KR200318815Y1 - Improved generator - Google Patents

Abstract

The present invention relates to a device for further boosting a predetermined power source and storing it in a battery through an oscillating circuit and a space electric induction device. An oscillating circuit generating an attenuation wave of a constant waveform by oscillating the output power, and outputting from the oscillating circuit. An improved generator comprising a charging circuit for charging the + side of the waveform and a negative side power supply from the antenna, and a battery storing the power supplied from the charging circuit.

Description

Improved generator

The present invention relates to a device for further boosting a predetermined power source and storing it in a battery through an oscillation circuit and a space electric induction device.

The electric boost of the present invention is applied to the electric induction, namely the electrostatic precipitating technology, the general electrostatic precipitator is a corona discharge is generated on the discharge electrode using a wire applied a negative high voltage to ionize the process gas to charge the dust When the electric field is formed, the charged dust is collected on a dust collecting plate in the form of a cylinder or plate to which a positive high voltage is applied to remove the dust particles.

In this case, traditionally, the voltage applied between the discharge electrode and the dust collecting plate is applied with a high voltage DC voltage generated by a high voltage pulse transformer and a rectifier, but the DC voltage has a disadvantage in that dust collection efficiency is reduced for dust having a large resistivity.

Therefore, by varying the pulse frequency by using a pulse application method that maintains the DC voltage below the corona starting voltage and superimposes the high voltage pulse with a short width, the current distribution in the dust collector of the electrostatic precipitator becomes uniform. The dust collection efficiency for dust with a large specific resistance is increased compared with the said direct current application system, such as the dust charging degree becomes strong.

However, the present invention will induce electrostatic precipitating, ie, space electricity, as a simple circuit with an antenna instead of the wire.

That is, the present invention aims to solve the above problems and to provide a better and improved generator.

The present invention also provides an oscillation circuit for oscillating the output power to generate an attenuation wave of a constant waveform, a charging circuit for charging the + side of the waveform output from the oscillation circuit and the negative side power from the antenna, and the charging circuit. To provide an improved generator consisting of a battery for storing the power supplied from the.

1 is a block diagram of an improved generator of the present invention,

2 is a detailed circuit diagram of an improved generator of the present invention.

* Description of the symbols for the main parts of the drawings *

10: power supply 20: oscillation circuit

35: antenna 40: battery 50: load

1 is a block diagram of the improved generator 100 of the present invention, when the power supply 10 is initially supplied to the oscillation circuit 20, the power is oscillated in the oscillation circuit to generate a decay wave of a constant waveform, This is transmitted to the space electric induction device 30. Then, the space electric induction device 30 charges the negative-side power supply from the antenna 35 and the positive-side power supply from the oscillation circuit and sends it to the battery 40. The load 50 then uses the power supplied from the battery 40. During this process, the initially supplied power is boosted and delivered to the load.

Referring to FIG. 2, the oscillation circuit 20 is a symmetric combination of a capacitor C, a resistor, and a transistor connected in series with an inductor L, as shown in the drawing.

The waveform output from such an oscillator circuit is an attenuation waveform and the waveform gradually attenuates with time. The attenuation wave 70 is output from the oscillation circuit 20 and input to the other end of the opposite side, and the power of the input waveform is stabilized in the stabilization circuit 60 and one side (+), that is, the + part of the attenuation wave is It is input to the diode of the charging circuit 30 along the lead 25.

In addition, the negative side of the power is collected and input through the antenna 35 and merged with the positive side. The combined power is charged to the capacitor in the charging circuit 30 via a diode and the former source is supplied to the battery BAT. 40 (battery), which can be connected or disconnected by turning on / off the switch (SSS) 33. The diode prevents current flow in the reverse direction and stably passes the current. Power from the battery can be transferred to and used by the load side. Wherein the switch is a solid state switch.

An important technical gist of the present invention lies in the stabilization circuit 60, the conducting wire 25 and the charging circuit 30. That is, the stabilization circuit stabilizes the power of the waveform output from the oscillation circuit. It consists of a combined diode and capacitor. In addition, the waveform of + output through the stabilization circuit is input to the charging circuit 30 along the lead 25 and the -side power source is derived from the antenna 35 side is the same as described above.

The negative side (ie, the lower end of the waveform) of the attenuation wave 70 output here is fed back from the charging circuit 30 and disappears along the lead 25. The generator 100 circuit may be dually operated by connecting a space electric induction part and a load (including a battery) part to the other end of the power source.

As described above, the present invention can obtain a boosted power compared to the input power by using an oscillation circuit, an antenna and a simple charging circuit, so that it can be applied to self-power generation or other small power source in an area with insufficient power. It can produce useful results.

Claims (4)

An oscillation circuit 20 for oscillating the output power to generate an attenuated wave of a constant waveform, a charging circuit 30 for charging the + side of the waveform output from the oscillation circuit and the negative side power from the antenna, and the charging An improved generator, consisting of a battery that stores power supplied from a circuit. 2. The improved generator as set forth in claim 1, further comprising a stabilization circuit, comprising a diode and a capacitor, which stabilizes the waveform of the output power. 2. The improved generator as set forth in claim 1, wherein said charging circuit charges + and-power in a capacitor. 2. The improved generator as set forth in claim 1, wherein the negative side of said attenuation wave is fed back from a charging circuit and dissipated through said lead.