RADIAL AND AXIAL TYPE HYBRID MOTOR

Organization Name

HYUNDAI MOTOR COMPANY

Inventor(s)

Jin Ho Choi of Suwon-si (KR)

Sung Woo Hwang of Seoul (KR)

Myung Seop Lim of Seoul (KR)

Jae Hyun Kim of Seoul (KR)

RADIAL AND AXIAL TYPE HYBRID MOTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 17847872 titled 'RADIAL AND AXIAL TYPE HYBRID MOTOR

Simplified Explanation

The abstract describes a hybrid motor design that includes a rotor, a radial stator, and two axial stators. The rotor consists of conduction bars arranged in radial and axial directions, connected by end-rings.

• The hybrid motor design includes a rotor, radial stator, and two axial stators.
• The rotor is made up of conduction bars arranged in radial and axial directions.
• The conduction bars are connected by end-rings.
• The radial stator faces the circumference of the rotor.
• The axial stators face both sides of the rotor.

Potential Applications

This technology has potential applications in various industries, including:

• Electric vehicles: The hybrid motor design can be used in electric vehicles to provide efficient and powerful propulsion.
• Industrial machinery: The motor can be utilized in various industrial machinery applications, such as pumps, compressors, and conveyor systems.
• Renewable energy: The hybrid motor can be employed in wind turbines and other renewable energy systems to convert mechanical energy into electrical energy.

Problems Solved

The hybrid motor design addresses several challenges in motor technology, including:

• Efficiency: The radial and axial stators improve the motor's efficiency by providing better magnetic field distribution and reducing energy losses.
• Power output: The design allows for higher power output due to the improved magnetic field and optimized conduction paths.
• Compact size: The hybrid motor design enables a more compact motor size, making it suitable for applications with limited space.

Benefits

The hybrid motor design offers several benefits over traditional motor designs:

• Improved efficiency: The optimized magnetic field distribution and reduced energy losses result in higher overall efficiency.
• Increased power output: The design allows for higher power output, making it suitable for demanding applications.
• Compact and lightweight: The hybrid motor design enables a more compact and lightweight motor, providing flexibility in various applications.
• Enhanced reliability: The design reduces the risk of overheating and improves the motor's overall reliability.

Original Abstract Submitted

A hybrid motor includes a rotor, a radial stator facing the circumference of the rotor, and first and second axial stators facing both sides of the rotor. The rotor includes conduction bars arranged in radial and axial directions, corresponding to the radial stator and the axial stators, and end-rings electrically connecting the conduction bars.