JP2003338413A - Power doubler transformer - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a power doubler transformer that can supply inexpensive energy by doubling electric power in the transformer. <P>SOLUTION: This power doubler transformer doubles its output power with respect to input power by involving the magnetic energy of a permanent magnet in the transformer. <P>COPYRIGHT: (C)2004,JPO

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a transformer used in a power supply circuit.

[0002]

2. Description of the Related Art Conventionally, the electric power is reduced by passing a current through a transformer.

[0003]

The output power is doubled with respect to the input power to the transformer.

[0004]

SOLUTION: The magnetic power energy of the permanent magnet is added to the input power inside the transformer to double the output power.

[0005]

EXAMPLE In the conventional transformer, the transformer core is magnetized by the electric power input to the primary coil, and the induced electromotive force is generated in the secondary coil by this magnetic field line, and the output is lowered to the input to some extent. When single-phase AC enters the transformer and the right side of the transformer core 1 in FIG. 1 becomes the N pole, the magnetic force lines repel the N pole of the permanent magnet 5 in FIG. 1 and flow to the S pole of the permanent magnet 4. When the N pole of the permanent magnet 4 flows to the S pole of the transformer core 1, that is, to the left side of the transformer core 1 in FIG. 1, and when the left side portion of the transformer core 1 becomes the N pole, the magnetic field lines are the permanent magnets in FIG. 4 repels the N pole and flows to the S pole of the permanent magnet 5, and flows from the N pole of the permanent magnet 5 to the S pole of the transformer core 1, that is, to the right side of the transformer core 1 in FIG. 4 and the permanent magnet 5 alternately, and at this time, the electric current flowing in the primary coil 2 of the transformer core 1 The magnetic force lines of the permanent magnet 4 and the permanent magnet 5 are added to the magnetic force lines generated by the flow to double the magnetic force lines flowing inside the transformer coil 1. Therefore, the electromotive force to the secondary coil 3 is the electric power input to the primary coil 2. About twice as much power is generated, that is, twice as much output as the power input to the transformer is obtained. The above explanation
Explaining the second term in the explanation of the first claim, the half wave of the AC power supply is removed by a rectifier or the like and a half wave is input to the primary coil 2a, or the DC current is a half wave of an AC sine wave. Then, when the current is input to the primary coil 2a (the input current at this time is input so that the left side of the transformer core 1a in FIG. 2 becomes the N pole), when the current is input to the primary side, the same is applied to the secondary side. An electric current is output. At this time, the magnetic force lines of the primary coil 2a repel each other in the permanent magnet 4a and do not flow,
Further, when the current on the primary side is interrupted, the magnetic field lines of the permanent magnet 4a flow inside the transformer core 1a, so that a current of opposite polarity is generated in the secondary coil 3a. It is energy, that is, half-wave at the time of input, but output becomes double-wave alternating current, resulting in double power. If the above devices are used in series with 5 or 6 stages, the electric power can be doubled tens of times, and in the case of three-phase AC, three units of this device are used.

[0006]

[Effects of the Invention] A-A large amount of electricity can be used for a small amount of electricity B-A large amount of electricity can be used in a small power plant C-A permanent cycle in which a small electric battery can be used to run a large electric vehicle and also charge the battery Possible D-power transmission equipment has many advantages such as downsizing and cost reduction.

[Brief description of drawings]

1 is a partial cross-sectional view of a front view of claim 1 of the present invention.

FIG. 2 is a partial sectional view of the front view of claim 2 of the present invention.

FIG. 3 is a partial cross-sectional view of a front view of a core connecting type according to claim 2 of the present invention.

[Explanation of symbols]

1 transformer core 1a Transformer core 2 primary coil 2a Primary coil 3 secondary coil 3a Secondary coil 4 permanent magnet 4a Permanent magnet 5 permanent magnets N Permanent magnet polarity S Permanent magnet polarity

Claims (2)

[Claims] 1. A transformer core 1, a primary coil 2 and a secondary coil 3 are provided at the center of the transformer core 1, and permanent magnets 4 and 5 are provided at both ends of the transformer core 1. Power transformer. 2. A transformer core 1a and a primary coil 2a and a secondary coil 3a are provided at the center of the transformer core 1a.
A double power transformer characterized in that a permanent magnet 4a is provided at one end of a.