SHIELDED ELECTRICALLY CONDUCTIVE PATH

Organization Name

Autonetworks Technologies, 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 in a region covering the insulation coating, with the outer peripheral side locking portion locked to the inner peripheral side locking portion.

• Sleeve surrounds an exposed part extending forward of the sheath
• Crimping portion of an outer conductor crimped to the sleeve
• Inner and outer peripheral side locking portions formed in a region covering the insulation coating
• Inner peripheral side locking portion located more radially inward than a region surrounding the sleeve
• Outer peripheral side locking portion locked to the inner peripheral side locking portion

Potential Applications: - Electrical wiring systems - Telecommunications equipment - Automotive wiring harnesses

Problems Solved: - Secure connection of shield terminals - Protection of insulation coating - Enhanced durability of electrical connections

Benefits: - Improved electrical conductivity - Increased reliability of connections - Simplified assembly process

Commercial Applications: Title: Enhanced Shield Terminal for Electrical Wiring Systems This technology can be used in various industries such as telecommunications, automotive, and electronics for secure and reliable electrical connections.

Prior Art: Readers can explore prior patents related to shield terminals, crimping techniques, and insulation coating technologies to understand the evolution of this innovation.

Frequently Updated Research: Stay updated on advancements in crimping technology, insulation materials, and electrical connection methods to enhance the performance of shield terminals.

Questions about Enhanced Shield Terminal for Electrical Wiring Systems: 1. How does the sleeve improve the durability of the electrical connection? The sleeve provides additional protection to the exposed part of the shield terminal, enhancing its durability and reliability.

2. What are the potential challenges in implementing this technology in different industries? Implementing this technology may require adjustments in manufacturing processes and compatibility with existing equipment in various industries.

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.