17847872. RADIAL AND AXIAL TYPE HYBRID MOTOR simplified abstract (KIA CORPORATION)
Contents
RADIAL AND AXIAL TYPE HYBRID MOTOR
Organization Name
Inventor(s)
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 equipped with conduction bars arranged in radial and axial directions.
- The conduction bars correspond to the radial stator and the axial stators.
- The conduction bars are electrically connected by end-rings.
Potential Applications
This technology could be applied in various industries and applications, including:
- Electric vehicles: The hybrid motor design could be used in electric vehicles to provide efficient and powerful propulsion.
- Industrial machinery: The motor could be utilized in industrial machinery for improved performance and energy efficiency.
- Renewable energy systems: The hybrid motor could be integrated into renewable energy systems, such as wind turbines or hydroelectric generators, to enhance power generation capabilities.
Problems Solved
The hybrid motor design addresses several challenges faced by conventional motor designs:
- Improved efficiency: The arrangement of conduction bars in radial and axial directions optimizes the motor's efficiency and performance.
- Enhanced power output: The combination of radial and axial stators allows for increased power output compared to traditional motor designs.
- Compact size: The hybrid motor design offers a more compact and space-efficient solution, making it suitable for various applications with limited space.
Benefits
The hybrid motor design offers several benefits over conventional motor designs:
- Increased power output: The combination of radial and axial stators enables higher power output, making it suitable for demanding applications.
- Improved efficiency: The optimized arrangement of conduction bars enhances the motor's efficiency, resulting in reduced energy consumption.
- Compact and versatile: The compact size and flexible design make the hybrid motor suitable for various applications, even in limited space environments.
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.