HEAT MANAGEMENT SYSTEM

Organization Name

toyota jidosha kabushiki kaisha

Inventor(s)

Tomoaki Suzuki of Nagoya-shi (JP)

HEAT MANAGEMENT SYSTEM - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240300320 titled 'HEAT MANAGEMENT SYSTEM

The abstract describes a heat management system with multiple flow passages, an electrical storage device, a driving device, a radiator, a chiller device, and a switching device. When the temperature of the electrical storage device rises, the switching device activates a temperature raising circuit involving a connection flow passage between the first, second, and third flow passages, while the fourth flow passage remains independent.

• Electrical storage device performs heat exchange in the first flow passage
• Driving device performs heat exchange in the second flow passage
• Radiator in the third flow passage
• Chiller device in the fourth flow passage
• Switching device activates temperature raising circuit when needed

Potential Applications: - Automotive cooling systems - Industrial heat management - Renewable energy systems

Problems Solved: - Efficient heat exchange - Temperature regulation - Energy conservation

Benefits: - Improved heat management - Energy efficiency - Enhanced system performance

Commercial Applications: Title: "Advanced Heat Management Systems for Various Industries" This technology can be used in automotive, industrial, and renewable energy sectors to optimize heat exchange processes and improve overall system efficiency.

Questions about Heat Management Systems: 1. How does the switching device determine when to activate the temperature raising circuit? The switching device is designed to monitor the temperature of the electrical storage device and activate the circuit when the temperature exceeds a certain threshold.

2. What are the key advantages of using a connection flow passage in the temperature raising circuit? The connection flow passage allows for efficient heat transfer between the different flow passages, ensuring optimal temperature regulation within the system.

Original Abstract Submitted

a heat management system has: a first flow passage, a second flow passage, a third flow passage, and a fourth flow passage; an electrical storage device configured to perform heat exchange with a heat medium in the first flow passage; a driving device configured to perform heat exchange with a heat medium in the second flow passage; a radiator provided in the third flow passage; a chiller device provided in the fourth flow passage; and a switching device. when a temperature of the electrical storage device is raised, the switching device is configured to cause a temperature raising circuit to be formed, the temperature raising circuit being a flow passage circuit in which a connection flow passage connecting the first flow passage, the second flow passage, and the third flow passage to one another is provided, with the fourth flow passage being independent of the connection flow passage.