ELECTRONIC DEVICE AND POWER CONVERSION DEVICE

Organization Name

Honda Motor Co., Ltd.

Inventor(s)

Daiki Kudo of Hitachinaka-shi (JP)

Yoshiharu Tanabe of Hitachinaka-shi (JP)

Kohei Nakano of Hitachinaka-shi (JP)

Hiroyuki Nakade of Hitachinaka-shi (JP)

Kenichi Sasaki of Utsunomiya-shi (JP)

Takahiro Uneme of Tokyo (JP)

Ryuta Wakabayashi of Tokyo (JP)

ELECTRONIC DEVICE AND POWER CONVERSION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18524763 titled 'ELECTRONIC DEVICE AND POWER CONVERSION DEVICE

The abstract describes an electronic device with a supply refrigerant pipe connected to an opening end, featuring a connection opening end directly linked to the opening end. The refrigerant pipe includes a reduced diameter flow path where the flow path area decreases with distance from the connection opening end, leading to a small diameter flow path on the opposite side of the connection opening end. The main body case contains a case-side reduced diameter flow path with decreasing flow path area from the opening end, and a flat flow path flatter than the small diameter flow path, connected to the case-side reduced diameter flow path.

• Supply refrigerant pipe connected to an opening end
• Connection opening end directly linked to the opening end
• Refrigerant pipe-side reduced diameter flow path with decreasing flow path area
• Small diameter flow path on the opposite side of the connection opening end
• Main body case with a case-side reduced diameter flow path and a flat flow path
• Flow path areas decrease with distance from the opening end

Potential Applications: - Air conditioning systems - Refrigeration units - Heat exchangers

Problems Solved: - Improved refrigerant flow efficiency - Enhanced cooling performance - Space-saving design

Benefits: - Increased energy efficiency - Reduced operating costs - Compact and streamlined design

Commercial Applications: Title: "Efficient Refrigerant Flow Technology for HVAC Systems" This technology can be utilized in HVAC systems for residential, commercial, and industrial buildings, offering improved cooling performance and energy efficiency.

Prior Art: Further research can be conducted in the field of refrigerant flow optimization in electronic devices and HVAC systems to explore existing technologies and innovations.

Frequently Updated Research: Stay updated on advancements in refrigerant flow technology, HVAC system efficiency, and electronic device design to enhance the performance of this innovation.

Questions about Refrigerant Flow Technology:

1. How does this technology improve the efficiency of refrigerant flow in electronic devices? This technology enhances refrigerant flow efficiency by optimizing the flow path design and reducing energy consumption.

2. What are the potential applications of this innovation beyond electronic devices? This innovation can be applied in various industries such as automotive, aerospace, and medical equipment for improved cooling and thermal management.

Original Abstract Submitted

An electronic device includes a supply refrigerant pipe that is connected to an opening end. The supply refrigerant pipe has a connection opening end that is directly connected to the opening end, a refrigerant pipe-side reduced diameter flow path in which flow path area decreases with increasing distance from the connection opening end, and a small diameter flow path connected to an end portion of the refrigerant pipe-side reduced diameter flow path on a side opposite to the connection opening end A main body case has, as parts of the refrigerant flow path, a case-side reduced diameter flow path in which flow path area decreases with increasing distance from the opening end, and a flat flow path formed in a shape flatter than the small diameter flow path and connected to an end portion of the case-side reduced diameter flow path on a side opposite to the opening end.