KR970008799A - DC Power Principle and Generator - Google Patents

Abstract

The present invention relates to a DC power generation principle and a generator, and in particular, in principle, the principle of correcting the wrong theory correctly and adjusting the winding method, burr switch, magnetic pole size, etc. in the generator is focused on improving the high-quality DC and power generation efficiency. . The problem is that when the armature coil is rotated counterclockwise in the N and SX magnetic fields, there is a mistake in the N pole as the positive (+) pole and the S pole as the negative (-) pole. The same theory is applied to the generator and generator, and the structure is the same as that of a DC motor.

In order to prove the above, the application of Lenz's law shows that Fleming's right-hand law is wrong. If the armature coil is rotated counterclockwise continuously in the magnetic field of the left N pole and the right S pole of the permanent magnet, the magnetic pole increases in the coil by the law of Lenz. The induced electromotive force is equal to the positive (+) current, and the coil electromotive force on the S pole where the magnetic flux increases in the coil and the coil induction on the N pole which the magnetic flux decreases in the coil equally enters the negative (-) pole. It is output to external circuit through and brush. That is, in the conventional theory, positive (+) electromotive force is generated at the left N pole in the vertical direction and the left N pole in the vertical direction, but the present invention is positive (+) upward in the horizontal direction in the magnetic field and negative (-) at the bottom. The electromotive force can be seen. As a result, Fleming's right hand law violates the direction of induced electromotive force when the flux decreases. In the structure, the blush should be installed in the direction perpendicular to the direction of the magnetic force line, and the magnetic pole spacing and the winding angle should be matched in the armature winding. If the battery that can increase or decrease the magnetic flux does not escape more than three grooves, the stimulation, the magnetic iron and the adsorption force can be excluded, and thus the power generation energy can be reduced by 10 to 20%. Therefore, it can help other people's research by correctly establishing the principle of DC power generation and can save a lot of energy by using it for engine type DC welding machine, diesel electric locomotive, tin foil etc. in the industrial field.

Description

DC Power Principle and Generator

Since this is an open matter, no full text was included.

1 is a principle diagram of direct current generation, where A is a conventional diagram of direct current generation, B, C is an induction electromotive direction diagram when the coil rotates counterclockwise, D is an induction electromotive force output waveform diagram when A is rotated, and E is a conventional diagram. The direction of the magnetic field lines of Fig. 3 is the direction of induced electromotive force of A: the direction of induced electromotive force when increasing the flux through the 'Lens' law 'coil, and the direction of induced electromotive force when the magnetic flux decreases through the' Lens 'law' coil.

Claims (5)

N-pole coil (a) where magnetic flux increases in the coil when the armature coils (a, b) are continuously rotated counterclockwise in the magnetic fields of the permanent magnet N-pole and S-pole (a) S-pole coil with reduced magnetic flux in the coil ( b) The electromotive force is the current coming out of the positive (+) pole and is supplied to the external circuit through the commutator and the brush, and the S pole coil where the magnetic flux increases in the coil (b) The N pole coil where the induced electromotive force and the magnetic flux decreases in the coil (a) Induction electromotive force is a direct current generator produced using the principle of supplying current to the negative (-) pole and supplied to an external circuit through a commutator and a brush. The DC generator according to claim 1, wherein the blush is installed perpendicular to the N pole and S pole magnetic lines. The multipole direct current generator according to claim 1, wherein the pole poles N pole and S pole are not to be smaller than three armature grooves and not to have four armature grooves. The DC generator according to claim 1 or 3, wherein the armature coil winding angle is repeatedly wound equal to the magnetic pole interval. The direct current generator according to claim 1 and 2, wherein the direct current generator comprises only N poles and the direct current generator consists of S poles only. ※ Note: The disclosure is based on the initial application.