JP3241119U - Power generation amplifier using flywheel case - Google Patents

Abstract

A power generator using a flywheel case capable of obtaining a larger current is provided. A motor is used as an electric machine driving body, a flywheel 2 larger than the outer shape of the generator and having a strong magnet on the outer periphery is attached to the same terminal of the generator, and centrifugal force energy is generated when the generator rotates at its maximum capacity. is converted into electricity with a simple device. When the power generation capacity reaches the maximum rotation speed, the inverter increases the rotation speed by 15-30%, moves the flywheel case 1 with the coil attached inside to the flywheel position, and converts the centrifugal force energy into current with the coil. convert and extract. Electricity generated from the generator and electricity generated from the flywheel case coil are generated, and two types of electricity are obtained. [Selection drawing] Fig. 1

Description

In this invention, a flywheel with a strong magnet attached to its outer circumference is attached to the coaxial extension line of the generator (alternator), and when the rotation speed reaches a certain level, the flywheel case (2 in Fig. 1) is wrapped around the flywheel. 1) in FIG. 1 is moved to extract electricity from the coil.

Many conventional engine and motor generators have built-in flywheels, the role of which is to solve the requirement for smooth rotation. The flywheel generates energy due to centrifugal force when it exceeds a certain number of revolutions. This energy is conventionally used only for rotational pulsation correction. This energy can be used to generate new electricity.

JP 2016-160970 JP 2013-240208 A JP 2021-514041 A

A flywheel with a conventional generator attached is installed to move the generator smoothly, but when it reaches a certain number of revolutions, the power generation capacity reaches its peak and the flywheel emits centrifugal energy. . Therefore, if a flywheel larger than the generator is attached to the terminal of the generator, and the centrifugal force energy of the highest point is used, the device can be easily changed and electricity can be generated, adding a larger current to the current being generated available. Therefore, power generation costs can be suppressed.

A flywheel (2 in Fig. 1) with strong magnets arranged on the outer periphery is attached to the end of the same shaft of the generator. A flywheel case (1 in FIG. 1) is moved so as to wrap the wheel, and current is taken out from a coil wound around the case. As a result, the current from the main generator (current 1 in FIG. 2) and the current generated by the flywheel case (current 2 in FIG. 2) are obtained.

This idea can be implemented by the device configuration as shown in FIGS. Conventionally, most flywheels are installed between the drive source and the generator and used to compensate for pulsation. However, this device is installed on the generator coaxial terminal shaft so that the flywheel case can be easily moved (moved from position 1 to position 2 in Fig. 1) to generate new power. .

As you can see from the device configuration in Fig. 1, we can contribute to society by creating a simple system that can generate power as efficiently as possible when the world is facing an urgent electric power situation.

As a solution to the problem, a flywheel is attached to the generator terminal, and both the generator and the flywheel energy are generated. When the flywheel reaches a certain rotational speed, the flywheel is increased in rotational speed by 15% to 30%, the flywheel case is moved, and electric power is extracted by the internal coil.

By having two power generating device parts in one power generating device, it becomes possible to use more electricity with the driving power of one power generating device.

It is a block diagram of an apparatus. It is an image figure which takes out two electric currents with a generator.

A motor is used for the electric motor driving body, and a flywheel with a strong magnet on the outer circumference larger than the outer circumference of the generator (approximately twice or more) is attached to the same terminal of the generator, and accompanies the maximum capacity rotation of the generator A simple device converts the centrifugal energy of time into electricity. When the power generation capacity reaches the maximum rotation speed, the inverter increases the rotation speed by 15-30%, moves the flywheel case (with many coils wound inside) to the flywheel position, and the centrifugal energy is transferred to the coil. It is converted into electric current and taken out. Therefore, electricity 1 generated from the generator and electricity 2 generated from the flywheel case coil are generated, and as a result, electricity of 1+2 is obtained.

Attach a pulley to the 100V motor and attach a flywheel with a magnet to the end of the generator (alternator). The case is moved to the outer periphery of the flywheel and electricity is taken out by the coil in the flywheel case. By doing this, the electricity from the generator and the electricity from the coil in the flywheel case can be used outside.

1 flywheel case with coil attached 2 flywheel with magnet attached

Claims (1)

The generator has a flywheel with a strong magnet at the end of the same shaft that drives the generator (alternator). Electricity is extracted from the coil inside the wheel case. A power generator characterized by the movement of the flywheel case containing the coil that wraps the flywheel.

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