KR0132644B1 - Loop coil winding method - Google Patents

Abstract

The present invention is a method of winding a loop coil (coil) on the common wheel of the solid state wheel (D) and the annular wheel (R).

A loop coil is wound around the DR common ship's wheel, and the basic power conversion method, basic electronic modulation method, or compensation method of electricity is operated in a resonant state in the loop coil, and at any stage, It is possible to obtain a multi-phase, resistive transformer, motor, and generator that can adjust the rotation speed extensively by the magnetic field of each phase.In addition to the single-phase modulation method, the communication modulation method is a large output transmitter with a large output three-phase modulator. In addition, it is possible to produce a wide range of airwaves with a good waveform and a new radio broadcast using a high-gain, high-resistance aerial of broadband. Will be.

Description

A method of winding a loop coil in the lubrication wheel of the solid wheel (D) and the annular wheel (R)

1 is a two-pole resistive transformer in which a loop coil is formed on DR common ship wheels of upper and lower cylindrical iron cores to remove reactance in a DR circuit.

In FIG. 2, A is a vector diagram when no loop coil is wound around the DR common ship wheel. The solid line is a vector of the D circuit, and the dotted line is a vector of the R circuit. B is a vector diagram when a loop coil is wound on a DR common ship wheel.

3 is a two-pole resistive transformer in which a loop coil is formed on a DR common line that forms slots at upper and lower points of upper and lower cylindrical iron cores, (A) is a side view, and (B) is a plan view. .

4 is configured with 9 slots in the upper and lower cylindrical iron cores to adjust the nine transformers that form the front wheel of the DR common circuit by three types, so that three-phase power can be obtained from a single phase in which a three-loop coil is formed. Diagram of resistive three-pole three-phase transformer.

FIG. 5 is a connection diagram of a three-phase phase shifter showing a connection of a six-pole three-phase phase shifter composed of three loop coils of FIG. 4.

6 is a block diagram of a six-pole three-phase modulator using a three-phase transformer.

7 is a view showing the iron core of the output increase-type transformer composed of three stages of upper, middle, and lower, A is a side view, B is a plan view.

FIG. 8 is a two-pole resistive motor for removing reactance in a winding of a stator having a loop coil on a front wheel of a DR common circuit, generating a strong rotor field, and causing the rotor to rotate.

9 is a resistive four-pole electric motor that forms a loop coil in the front wheel of a DR common circuit of a stator and causes the rotor to rotate with a powerful four-pole rotor.

FIG. 10 is a two-pole resistive single-phase generator configured to generate a strong two-pole rotor by forming a loop coil on the front wheel of the DR common circuit of the stator, and to induce power generation of the generator by the rotor of the stator.

FIG. 11 shows a three-loop coil formed at the front wheel of the DR common circuit of the stator to generate a powerful six-pole rotor, rotates the generator that develops the rotor, and switches power to the outside. Pole three phase resistive generator.

The present invention is to wind a loop coil to the DR common wheel in order to further expand the patent registration No. 4932, which is pre-registered in the field of industrial use, the DR winding of each device of electrical, electronic, communication In this loop coil (LC), the interaction is smoothly operated in a resonant state, thereby improving characteristics.

That is, the voltage and current are in phase, causing the output to increase, and the waveform is always good. In addition, since the basic power conversion method, the basic electronic modulation method or the reversion method of the electricity acts in the loop coil, the effect is varied and widely available.

The problem to be solved by the present invention is a resistive motor capable of arbitrarily adjusting a rotational speed with a magnetic field of each phase to obtain a multi-phase in a single phase at will, and a resistive generator capable of arbitrarily adjusting frequency and voltage. Can be obtained. In addition to the single-phase modulation method, the communication modulation method can also produce a large output transmitter using a high output three-phase modulator. Wireless broadcasting is possible. In addition, since it is easy to arbitrarily change high frequency at a single phase, it is possible to expand a communication path by using a polyphase communication line.

As a means of solving the invention, the loop coil is formed on the DR common winding, so that the DR-coil interaction is smooth and the output is increased, and the loss is reduced by the resonance effect on the equipment's operating frequency. It is possible to obtain a variety of convenient control methods that can be used anywhere, such as power, electronics, communication equipment to solve the problem.

EXAMPLE

(1) Example of applying loop coil (L.C) to transformer

Fig. 1 is a transformer wound by a wheel in a DR common circuit having a square cylindrical core of up and down cylindrical iron cores. The upper iron core (A) is wound with a primary DR ₁ common line, and the lower iron core (C) is wound with a secondary DR ₂ common line. In addition, four footnote iron cores P are installed between the two cylindrical iron cores A and C, and the DR common ship wheel winding the primary and secondary windings in the space B between the main and the main poles. It is the top view which displayed the single-phase transformer with. In other words, the primary cylindrical iron core (A) and the secondary cylindrical iron core (C) are plan views drawn in the plane and the quadrilateral iron core P degree plane, and also in the primary and secondary DR winding diagram planes.

Each gap B is wound with a primary DR ₁ common wheel and a secondary DR ₂ common wheel.

