18754573. VACUUM ADIABATIC BODY AND REFRIGERATOR simplified abstract (LG ELECTRONICS INC.)
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VACUUM ADIABATIC BODY AND REFRIGERATOR
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Inventor(s)
VACUUM ADIABATIC BODY AND REFRIGERATOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 18754573 titled 'VACUUM ADIABATIC BODY AND REFRIGERATOR
The abstract describes a patent application for a vacuum adiabatic body with a heat exchange pipeline that allows a refrigerant to move between inner and outer spaces without contacting a third space.
- Simplified Explanation:
- The patent application is for a vacuum adiabatic body with a unique heat exchange pipeline design. - The design includes at least two pipelines passing through plates to allow refrigerant movement. - A sealing plug ensures the pipeline does not contact a third space.
- Key Features and Innovation:
- Heat exchange pipeline with at least two pipelines passing through plates. - Sealing plug to prevent contact with a third space. - Efficient refrigerant movement between inner and outer spaces.
- Potential Applications:
- HVAC systems - Refrigeration units - Thermal insulation technologies
- Problems Solved:
- Prevents heat loss in vacuum adiabatic bodies - Improves energy efficiency in heat exchange processes
- Benefits:
- Enhanced thermal insulation - Energy savings - Improved system performance
- Commercial Applications:
- HVAC industry - Refrigeration sector - Energy-efficient building materials market
- Questions about Vacuum Adiabatic Body:
1. How does the sealing plug prevent contact with a third space? - The sealing plug is designed to create a barrier between the heat exchange pipeline and the third space, ensuring no contact occurs.
2. What are the potential market implications of this technology? - The technology could revolutionize the HVAC and refrigeration industries by improving energy efficiency and performance.
Original Abstract Submitted
A vacuum adiabatic body includes a heat exchange pipeline including at least two pipelines which pass through a first plate and a second plate to allow a refrigerant to move between inner and outer spaces and a sealing plug which allows the heat exchange pipeline to pass through a first point of the first plate and a second point of the second plate without contacting a third space.