Panasonic intellectual property management co., ltd. (20240116693). HEAT RETAINING CONTAINER simplified abstract

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HEAT RETAINING CONTAINER

Organization Name

panasonic intellectual property management co., ltd.

Inventor(s)

Mitoko Ishita of Shiga (JP)

Hideji Kawarazaki of Osaka (JP)

Masahiro Kagimoto of Shiga (JP)

HEAT RETAINING CONTAINER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240116693 titled 'HEAT RETAINING CONTAINER

Simplified Explanation

The heat retaining container described in the patent application has walls with higher heat conductivity in the surface direction compared to the thickness direction, allowing for efficient heat retention within the accommodating space.

  • The heat retaining container has an accommodating space for holding items.
  • The walls of the container have higher heat conductivity in the surface direction than in the thickness direction.
  • The surface direction is orthogonal to the thickness direction and extends along the inner surface of the wall.

Potential Applications

This technology could be used in:

  • Insulated food containers
  • Thermal storage containers for medical supplies
  • Heat retaining packaging for sensitive electronic devices

Problems Solved

  • Efficient heat retention
  • Prevention of heat loss
  • Protection of temperature-sensitive items

Benefits

  • Extended shelf life for perishable goods
  • Reduced energy consumption for heating or cooling items
  • Enhanced safety for temperature-sensitive products

Potential Commercial Applications

  • Food delivery services
  • Pharmaceutical companies
  • Electronics manufacturers

Possible Prior Art

One possible prior art for this technology could be:

  • Insulated food containers with multiple layers of materials for heat retention.

Unanswered Questions

How does the heat conductivity of the walls affect the overall insulation of the container?

The heat conductivity of the walls plays a crucial role in determining the efficiency of heat retention within the container. Higher heat conductivity in the surface direction helps in maintaining the desired temperature for a longer period.

Are there any limitations to the design of the heat retaining container described in the patent application?

While the patent application highlights the benefits of the heat retaining container, it is essential to consider any potential limitations or drawbacks of the design. This could include factors such as cost, manufacturing complexity, or specific use cases where the container may not be as effective.


Original Abstract Submitted

a heat retaining container () includes: an accommodating space (); and walls () including inner surfaces surrounding the accommodating space (). heat conductivity of each wall () in a surface direction is higher than heat conductivity of the wall () in a thickness direction orthogonal to the inner surface of the wall, the surface direction being orthogonal to the thickness direction and extending along the inner surface of the wall.