ and HV ₂ caused by N _2, to obtain a high voltage with a small winding In addition, the present invention provides a high pressure generator capable of minimizing the value of the high voltage component (AC component) included in the high voltage output voltage.

The technical means for realizing the object of the present invention described above is to make the windings for the high voltage HV ₁ and the HV ₂ into one winding N ₂ on the secondary side of the high-voltage generating transformer, and to double the high voltage induced in the N ₂ windings. When recharging the charge and discharge voltage obtained in the high voltage HV ₁ is characterized in that it is configured to reduce the high pressure ripple component again. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram of the high-pressure generator of the present invention, the input power source (B ⁺ ) is connected to the primary side winding (N ₁ ) of the high-voltage generating transformer (T), rectified on one side of the secondary side winding (N ₂ ) The high pressure HV ₂ output terminal supplied to the ion generator through the diode D ₁ is connected, and the high pressure HV ₂ output terminal supplied to the electrostatic precipitator is connected to the other side of the secondary winding N ₂ . The other side of the winding (N ₂ ) is a rectifying diode (D ₃ ) and the high-voltage ripple component removal capacitor (C ₃ ) is configured.

One side of the winding (N ₂ ) is connected to the reverse current prevention diode (D ₂ ) is grounded, the high-voltage HV ₂ output terminal is grounded through the charge and discharge capacitor (C ₁ ), (C ₂ ).

Hereinafter, the effects thereof will be described with reference to FIG. 3.

When the voltage B ⁺ is applied to the primary winding N ₁ of the high-voltage generating transformer T, the waveform 2 of FIG. 3 is applied to the secondary winding N ₂ by the applied voltage B ⁺ . The same high voltage 4.5KVpp is induced.

Then, the high voltage induced on one side of the winding N ₂ is rectified through the diode D ₁ , and the high voltage ripple component is removed by the capacitor C ₁ to obtain a high voltage HV ₂ waveform 3 of ₇ KV. wherein the high voltage ripple component induced to the other side of the winding (N ₂₎ is first removed away by a capacitor (C _2), and the financial flow by a diode (D _3), the high voltage ripple component by a capacitor (C ₃₎ It is removed and the high voltage HV ₁ waveform 1 of ₃ KV is obtained.

The high pressure HV ₁ thus obtained is an electrostatic precipitator, not shown, and HV ₂ is supplied to the ion generator, respectively.

As described above, the present invention generates one high-voltage HV ₁ and HV ₂ with one winding on the secondary side of the high-pressure generating transformer, thereby reducing the number of parts of the back pressure circuit, thus minimizing the apparatus such as the high-pressure bobbin and the low-pressure bobbin. By making a small product, it has a great effect on cost reduction such as labor and price.

Claims (1)

In the high pressure generator of the air purifier, the windings for the high-pressure HV ₁ and HV ₂ as one winding N ₂ on the secondary side of the high-pressure generating transformer, and the high voltage HV ₁ when the high voltage induced in the winding N ₂ is doubled. A high voltage generating device, characterized in that the reflow obtained from, and configured to reduce the ripple component of the recomposed high pressure.