That is, the gap (B) are to one side of the primary core DR ₁ seonryun public and also, the secondary 4 DR ₂ seonryun public side of the secondary core of the gap (B), each winding. That is, because the primary field magnetic field force Mf of the air gap B rotates on the primary DR ₁ common line wheel in the primary iron core of the air gap B and the secondary DR ₂ common line wheel on the secondary iron core side of the air gap B, In addition, the circular ring R ₁ wound with the annular shape of the primary cylindrical iron core (A) and the annular ring R ₂ wound on the secondary cylindrical (C) are further transformed by the rotation of the main field magnetic force of each M'f. Electromotive force is induced. That is, twice the voltage is induced because of the induced magnetic force of Mf and M'f in the common wheel.

If the 4 windings of the primary winding DR ₁ common line wheel are connected in series as shown in Fig. ₁ , apply single-phase power to terminals P and P ₂ of the loop coil, and remove the reactance of all DR public circuits to terminals C ₁ and C _2. If capacity C is added to adjust the capacity C such that frequency f, reactance L, and capacity C, WL-wc = 0, the resonance occurs in the loop coil, that is, in the tank. Since Z = R ² + (WL-wc) ² = R, only the resistance of the common circuit remains so that the voltage drop increases due to the increase of the current.

2 is a vector diagram of the DR common circuit. The solid line in Fig. (A) is the vector of the D circuit, and the dotted line is the vector of the R circuit. The DR when the resonance condition for the public seonryun to a frequency by configuring a loop circuit (B) is the reactance is not as tiles, is a state in which the resistance, only remaining amount vector are combined in the neutral axis a, b 1 difference jeonhap V _1L = E _1L + I _1L × R _1L , so only the primary synthesis resistance R _1L remains, and the secondary voltage is only related to the secondary synthesis resistance R _2L of V _2L = E _2L -I _2L × R _2L . There is no reactance.

(A) The primary voltage V _1L = E _1L + I _1L × Z _1L , and the secondary voltage is the impedance relationship between Z _1L and Z _2L , both primary and secondary of V _2L = E _2L -I _2L × Z _2L . Since the voltages at the primary and secondary in (B) are only related to the resistance, the voltage at (B) is increased compared to the voltages at the primary and secondary in (A). As mentioned above, two press forces of Mf or M'f act on the common ship wheel, so that an electric double occurs.

In addition, there is no reactance drop, thereby increasing the current and increasing the resistance to increase the output and increase the efficiency.

(2) Example of iron core LC modulation method

In the modulation method using the DR common circuit, a sound wave P is applied to two terminals P ₁ and P ₂ of the four terminals of the primary loop coil of the transformer 1 having a DR common circuit, and a carrier C is applied to the next two terminals C ₁ and C _2. If you add, the phase difference between each other and put the phase 90 ° back to each other to form a strong rotor field. That is, since the resistive output uses the resonance state for the modulation wave required in the iron core transformer of the DR common circuit, it can be used for an efficient modulation method and various control methods in which the modulation wave of the strong rotor field has a large modulation degree and the noise wave is reduced.

The former is a new method that can be used for each type of modulation of communication radio.

In addition, the power output is powerful when used in the power conversion method, and is a power conversion method that is good for resistive waveforms in which the reactance is removed from the DR common circuit. It is a new method that can be used for various control actions.

3 is an iron core DR modulator in which the primary wheel is wound around the primary DR ₁ common circuit at the same point between the upper and lower cylindrical iron cores A and C, and the primary wheel is wound around the secondary DR ₂ common circuit at the cylindrical core of C. . Figure (A) is a three-dimensional side view, and (B) is a plan view. In the first loop coil of FIG. 1B, a sound wave P is applied to P ₁ and P ₂ of the four terminals, and a carrier C is applied to the other two terminals C ₁ and C ₂ like the first loop coil to the modulator of FIG. If an iron core modulator is used and the resonance state is used for the required modulation wave, the output increases and the noise wave decreases, thereby increasing efficiency.

(3) Embodiment of the compensation device multiphase modulator

Multiphase modulation can be obtained by removing the reactance in the DR resonance state with a single-phase power supply to the transformer wound with the DR common circuit and modulating each phased transformer as described in the modulation method.

That is, Figure 4 is a configuration diagram of the upper and lower cylindrical pentagonal iron core or each of the upper and lower nine-slot cylindrical iron core is composed of three groups of the transformer ①②③. Each transformer is wound with a DR common wheel, each of the transformers forms a loop coil, and the secondary is wound with a three-phase DR common wheel.

The fifth turning wiring diagram inde primarily ① shift converter to DR configure the loop coil on common seonryun and terminal abc of putting the power P ₁ for a, b, and then the second power P ₁ to the transformer of the DR public seonryun of ② loop coil To the a ', b' of terminals a ', b', and c ', and to construct a loop coil on the DR common ship wheel of the transformer of ③, and to make terminals a', b 'and c' Terminate the power supply P ₂ to terminal b '' via middle a '' and b ''. Secondly, in order to remove the reactance of the winding of the transformer of ①, the resonant capacitor C _{1 is applied} to terminals a and c, and the amount of capacitance C ₁ is adjusted so that the output voltage of phase A is the highest, and then the reactance of the winding of the transformer of ②. To eliminate this problem, add resonant capacitor C ₂ to terminals a 'and b' and adjust the amount of capacitance C ₂ so that the output voltage of phase B is the highest.

