Toyota jidosha kabushiki kaisha (20240239157). IN-VEHICLE TEMPERATURE CONTROL SYSTEM simplified abstract
Contents
IN-VEHICLE TEMPERATURE CONTROL SYSTEM
Organization Name
toyota jidosha kabushiki kaisha
Inventor(s)
Ryo Michikawauchi of Numazu-shi (JP)
Hidefumi Aikawa of Sunto-gun (JP)
Masanari Numata of Kariya-shi (JP)
Satoshi Ito of Kariya-shi (JP)
Tatsuhito Matsumoto of Kariya-shi (JP)
IN-VEHICLE TEMPERATURE CONTROL SYSTEM - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240239157 titled 'IN-VEHICLE TEMPERATURE CONTROL SYSTEM
Simplified Explanation: The patent application describes a system that efficiently dissipates heat using a combination of a low-temperature circuit with a chiller, a heat dissipation unit, and a refrigeration circuit. The system includes a controller that adjusts the heat transfer amount and the ratio of heat dissipation to maintain optimal cooling water temperature.
- The system includes a low-temperature circuit with a chiller for cooling water circulation.
- A heat dissipation unit dissipates heat to the air.
- A refrigeration circuit circulates refrigerant to absorb heat from the cooling water and dissipate heat at the heat dissipation unit.
- A ratio adjusting device adjusts the heat dissipation unit passing ratio.
- A controller controls the heat transfer amount adjusting apparatus and the ratio adjusting device based on predicted cooling water temperature changes.
Potential Applications: This technology can be applied in industrial cooling systems, data centers, and HVAC systems where efficient heat dissipation is crucial.
Problems Solved: The system addresses the challenge of maintaining optimal cooling water temperature by adjusting heat transfer amounts and heat dissipation ratios in real-time.
Benefits: - Improved energy efficiency - Enhanced cooling system performance - Reduced maintenance costs
Commercial Applications: Title: Advanced Heat Dissipation System for Industrial Cooling Applications This technology can be utilized in industrial cooling systems, data centers, and HVAC systems to improve energy efficiency and reduce operational costs.
Prior Art: Prior art related to this technology may include patents or research papers on heat dissipation systems, refrigeration circuits, and chiller technology.
Frequently Updated Research: Researchers are continually exploring ways to enhance heat dissipation efficiency in various applications, which may lead to advancements in this technology.
Questions about Heat Dissipation Systems: 1. What are the key components of an efficient heat dissipation system? - An efficient heat dissipation system typically includes a chiller, a heat dissipation unit, a refrigeration circuit, and a controller for optimal performance.
2. How does adjusting the heat transfer amount impact the overall efficiency of a cooling system? - Adjusting the heat transfer amount helps maintain optimal temperatures, improve energy efficiency, and enhance system performance.
Original Abstract Submitted
a system includes: a low-temperature circuit having a chiller and in which a cooling water circulates therethrough; a heat dissipation unit for dissipating heat to an air; a refrigeration circuit in which a refrigerant circulates and for absorbing heat from the cooling water to the refrigerant at the chiller and dissipating heat from the refrigerant at the heat dissipation unit; a ratio adjusting device for adjusting a heat dissipation unit passing ratio; and a controller for controlling an heat transfer amount adjusting apparatus capable of adjusting the heat transfer amount in the refrigeration circuit and the ratio adjusting device. if it is predicted that the temperature of the cooling water decreases, the controller controls the apparatus so that the heat transfer amount is increased and controls the ratio adjusting device so that the ratio is decreased, before the temperature of the cooling water flowing through the chiller decreases.
