JP3220511U - Low voltage generator - Google Patents

Abstract

The present invention provides a low-voltage generator capable of reducing energy waste due to an increase in rotational load caused by an increase in the magnetic force of a coil that is opposed to a magnetic force of a magnet.
In order to weaken the magnetic force of a coil that is opposed to a magnet, the coils are connected in parallel and the voltage is lowered to increase the current. The spiral coil 10 is arranged on both sides of the magnet 2 and connected to the transformer 5 through a current. The input current whose voltage has been lowered is increased by a transformer to the voltage when the coreless coil 4 is connected in series. Since the generator does not have an iron core, it can be applied to power generation using a superconducting magnet with a light initial rotation, and to ordinary homes and cars.
[Selection] Figure 1

Description

  Regarding power generation.

Background technology

  Current generators become heavier when current is used, reducing the efficiency of power generation.

Actual application 2018-000770

Challenges to solve the idea

  When the magnetic force of the coil that generates electricity opposite to the magnetic force of the magnet becomes stronger, the load of rotation increases and energy is wasted. The purpose is to reduce this.

Means to solve the problem

A pair of square plate-shaped outer frames facing each other, a plurality of magnets arranged on the mutually facing surfaces of the outer frame, spiral coils attached to the mutually facing surfaces of the magnets, and rotation between the spiral coils A rotating plate disposed on the rotating plate, a plurality of coreless coils arranged circumferentially so as to face the magnets on the rotating plate, and an electric force generated by rotating the rotating plate by an external force. A transformer for changing the voltage,
The outer frame is a magnetically inductive material that has a hole in the center of the square plate where the rotation shaft enters, and a plurality of magnets are fixed by alternately changing poles in the circumferential direction of the hole. A pair of spiral coils attached to each other is arranged on both sides, and the opposing magnets are arranged so as to attract each other. The rotating plate is made of a non-magnetic material, is formed in a disk shape, and there are recesses into which a plurality of coreless coils enter. A disk with a conductor ring has a pair of relay rings arranged on both sides of the rotating plate;
The coreless coil is formed by winding insulated conductors in a fan shape, and the individual wires of the coreless coil are separated into 9A and 9B in parallel so that the flow of electromotive current is in the same direction. The line extending from the relay ring of 9B passes through the rotating shaft and passes through the contact on the 9B side and is connected to one of the low voltage side of the transformer. The relay ring of 9A also passes through the rotating shaft, Connect to the other side of the low voltage side of the transformer through one and the other of the spiral coil through the side contact,
The transformer is a low-voltage generator that uses the input current by boosting it to the voltage when the coreless coil is connected in series.

  When a low voltage current is connected to a transformer without passing through a spiral coil and connected to both lines of the increased current to the voltage when connected in series, the current amount does not decrease and it is as heavy as 14 rotations. However, when the spiral coil is energized, 20 rotations are required.

Effect of device

  When turning the coreless coil between magnets, if the current is small, it turns lightly, so the voltage is lowered, the magnetic force is weakened, the energized spiral coil is placed on both sides of the magnet, and the current that is output is increased with a transformer Then the load is small.

  Body side view   Spiral coil   Rotating plate

A pair of opposing square plate-shaped outer frames 1, a plurality of magnets 2 disposed on mutually opposing surfaces of the outer frame 1, a spiral coil 10 attached to the mutually opposing surfaces of the magnet 2, and a spiral coil The rotating plate 3 rotatably disposed between the plurality of coreless coils 4, the plurality of coreless coils 4 disposed in the circumferential direction so as to face the magnet 2 in the rotating plate 3, and the rotating plate 3 being rotated by an external force. And a transformer 5 that changes the voltage of the current flowing from the coreless coil 4.
The outer frame 1 is a magnetically inductive material, and has a hole into which a rotation shaft enters at the center of a square plate shape. A plurality of magnets are fixed by changing their poles alternately in the circumferential direction of the hole. A pair of spiral coils 10 attached to the surface of the coil is disposed on both surfaces, and the opposing magnet 2 is disposed so as to attract. A disk having a recess into which the coil 4 is inserted and having a conductor ring has a pair of relay rings 9 disposed on both sides of the rotating plate 3,
In the coreless coil, insulated conductors are wound in a fan shape, and the coreless coil 4 and the individual wires are separated in parallel into 9A and 9B so that the flow of electromotive current is in the same direction. In addition, a line extending from the relay ring 9 of 9B passes through the rotary shaft 7, passes through the contact 8 on the 9B side, and is connected to one of the low voltage side of the transformer 5, and the relay ring 9 of 9A is also connected. It passes through the rotary shaft 7, passes through the contact 8 on the 9A side, passes through one and the other of the spiral coil 10, and is connected to the other side on the low voltage side of the transformer 5. A low-voltage generator that uses the coil 4 by increasing the voltage to the voltage when it is connected in series.

  In order to thin the spiral coil 10 attached to both sides of the magnet 2, a stable current is applied from the outside.

  If the idle rotation is 20 turns at low voltage, if the current is directly connected without passing through the spiral coil 10, it is heavy as 14 turns, but there is a lot of current. If the current is directly connected to the spiral coil 10, it is 20 turns but the current is low voltage. When the current increased through the transformer 5 is connected to each other, the rotation is 20 rotations and the rotation is light, but the current is reduced by 10%. When the spiral coil 10 is energized from the outside, the current does not decrease and becomes 20 rotations.

  When both opposing spiral coils 10 are arranged in the same direction, current is input to the inner line of the spiral coil 10, connected to the inner side of the opposite spiral coil 10 from the outer side, and connected to the transformer 5 on the outer side. However, at different times, if the input is made inside, the outside line is connected to the outside of the opposite side, and the inside line is not connected to the transformer 5, the number of revolutions and current are reduced.

  One coreless coil 10 is provided for the pair of magnets 2 or one coreless coil 10 is provided for the two pairs of magnets 2.

1 Outer frame 6 Pulley 2 Magnet 7 Rotating shaft 3 Rotating plate 8 Contact (A side and B side)
4 Coreless coil 9 Relay ring (A and B)
5 Transformer 10 Spiral coil (One and the other)

Claims (1)

A pair of square plate-shaped outer frames facing each other, a plurality of magnets arranged on the mutually facing surfaces of the outer frame, spiral coils attached to the mutually facing surfaces of the magnets, and rotation between the spiral coils A rotating plate disposed on the rotating plate, a plurality of coreless coils arranged circumferentially so as to face the magnets on the rotating plate, and an electric force generated by rotating the rotating plate by an external force. A transformer for changing the voltage,
The outer frame is a magnetically inductive material that has a hole in the center of the square plate where the rotation shaft enters, and a plurality of magnets are fixed by alternately changing poles in the circumferential direction of the hole. A pair of spiral coils attached to each other is arranged on both sides, and the opposing magnets are arranged so as to attract each other. The rotating plate is made of a non-magnetic material, is formed in a disk shape, and there are recesses into which a plurality of coreless coils enter. A disk with a conductor ring has a pair of relay rings arranged on both sides of the rotating plate;
The coreless coil is formed by winding insulated conductors in a fan shape, and the individual wires of the coreless coil are separated into 9A and 9B in parallel so that the flow of electromotive current is in the same direction. The line extending from the relay ring of 9B passes through the rotating shaft and passes through the contact on the 9B side and is connected to one of the low voltage side of the transformer. The relay ring of 9A also passes through the rotating shaft, Connect to the other side of the low voltage side of the transformer through one and the other of the spiral coil through the side contact,
The transformer is a low-voltage generator that uses the input current by boosting it to the voltage when the coreless coil is connected in series.

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