POWER GENERATION MODULE

Organization Name

mitsubishi electric corporation

Inventor(s)

Takeshi Musha of Tokyo (JP)

Yasuyuki Okada of Tokyo (JP)

POWER GENERATION MODULE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240250595 titled 'POWER GENERATION MODULE

The power generation module described in the patent application consists of a power generation element with a magnetic core and a coil, an induction yoke part with two induction yokes made of magnetic material, and a magnet part that can move relative to the power generation element.

• The power generation element includes a magnetic core elongated in one direction and a coil wound around it.
• The induction yoke part has a first and second induction yoke made of magnetic material, contacting each end of the magnetic core.
• The magnet part is displaceable in a direction perpendicular to the longitudinal direction of the magnetic core.
• The magnet part consists of a first magnet with an n-pole and s-pole part, and a second magnet with an n-pole and s-pole part arranged in the displacement direction.
• The n-pole part of the first magnet and the s-pole part of the second magnet face each other in the displacement direction, while the s-pole part of the first magnet and the n-pole part of the second magnet face each other in the displacement direction.

Potential Applications: - Renewable energy generation - Electric vehicle power systems - Portable power generation devices

Problems Solved: - Efficient power generation - Compact design for various applications - Enhanced magnetic field control

Benefits: - Increased energy efficiency - Versatile applications - Improved power generation capabilities

Commercial Applications: Title: Innovative Power Generation Module for Renewable Energy Solutions This technology can be utilized in renewable energy systems, electric vehicles, and portable power generation devices, catering to a wide range of commercial applications. The compact design and efficient power generation capabilities make it a valuable asset in the renewable energy sector.

Questions about the technology: 1. How does the magnet part contribute to the efficiency of power generation in this module? 2. What are the key advantages of using induction yokes in conjunction with the magnetic core in this power generation element?

Original Abstract Submitted

a power generation module includes a power generation element having a magnetic core elongated in one direction and a coil wound around the magnetic core, an induction yoke part having a first induction yoke contacting one end of the magnetic core in a longitudinal direction of the magnetic core and made of a magnetic material and a second induction yoke contacting the other end of the magnetic core in the longitudinal direction and made of a magnetic material, and a magnet part that is relatively displaceable relative to the power generation element in a direction perpendicular to the longitudinal direction. the magnet part has a first magnet and a second magnet arranged in the displacement direction. the first magnet has an n-pole part and an s-pole part arranged in the longitudinal direction. the second magnet has an n-pole part and an s-pole part arranged in the longitudinal direction. the n-pole part of the first magnet and the s-pole part of the second magnet face each other in the displacement direction, while the s-pole part of the first magnet and the n-pole part of the second magnet face each other in the displacement direction. when the magnet part is located in a first position relative to the power generation element, the n-pole part of the first magnet faces the first induction yoke, while the s-pole part of the first magnet faces the second induction yoke. when the magnet part is located in a second position relative to the power generation element, the s-pole part of the second magnet faces the first induction yoke, while the n-pole part of the second magnet faces the second induction yoke.