Lg electronics inc. (20240255231). HEAT EXCHANGER simplified abstract
HEAT EXCHANGER
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HEAT EXCHANGER - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240255231 titled 'HEAT EXCHANGER
The abstract describes a heat exchanger with refrigerant tubes and fins for heat transfer. The fins consist of first bodies, second bodies, upper bodies, and lower bodies arranged in a specific configuration.
- The heat exchanger includes refrigerant tubes for the flow of refrigerant and fins for heat transfer.
- The fins are made up of first bodies, second bodies, upper bodies, and lower bodies.
- The upper bodies connect the upper ends of the first and second bodies, while the lower bodies connect the lower ends.
- The distance between the first and second bodies decreases as it approaches an upper body.
Potential Applications: - Air conditioning systems - Refrigeration units - Heat pump systems
Problems Solved: - Efficient heat transfer - Improved cooling performance - Enhanced energy efficiency
Benefits: - Increased heat exchange efficiency - Reduced energy consumption - Enhanced overall system performance
Commercial Applications: Title: Advanced Heat Exchanger Technology for HVAC Systems This technology can be used in various commercial HVAC systems, refrigeration units, and heat pump systems, improving their efficiency and performance in cooling and heating applications.
Questions about the technology: 1. How does the specific configuration of the fins improve heat transfer efficiency? 2. What are the potential cost savings associated with using this heat exchanger technology?
Frequently Updated Research: Researchers are constantly exploring new materials and designs to further enhance heat transfer efficiency in heat exchangers. Stay updated on the latest advancements in the field to optimize system performance.
Original Abstract Submitted
a heat exchanger includes a plurality of refrigerant tubes configured to allow a refrigerant to flow, and a fin disposed between the adjacent refrigerant tubes, the fin being configured to transfer heat, the fin includes a plurality of first bodies, a plurality of second bodies, each second body being arranged between adjacent first bodies, a plurality of upper bodies, each upper body connecting an upper end of each first body and an upper end of each second body adjacent to each other, and a plurality of lower bodies, each lower body connecting a lower end of each first body and a lower end of each second body adjacent to each other, wherein a distance between each first body and each second body connected to both ends of one lower body of the plurality of lower bodies decreases as it approaches one upper body of the plurality of upper bodies.