SHIELDED ELECTRICALLY CONDUCTIVE PATH

Organization Name

SUMITOMO ELECTRIC INDUSTRIES, LTD.

Inventor(s)

Kazuaki Hamada of Osaka (JP)

SHIELDED ELECTRICALLY CONDUCTIVE PATH - A simplified explanation of the abstract

This abstract first appeared for US patent application 18576096 titled 'SHIELDED ELECTRICALLY CONDUCTIVE PATH

The abstract describes a patent application where a sleeve is crimped to an outer peripheral surface of an insulation coating, with a crimping portion of an outer conductor of a shield terminal crimped to the sleeve. Inner and outer peripheral side locking portions are formed to secure the sleeve in place.

• A sleeve is crimped to an outer peripheral surface of an insulation coating.
• The crimping portion of an outer conductor of a shield terminal is crimped to the sleeve.
• Inner and outer peripheral side locking portions are formed to secure the sleeve in place.
• The inner peripheral side locking portion is located more radially inward than a region surrounding the sleeve.
• The outer peripheral side locking portion is locked to the inner peripheral side locking portion.

Potential Applications: - This technology can be used in electrical wiring applications where secure connections are required. - It can be applied in industries that require reliable and durable cable connections.

Problems Solved: - Provides a secure and reliable connection between the sleeve and the outer conductor of a shield terminal. - Ensures the sleeve is properly locked in place to prevent disconnection.

Benefits: - Improved reliability in electrical connections. - Enhanced durability of cable connections. - Simplified installation process.

Commercial Applications: Title: Secure Sleeve Crimping Technology for Enhanced Cable Connections This technology can be utilized in the manufacturing of cables for various industries such as telecommunications, automotive, and aerospace. It can improve the overall quality and reliability of cable connections, leading to better performance and longevity.

Questions about Secure Sleeve Crimping Technology: 1. How does this technology improve the reliability of cable connections? - This technology enhances the security of cable connections by ensuring the sleeve is properly crimped and locked in place. 2. What industries can benefit from the use of this technology? - Industries such as telecommunications, automotive, and aerospace can benefit from the improved reliability and durability of cable connections provided by this technology.

Original Abstract Submitted

A sleeve surrounds an exposed part extending forward of the sheath, out of the shield layer, and is crimped to an outer peripheral surface of the insulation coating. A crimping portion of an outer conductor of a shield terminal is crimped to the sleeve while surrounding the sleeve and a region behind the sleeve, out of the insulation coating. An inner peripheral side locking portion and an outer peripheral side locking portion are formed in a region covering the insulation coating, out of the crimping portion. The inner peripheral side locking portion is located more radially inward than a region surrounding the sleeve, out of the crimping portion. The outer peripheral side locking portion is locked to the inner peripheral side locking portion while being accommodated in a recess in an outer peripheral surface of the inner peripheral side locking portion.