ROTOR

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Ken Jozaki of Toyota-shi (JP)

Toshinori Okochi of Toyota-shi (JP)

Yoshizumi Kitahara of Toyota-shi (JP)

Takahiro Odagi of Kariya-shi (JP)

Masayuki Ikemoto of Kariya-shi (JP)

ROTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240235290 titled 'ROTOR

The abstract describes a rotor used for a motor that includes a rotor core with permanent magnets embedded in embedding holes, flux barriers at both ends of the embedding holes, and magnetic poles. The rotor core has grooves on its outer surface arranged symmetrically about the axis of the motor, with a specific cross-section design to optimize performance.

• Rotor for a motor with embedded permanent magnets and flux barriers
• Symmetric arrangement of grooves on the rotor core for improved efficiency
• Specific cross-section design to enhance motor performance
• Magnetic poles configuration for effective operation
• Optimization of the rotor core for increased efficiency

Potential Applications: - Electric vehicles - Wind turbines - Industrial machinery - Robotics - Power generation systems

Problems Solved: - Improved motor efficiency - Enhanced power output - Reduced energy consumption - Increased reliability - Better performance in various applications

Benefits: - Higher efficiency - Lower energy consumption - Improved reliability - Enhanced performance - Versatile applications

Commercial Applications: Title: Advanced Rotor Technology for Efficient Motors This rotor technology can be utilized in various commercial applications such as electric vehicles, wind turbines, industrial machinery, robotics, and power generation systems. The enhanced efficiency and performance of motors using this technology can lead to cost savings and improved productivity in these industries.

Prior Art: Readers can explore prior art related to rotor technology, permanent magnet motors, and motor efficiency optimization to gain a deeper understanding of the advancements in this field.

Frequently Updated Research: Researchers are continuously exploring ways to further optimize rotor design for motors, improve magnetic materials for better performance, and enhance overall motor efficiency through innovative technologies.

Questions about Rotor Technology: 1. How does the symmetric arrangement of grooves on the rotor core impact motor performance? 2. What are the key factors to consider when designing a rotor for efficient motors?

Original Abstract Submitted

a rotor used for a motor includes a rotor core, and a plurality of permanent magnets embedded in a corresponding plurality of embedding holes in the rotor core configured to include flux barriers at both ends of the plurality of embedding holes in the rotor core and to include a plurality of magnetic poles. the rotor core includes a plurality of grooves on an outer peripheral surface, the plurality of grooves, with the two paired grooves, are away from an axis that becomes the q-axis when the motor is operated, and are arranged symmetrically about the axis, and the rotor core has such a cross-section that a first angle between two lines passing through the two grooves and the center of the rotor core is smaller than a second angle between the axis-side end face of the two flux barriers adjacent to each other across the axis.