KR960009556B1 - A nascent state of sine wave - Google Patents

Abstract

a frequency circuit and a frequency setting circuit for determining a sine wave(6) form; frequency amplifiers(A1),(A2) for amplifying the sine wave; a ring or a cylindrical coil(2,3) for generating the sine wave by setting N, S with frequency rectifying circuits(D1),(D2) or by inserting a metal bar(4) coupled with a metal(5) having a low ionization energy and a metal(5') having a high ionization energy into the ring or the cylindrical coil; thereby simplifying the generator.

Description

Sine wave generator

1 is a schematic display of a conventional pulse wave generator.

2 is a schematic display diagram of the pulse wave generator of the present invention.

(a) is a device display of the ring coil

(b) is a device display of the columnar coil.

(c) is a state in which a metal rod bonded to a dissimilar metal having a different ionization tendency is inserted into a ring coil.

(d) is a state in which a metal rod bonded with a dissimilar metal having a different ionization tendency is inserted into a cylindrical coil.

3 is a circuit diagram of the present invention.

4 is a display of the operation panel of the present invention.

5 is a circuit block diagram of the present invention.

6 is a sine wave formation display.

* Description of the main parts of the drawing

1, 1 ': Power supply 2, 2': Ring type coil

3: cylindrical coil 4: metal rod

5: metal parts with low ionization tendency

5 ': metal part with low ionization tendency

6: sine wave 6 ': pulse wave

101: power plug 102: decimal time setting button

103: 60-decimal time setting button 104: Number progress direction setting button

105: time setting selection button 106: counter power reset button

107: time adjusting section 108, 109, 110: output mode

111: coil 112, 113: frequency

DOWN UP button 114: Frequency check section

115, 116: Power down button

117, 118: pulse DOWN UP button

119-1, 119-2, 119-3: coil output unit

120, 120-1, 120-2, 120-3: L.C.D A1, A2: Frequency Amplifier

D1, D2: Frequency stop F1, F2: Sine wave quenching device

C0, R0: Frequency circuit device C1, R1: Frequency value setting device

The present invention relates to a sine wave generator for use in sending electromagnetic waves for the purpose of generating magnetized water or promoting blood circulation.

Conventional magnetic waves and electromagnetic waves for the purpose of generating magnetized water or promoting blood circulation send pulse waves as shown in FIG. 1, which has a wavelength of 6-15 HZ, and the waveform thereof is Absorption of electromagnetic waves and magnetic waves generated by the irregular wave of the shape has a problem that adversely affects the health and treatment of the human body.

The present invention has been invented to solve the above problems, and the gist of the present invention is that the waveform of the sine wave frequency is determined by the values of the frequency circuit device (C0, R0) and the frequency setting device (C1, R1), In the circuit, the frequency is 1-100HZ and the B waveform (scan) is increased to the A waveform (scan) to set the N pole and the S pole with the frequency stop values (D1, D2), and then enter the coil in the range of 100 turns. If you want to widen the range of the sine wave when entering the coil and modulating it with a sine wave, connect the ring coil to the circuit and connect the circumferential coil to the circuit far away instead of narrowing the range of the sine wave. It was made possible.

This will be described in detail based on the drawings.

2 is a connection of the ring coil 2 to the power supply circuit 1, FIG. 2 is a connection of the columnar coil 3 to the power supply circuit 1, and FIG. The metal rods 4 are respectively inserted into the ring-shaped coil 2 or the column-shaped coil 3 connected to the power source 1, and one side of these metal rods 4 is a metal portion 5 having a low ionization tendency, and the other side is ionized. The metal portion 5 'has a high tendency.

3 is a detailed view of the circuit configuration of the present invention, wherein the OSC circuit starts OSC when the phase shift in the loop is an integer multiple of 0 ° or 360 °, and the loop gain is 1 or more, and the oscillation frequency is F0 = 1 / 2πC0, The value of CONDE CNSER, C0 should be set at R0, the reactance × C is selected in the range of 1KW-number 100KW, the resistance value is calculated at R0 = 1 / 2πF0, C0, and the frequency range of the waveform that is safe using FET is Selecting 1-20πZ, the frequency count makes it possible to count using binary LEDs because it is difficult to read low frequencies, read when the oscillated waveform comes in in 1 second, and 1 second timer The relay allows the use of permanent non-contact relays, the power source uses 110-220W positive voltage, and when the heat is generated at 45 ℃, the FAN operates to emit hot heat. Was turned off.

4 is a display of the operation panel of the present invention, 101 is a power plug, 102 is a decimal time setting button, 103 is a 60 time setting button, 104 is a number progress setting button, 105 is a time setting selection button 107 is the time adjustment section, 108, 109, 110 is the output mode, 111 is the coil in the range 100-300T, 112, 113 is the frequency down button, 114 is the frequency check section, 115, 116 is power down And up buttons, 117 and 118 are pulse down up buttons, 119-1, 119-2 and 119-3 are coil outputs, and 120-1, 120-2 and 120-3 are LCDs.

5 and 6 are block diagrams and sine wave formation diagrams of the present invention, and the frequency values are determined by the values of C0, R0, C1, and R1. In this circuit, 1-100HZ is required. In order to obtain the indicated sine wave, B is increased to A1 and A2, N and S poles are set to D1 and D2, and the magnetic force is released by entering the coil. The rotating hole (T) of the ring coil is 100 turns. .

