KR20020080591A - Energy conversion apparatus using electro magnetic - Google Patents

Abstract

PURPOSE: An energy converting apparatus using an electromagnetic wave is provided to reduce the generation of electromagnetic wave and the energy consumption by converting the electromagnetic wave radiated from electronic products and high voltage lines into electric energy. CONSTITUTION: A voltage generating unit(10) generates an induced voltage when an electromagnetic wave is inputted from outside. Variable capacitors(C) vary the induced voltage inputted from the voltage generating unit(10) to satisfy resonance condition. A rectifying unit(20) converts an AC(Alternating Current) voltage inputted from the variable capacitors(C) into a DC(Direct Current) voltage to output it. A resupplying unit(30) maximizes power inputted from the rectifying unit(20) and an impedance matching.

Description

Energy conversion device using electromagnetic waves {ENERGY CONVERSION APPARATUS USING ELECTRO MAGNETIC}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an energy conversion device using electromagnetic waves, and more particularly, to an energy conversion device using electromagnetic waves that converts electromagnetic waves radiated from electronic products, high voltage lines, etc. into electrical energy and feeds them back. It is about.

Conventionally, a method of obtaining electrical energy includes a method (eg, a solar cell) in which absorbed solar energy is generated by generating electrons and holes in a semiconductor device (for example, a solar cell), and a power plant (hydropower, wind power, thermal power, and nuclear power). Has a method of generating the induced voltage of the coil by the change of the magnetic flux by the rotation of the permanent magnet to obtain the electrical energy.

However, in the case of the solar cell, the energy supply is infinite, but the device configuration of the array (array) pattern by the semiconductor process is complicated, the cost is increased, and in order to obtain electric energy from a power plant, a large capacity facility and a transmission facility are required. Therefore, there is a problem in that there is a limit in obtaining unlimited electric energy.

Therefore, the present invention was devised to solve the above problems of the prior art, and converts unnecessary electromagnetic waves into electrical energy that is harmful to the human body generated from electronic products, high voltage lines, etc. and causes malfunction of other products. By feeding back, it is an object of the present invention to provide a device for generating effects such as reducing the generation of harmful electromagnetic waves and energy saving of the product.

1 is a block diagram briefly showing the configuration of an energy conversion device using electromagnetic waves of the present invention.

Figure 2 is a schematic diagram showing an embodiment according to the present invention.

3 is a table showing measured values through a predetermined experiment according to FIG. 2.

4A and 4B are exemplary views showing AC voltage measurement data of a variable capacitor after installing a device at a height of 1 cm above the electron gun of the PC monitor (on) according to FIG. 2;

Figure 5a is an exemplary view showing the AC voltage measurement data of the variable capacitor after the installation of the instrument at a height of 1 cm above the electron gun of the PC monitor (on) according to FIG.

Figure 5b is an exemplary view showing the AC voltage measurement data of the variable capacitor after the installation of the instrument at a height of 1 cm above the electron gun of the PC monitor (off) according to Figure 2;

6A and 6B are exemplary views showing AC voltage measurement data of a variable capacitor after installation of a device at a height of 3 cm above the electron gun of the PC monitor (on) according to FIG. 2;

Figure 7a is an exemplary view showing the AC voltage measurement data of the variable capacitor after the installation of the instrument at a height of 3 cm above the electron gun of the PC monitor (on) according to FIG.

Figure 7b is an illustration showing the AC voltage measurement data of the variable capacitor after the installation of the instrument at a height of 3 cm above the electron gun of the PC monitor (off) according to FIG.

Explanation of symbols on the main parts of the drawings

10: voltage generating means 20: rectifying means

30: resupply means C, C1: variable capacitor

C2: Capacitors D1 to D4: Diode

The configuration of the energy conversion device using the electromagnetic wave of the present invention for achieving the above object comprises: a voltage generating means for generating an induced voltage (AC) when an electromagnetic wave is incident from the outside; A variable capacitor configured to satisfy a resonance condition by varying reactance of an induced voltage input from the voltage generating means; Rectifying means for converting and outputting an AC voltage input from the variable capacitor into a DC voltage; Characterized in that it comprises a re-supply means for re-supplied to the load to maximize the power input by the rectifying means and impedance matching.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram briefly showing a configuration of an energy conversion device using electromagnetic waves according to the present invention, and as shown therein, voltage generation means 10 for generating an induced voltage (AC) when an electromagnetic wave is incident from the outside; A variable capacitor (C) for varying reactance of an induced voltage input from the voltage generating means (10) to satisfy a resonance condition; Rectifying means (20) for converting and outputting an AC voltage input from the variable capacitor (C) into a DC voltage; The rectifying means 20 and the re-supply means 30 for re-supplying to the load with the maximum power input by impedance matching.

