Lg electronics inc. (20240344648). VACUUM ADIABATIC BODY AND REFRIGERATOR simplified abstract
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VACUUM ADIABATIC BODY AND REFRIGERATOR
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VACUUM ADIABATIC BODY AND REFRIGERATOR - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240344648 titled 'VACUUM ADIABATIC BODY AND REFRIGERATOR
The abstract describes a patent application for a vacuum adiabatic body that includes a heat exchange pipeline with at least two pipelines passing through a first plate and a second plate to allow a refrigerant to move between inner and outer spaces. A sealing plug is used to allow the heat exchange pipeline to pass through specific points on the plates without contacting a third space.
- The vacuum adiabatic body includes a heat exchange pipeline with multiple pipelines passing through plates.
- A refrigerant can move between inner and outer spaces of the body through the pipelines.
- A sealing plug ensures the pipelines pass through specific points on the plates without contacting a third space.
Potential Applications: - This technology could be used in refrigeration systems to improve energy efficiency. - It may find applications in thermal insulation systems for buildings and industrial equipment.
Problems Solved: - Enhances heat exchange efficiency in vacuum adiabatic bodies. - Prevents contact between the heat exchange pipeline and unwanted spaces.
Benefits: - Improved energy efficiency in refrigeration systems. - Enhanced thermal insulation capabilities for various applications.
Commercial Applications: Title: Innovative Heat Exchange System for Improved Energy Efficiency This technology could be utilized in commercial refrigeration units, HVAC systems, and industrial insulation solutions, leading to cost savings and improved performance in various industries.
Questions about the technology: 1. How does the sealing plug prevent contact between the heat exchange pipeline and the third space?
The sealing plug creates a barrier that ensures the pipeline only passes through specific points on the plates.
2. What are the potential long-term cost benefits of implementing this technology in refrigeration systems?
By improving energy efficiency, this technology can lead to significant cost savings over time.
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.