Referring to the embodiment of the present invention according to Figure 4, the AC power cord is connected to the AC power input of the present invention and then the AC power plug 101 is plugged into an outlet.

In the frequency adjustment method, the frequency DOWN and UP buttons 112 and 113 are pressed to adjust the LED emission speeds of L, C, D. (12-1), (120-2), and (120-3). Adjust while viewing, then press the frequency check button 114 to check whether the desired frequency is correct.

If the desired frequency is not correct, repeat the above adjustment.

In the coil usage method, when two coils are used, the coil is pinned to the output units 119-1 and 119-2, and the buttons of the output modes (MODE) and (110) are turned on. Let's do it. At this time, when the coil output units 19-1 and 10-2 are 100T, the coil unit button 111 is turned ON, and when the coil output unit 19-1 or 10-2 is 300T, the coil unit button 111 is turned OFF.

When only one coil is used, the coil is plugged into the coil output unit 119-3, and then the coil unit button 111 is turned on.

At this time, all the buttons 108, 109, and 110 of the mode are turned off.

In this case, press the frequency down buttons (POWER VOL), (115) and (116) to adjust the output required on the numeric display panel of the LCD (20-3), and insert the ring-shaped coil (2) into the power supply circuit (1). .

At this time, the PULS VOL places the L.E.D lock on the center of the ring coil, and then pushes the PULS DOWN, UP buttons 117 and 118 to the left or right to place the L.E.D light at a constant light to obtain the most stable sine wave.

In the time setting method, the timer is turned on by pressing the time setting selection button 105, and the desired time is set by using the RESER button 106. In this case, the decimal button 102 is turned on. At the same time, the 60 base button 103 is also turned on.

In addition, the decimal time setting button 102 is turned off and the 60-degree time setting button 103 is turned on.

For example, in the case of 60 minutes, the decimal time setting button 102 is turned off in the case of the 60 decimal system, the 60 decimal time setting button 103 is turned on, and the number of the time adjustment unit 107 is set to 300 and the counter power RESER button is pressed. Press 106 to start the timer.

In the case of the decimal system, the decimal time setting button 102 and the 60 decimal time setting button 103 are turned on, and the timer is operated by pressing the counter power reset button 106 with the time adjusting unit 107 set to 1,000.

In addition, the precautions for using the timer can be changed even during use, so it can be set to a long time at a time to be inactive or a short time can be set to operate quickly. OFF state.

In the case of the power supply, the power supply opening time is 0.5 seconds.

In the constituent circuit 1, in order to modulate the magnetic wave from the ring-shaped coil 2 into a sine wave, a current must be sent with a high current. Therefore, the OSC circuit has a phase shift of 0 ° or 360 ° and an integer multiple of the loop gain of 1 or more. The oscillation frequency can be set by F0 = 1 / 2π condenser C0, R0, and the CONDE NSER R0, C0 value is selected in the range of 1KW-100KW of reactance XC, and R0 = 1 / 2πF0, A stable waveform can be obtained by calculating the resistance value at C0, the frequency range is set to 1-20HZ, and the frequency counter is difficult to read low frequency. When the oscillated waveform comes in at 1 second, it can be read. The 1 second relay is safe because it uses a permanent contact relay.

In addition, the power supply uses 110-220V positive voltage, but when heat is generated, the temperature becomes 45 ℃, and the FAN operates to extract hot heat, and when the temperature exceeds 75 ℃, the operation is turned off.

According to the purpose of use, in the coil connected to the circuit lead, the magnetic coil spreads widely when the ring coil 2 is used, and the width is narrow and long when the cylindrical coil 3 is used, and a relatively strong sine wave When you want to get a metal bar (4) was plugged in, there was a significant difference.

As described above, in the present invention, the waveform of the sine wave in changing the pulse wave harmful to the human body into a sine wave harmless to the human body in promoting the generation of magnetized water or the blood circulation of the human body is a frequency circuit device (C0), (R0) and the frequency value. Determined by the setting devices C1 and R1, the transmitted waveform is amplified by the frequency amplifiers A1 and A2 to set the N pole and the S pole as the frequency stops D1 and D2. Then, a sine wave is obtained as a ring coil 2 or a columnar coil 3, or a metal rod coupled to the heavy metals 5 and 5 'having different ionization tendencies in the coils 2 and 3. 4) by inserting the sine wave (6) can be obtained because the structure is not only simple and convenient to use, but also can greatly contribute to the promotion of national health is a very useful invention.

Claims (3)

The waveform of the sine wave 6 is determined by the frequency circuit devices C0, R0 and the frequency value setting devices C1, R1, and the determined waveform is applied to the frequency amplifiers A1, B2. After the amplification is performed to set the N pole and the S pole as the frequency stops D1 and D2, a sine wave 6 is obtained as the ring coil 2 or the columnar coil 3, or the ring and cone shapes are obtained. A sine wave to obtain a sine wave 6 by inserting a metal rod 4 coupled to a metal part 5 having a low ionization tendency and a metal part 5 'having a high ionization tendency in the coils 2 and 3. generator. A sine wave generator according to claim 1, wherein in the coil generating sine waves, only a ring-shaped coil (2) is provided without a metal rod (4) inserted into a lead wire drawn from the power supply circuit (1). A sine wave generator in which a coil for generating a sine wave is provided by only a cylindrical coil (3) without a metal rod (4) inserted into a lead wire drawn from a power supply circuit (1).