VACUUM ADIABATIC BODY AND METHOD FOR MANUFACTURING THE SAME

Organization Name

LG ELECTRONICS INC.

Inventor(s)

Wonyeong Jung of Seoul (KR)

Deokhyun Youn of Seoul (KR)

Jangseok Lee of Seoul (KR)

VACUUM ADIABATIC BODY AND METHOD FOR MANUFACTURING THE SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 18034778 titled 'VACUUM ADIABATIC BODY AND METHOD FOR MANUFACTURING THE SAME

Simplified Explanation

The abstract describes a vacuum adiabatic body that includes two plates sealed together with a gap in between. It may also include a support to maintain a vacuum space and a heat transfer resistor to reduce heat transfer between the plates. Additionally, there is a component coupling portion for attaching components to the plates. The design of the plates includes curved portions with a minimum thickness to improve the adiabatic effect.

• The vacuum adiabatic body consists of two plates sealed together with a gap in between.
• A support is included to maintain a vacuum space within the body.
• A heat transfer resistor is used to minimize heat transfer between the plates.
• The body has a component coupling portion for attaching components.
• The plates have curved portions with a minimum thickness to enhance the adiabatic effect.

Potential Applications

This technology could be applied in various fields where thermal insulation is crucial, such as:

• Building construction: Improved insulation for walls, roofs, and windows.
• Energy storage: Enhancing the efficiency of thermal energy storage systems.
• Electronics: Thermal management for electronic devices and components.
• Transportation: Insulation for vehicles to reduce energy consumption.

Problems Solved

The vacuum adiabatic body addresses the following problems:

• Heat transfer: Minimizes heat transfer between the plates, improving thermal insulation.
• Energy efficiency: Enhances the adiabatic effect, reducing energy consumption.
• Component integration: Provides a component coupling portion for easy attachment of components.

Benefits

The benefits of this technology include:

• Improved thermal insulation: The vacuum adiabatic body reduces heat transfer, leading to better insulation performance.
• Energy savings: By minimizing heat transfer, less energy is required for heating or cooling applications.
• Versatility: The design allows for easy integration of components, making it adaptable to various applications.

Original Abstract Submitted

A vacuum adiabatic body according to an embodiment may include a first plate, a second plate, and a seal that seals a gap between the first plate and the second plate. Optionally, the vacuum adiabatic body according to an embodiment may include a support that maintains a vacuum space. Optionally, the vacuum adiabatic body according to an embodiment may include a heat transfer resistor that reduces an amount of heat transfer between the first plate and the second plate. Optionally, the vacuum adiabatic body may include a component coupling portion connected to at least one of the first or second plate so that a component is coupled thereto. Optionally, at least a portion of the plurality of curved portions provided by the second plate and the side plate may have a minimum thickness value among the second plate and the side plate. Accordingly, an adiabatic effect may be improved.