Toyota jidosha kabushiki kaisha (20240300294). THERMAL MANAGEMENT SYSTEM simplified abstract
Contents
THERMAL MANAGEMENT SYSTEM
Organization Name
toyota jidosha kabushiki kaisha
Inventor(s)
Tomoaki Suzuki of Nagoya-shi (JP)
THERMAL MANAGEMENT SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240300294 titled 'THERMAL MANAGEMENT SYSTEM
The thermal management system described in the abstract includes various components such as a power storage device, a drive device, a radiator, a chiller device, a switching device, and a control device. The switching device controls the flow paths to separate and make certain components independent.
- The thermal management system consists of a power storage device, a drive device, a radiator, a chiller device, a switching device, and a control device.
- The switching device controls the flow paths to separate the drive device, radiator, and other components, making them independent.
Potential Applications: - Automotive industry for electric vehicles - Industrial machinery for cooling systems - Aerospace industry for thermal control in aircraft
Problems Solved: - Efficient cooling and thermal management in various applications - Enhanced control over temperature regulation in systems
Benefits: - Improved energy efficiency - Enhanced performance and longevity of components - Reduced maintenance costs
Commercial Applications: Title: "Advanced Thermal Management Systems for Enhanced Performance" This technology can be utilized in electric vehicles, industrial cooling systems, and aerospace applications to improve efficiency and performance.
Questions about Thermal Management Systems: 1. How does the switching device in the thermal management system contribute to energy efficiency?
- The switching device controls the flow paths to optimize the operation of components, reducing energy consumption.
2. What are the potential long-term benefits of implementing this thermal management system in various industries?
- The long-term benefits include improved performance, reduced maintenance costs, and enhanced system longevity.
Original Abstract Submitted
the thermal management system includes a power storage device in a first flow path, a drive device in a second flow path, a radiator in a third flow path, a chiller device in a fourth flow path, a switching device, and a control device. in the thermal management system, the switching device is controlled so that the first connecting flow path to which the first flow path and the fourth flow path are connected, the drive device, and the radiator are separated from each other and become independent.