ROTOR

Organization Name

TOYOTA JIDOSHA KABUSHIKI KAISHA

Inventor(s)

Kenta Tabuchi of Nisshin-shi (JP)

Hiroki Kato of Toyota-shi (JP)

Hideaki Miyazono of Kasugai-shi (JP)

Kiichi Yokoyama of Toyota-shi (JP)

Hironori Asaoka of Okazaki-shi (JP)

Fumiaki Yamato of Okazaki-shi (JP)

ROTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18530969 titled 'ROTOR

The patent application describes a rotor with a unique design that allows coolant to flow through the rotor shaft and reach the surface of elongated magnets within the rotor core.

• Rotor includes a rotor shaft and a rotor core with magnet slots and magnets.
• At least one magnet has an elongated shape and is fixed against the inner surface of a magnet slot.
• Coolant flowing through the rotor shaft reaches the exposed surface of the elongated magnet and moves along the axial direction of the rotor core.

Potential Applications: - Electric motors - Generators - Wind turbines

Problems Solved: - Efficient cooling of magnets in rotors - Improved performance and longevity of rotor components

Benefits: - Enhanced heat dissipation - Increased efficiency - Extended lifespan of rotor components

Commercial Applications: Title: Advanced Rotor Design for Enhanced Cooling in Electric Motors This technology could be used in various industries such as automotive, aerospace, and renewable energy for improved performance and efficiency.

Prior Art: Readers can explore prior patents related to rotor designs, magnet cooling systems, and innovative cooling techniques in electric motors.

Frequently Updated Research: Stay informed about the latest advancements in rotor design, magnet cooling technologies, and efficiency improvements in electric motors.

Questions about Rotor Cooling Technology: 1. How does the unique design of this rotor improve cooling efficiency compared to traditional rotor designs? 2. What are the potential cost savings associated with using this advanced rotor design in electric motors?

Original Abstract Submitted

A rotor may include: a rotor shaft; a rotor core attached to the rotor shaft and comprising a plurality of magnet slots and magnets, wherein at least one magnet of the magnets has an elongated cross-sectional shape and is fixed by being pressed against a part of an inner surface defining a corresponding one of the magnet slots of the rotor core. The rotor is configured so that coolant flowing through the rotor shaft reaches a surface of a long side of the at least one magnet that is exposed inward in a radial direction of the rotor core in the corresponding magnet slot and moves along an axial direction of the rotor core.