ROTOR

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Hironori Asaoka of Okazaki-shi (JP)

Hideaki Miyazono of Kasugai-shi (JP)

Hiroki Kato of Toyota-shi (JP)

Fumiaki Yamato of Okazaki-shi (JP)

Kiichi Yokoyama of Toyota-shi (JP)

ROTOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240223034 titled 'ROTOR

The present teachings provide a rotor for a cooling system. The rotor includes a shaft, a rotor core, a first end plate, and a second end plate. The rotor core has a first flow path and a second flow path for coolant circulation. The first end plate has a communication flow path to connect the shaft to the first flow path, while the second end plate has a communication flow path to connect the shaft to the second flow path.

• The rotor includes a shaft, rotor core, and two end plates.
• The rotor core has two flow paths for coolant circulation.
• The first end plate connects the shaft to the first flow path.
• The second end plate connects the shaft to the second flow path.

Potential Applications: - This rotor design can be used in various cooling systems, such as automotive radiators or industrial machinery. - It can improve the efficiency of coolant circulation and heat dissipation in different applications.

Problems Solved: - Enhances coolant flow and heat transfer within the system. - Provides a more efficient cooling solution for various applications.

Benefits: - Improved cooling system performance. - Enhanced heat dissipation capabilities. - Increased overall system efficiency.

Commercial Applications: - Automotive cooling systems. - Industrial machinery cooling. - HVAC systems.

Questions about the rotor design: 1. How does the rotor core facilitate coolant circulation?

  The rotor core has two flow paths that allow coolant to flow from one side to the other, improving heat dissipation.

2. What are the potential benefits of using this rotor design in industrial machinery cooling systems?

  This rotor design can enhance heat transfer efficiency and overall system performance in industrial applications.

Original Abstract Submitted

the present teachings provide a rotor. the rotor may comprise: a shaft ; a rotor core ; a first end plate ; and a second end plate . rotor core may comprise a first flow path which allows the coolant to flow from the one side to the other side of the axial direction and a second flow path which allows the coolant to flow from the other side to the one. first end plate may comprise a first communication flow path which allows the coolant to flow from shaft to first flow path . second end plate may comprise a second communication flow path which allows the coolant to flow from shaft to second flow path