Referring to the operation of the embodiment according to the present invention configured as described above are as follows.

Figure 2 is a schematic diagram showing an embodiment according to the present invention, the variable capacitor (C1) as shown in the inductance (L) of the coil (such as solenoid or spider coil) under the power source of the induced voltage, The L, C, and R circuits are formed together with the internal resistance of the coil, the internal resistance of the rectifier circuit, and the impedance of the load stage, and the variable capacitor C1 is varied to match the resonance point of the L, R, and C circuits. At the resonance point, the circuit's current and the variable capacitor voltage are at their maximum, which in parallel affects the DC voltage of capacitor C2 after the 1.4V (two diode On) drop of the rectifier circuit.

That is, the current flowing in the circuit is divided into the variable capacitor (C1) line and the rectifier circuit line, and at this time, the reactance (1 / wC) of the variable capacitor (C1) within a range capable of reducing the current and increasing the voltage to the variable capacitor (C1) Increase

In addition, the AC current flowing through the rectifier circuit line is converted into a DC current by the rectifier circuit and the capacitor C2 and applied to the load end.

A resistor connected in parallel with the capacitor (C2) and connected in series with the LED (LED) as a load is used for impedance matching, and the change of this resistance affects the entire circuit including the load, In this case, the variable capacitor C1 and the coil L may satisfy the resonance condition and the maximum power transfer condition at the same time, thereby supplying a large power to the load.

As shown in FIG. 3, the voltage generating means (for example, the coil diameter of 0.4 mm, the number of turns 150 to 950, the solenoid inner diameter of 0.8) at a position 0.5 cm away from the electron gun while the PC monitor is turned on. Cm), and the LED (LED) and the resistance were put as a load, and the lighting of the diode was observed and the measured value was displayed.

4A to 7B are graphs showing results of another experiment of the present invention. As shown in FIG. 4A to FIG. 7B, an experiment for using AC power by connecting a variable capacitor and a load in parallel, as shown in FIG. After series connection with a variable capacitor (0.0217 와 ~ 0.0227㎌) (17mH, internal resistance 69㎌) (except rectification and load circuit), the capacitor voltage and current according to the monitor On / Off and the change of the capacitor Looking at the measured value, it can be seen that when the monitor is turned on, the capacitor value generates a maximum voltage (Vp-p) of 90V and a maximum current (AC) of 8.3㎌ at 0.022㎌.

Adding more rectification and load circuits reduces the maximum voltage and current, so that the maximum power transfer conditions (impedance matching) are adjusted near the resonance conditions of the entire circuit, including the load, to provide greater power to the load.

Although the invention has been particularly shown and described with reference to the preferred embodiments, those skilled in the art will appreciate that various modifications are possible without departing from the spirit and scope of the invention. Accordingly, the invention is limited only by the claims.

As described above, the energy conversion device using the electromagnetic wave of the present invention generates harmful electromagnetic waves emitted from electronic products and high-voltage lines as electrical energy, and then feeds them back to the load (own products, other products, etc.), thereby saving energy. In addition, there is an effect that can reduce the malfunction of the product through the reduction of electromagnetic waves.

Claims (3)

Voltage generating means for generating an induced voltage (AC) when electromagnetic waves are incident from the outside; A variable capacitor configured to satisfy a resonance condition by varying reactance of an induced voltage input from the voltage generating means; Rectifying means for converting and outputting an AC voltage input from the variable capacitor into a DC voltage; And a resupply means for resupplying to the load with the maximum power input by the rectifying means and the impedance matching. The energy conversion device using electromagnetic waves according to claim 1, wherein the voltage generating means generates an induced voltage according to a change in inductance and internal resistance of the coil by using a solenoid or a spider coil. The energy conversion device using electromagnetic waves according to claim 1, further comprising a load terminal configured in parallel with the variable capacitor to use AC power.