Next, to remove reactance from winding of transformer of ③, add resonant capacitor C ₃ to a '', c '', and adjust the amount of capacitance C ₃ so that the output voltage of C phase is the highest. It is proof that the reactance is removed from the winding of each transformer composed of upper and lower cylindrical iron cores when the phase and C phase voltage is the highest, and it is the resistance compensation method that can obtain three phases of A phase, B phase and C phase from single phase.

As described in the modulation method, if the sound wave P and the carrier C are applied to the three loop coils of the three transformers with phase difference by 120 ° in order as shown in Fig. 6, the three phases can be obtained. Increasing output, resistive new polyphase modulation.

The following describes the power method

By using a resonance state using LC in a fixed device or a rotating device with a DR common circuit, DR-quantized vectors are synthesized on the neutral axis to remove reactance to obtain a resistive device. Induction power conversion method can be used to obtain an induction motor or induction generator of a transformer having a DR common circuit or a rotating device having a DR common circuit. Referring to the various devices by the power method as follows.

(1) In the case of transformer

As described above, the transformer may be configured, and as the output increases, as the gas increases as the output increases, the number of stages increases to the upper, middle, and lower ends of the cylindrical core, or the diameter of the cylindrical core becomes larger. Say. In other words, Figure A in Figure 7 increases the three stages of the top, middle, and bottom, B is a diagram showing the increase in the diameter of the cylindrical iron core.

(2) In the case of an electric motor,

The motor of which L.C is configured in the DR common circuit is configured by the stator to generate the rotor and the rotor of the secondary output by inducing rotation of the stator.

That is, Fig. 8 shows a stator that generates a rotating magnetic field by power conversion method with power of two frequencies of P ₁ , P ₂ and P ₁ ′, P ₂ ′ on the loop coil of the stator. The rotor of the output is a two-pole electric motor of an induction motor configured to inductively rotate in this rotor field. Rotational speed is a resistive two-pole electric motor that changes the speed at will and changes the speed freely or reversely.

Figure 9 shows that the number of poles of the loop coil 2 is a four-pole induction motor, and the speed is controlled by a power conversion method using a power source of two frequencies, P ₁ , P ₂ , P ₁ ', and P ₂ '. It is a 4-pole resistive induction motor that can rotate, reverse and forward.

(3) The generator is as follows.

The loop coil generator of the DR common circuit is not designed to be direct current. Instead, the alternating current slip power is generated by generating a magnetic field in the primary stator and inducing power generation in the secondary rotor. It is a power generation method that is drawn to the outside as an (activation ring).

As a method of changing the generated frequency, the frequency of the primary rotor field is changed or the generator is rotated externally. In other words, a high-frequency generator generates a high frequency when the generator is rotated in the same direction as the rotor's rotor field, and a low-frequency generator generates a low frequency when the rotor is rotated.

Fig. 10 is a generator with two poles (2P) of loop coil 1 and draws power to the outside with slip ring and brush.

Figure 11 shows a generator with a loop coil 3 on the six poles, which draws power to the outside with slip rings and brushes.

Following the power method, the communication method is as follows.

(1) In the case of a modulator, a modulator with a DR common circuit has a multi-phase modulator of a three-phase modulation method in which a modulation degree is increased by an iron-core rotor-type modulation method and a wave form is not induced at a high inductive output. You can get

(2) In the case of an amplifier, an amplifier having a DR common circuit has a large amplification and a good waveform with good resistance, and a multiphase amplifier such as a three-phase amplifier can be obtained by the compensation method.

(3) In the case of various filter, various filter can be obtained by using the resonance coil of the loop coil, that is, the tank circuit.

(4) Multi-phase communication line can be expanded. Multi-phase communication line can be added because it is easy to reconstruct high frequency at any phase.

(5) A high output transmitter can also be manufactured. As described above, a high output three phase transmitter having a good waveform can be manufactured with high voltage resistance.

(6) Even in the case of aerial aerials, when three-phase or polyphase aerials are used, radio broadcasting using high-gain aerials with good waveforms and broadband resistance can be obtained.

In this way, a power method and a communication method can also be obtained. As a modulator, single-phase, three-phase, ... according to the increase in the number of loop coils and the number of poles. The polyphase can be obtained by the process of phase modulation by the difference between the rotor and the electric angle.

Claims (1)

As the number of loop coils increases, the number of poles of NS changes and the rotational speed changes so that a magnetic field of single phase, three phase, five phase, six phase, etc. is formed by the difference between the rotor continuity and the electric angle. The constant increases with the increase of the number, so that the reactance becomes a resonance state in which the reactances cancel each other in the winding of the loop coil so that the compensation of single phase, 3 phase, 5 phase, 6 phase, etc. can be obtained. A method of winding a loop coil on a common wheel of a solid-state wheel (D) and an annular wheel (R), characterized by obtaining a variety of resistive devices in which a vector is improved and a resistance is left without any resistance.