18746066. OUTPUT ELECTRODE PROTECTIVE STRUCTURE, BATTERY AND POWER CONSUMING DEVICE simplified abstract (CONTEMPORARY AMPEREX TECHNOLOGY CO., LIMITED)
Contents
OUTPUT ELECTRODE PROTECTIVE STRUCTURE, BATTERY AND POWER CONSUMING DEVICE
Organization Name
CONTEMPORARY AMPEREX TECHNOLOGY CO., LIMITED
Inventor(s)
OUTPUT ELECTRODE PROTECTIVE STRUCTURE, BATTERY AND POWER CONSUMING DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 18746066 titled 'OUTPUT ELECTRODE PROTECTIVE STRUCTURE, BATTERY AND POWER CONSUMING DEVICE
The abstract describes an output electrode protective structure for a battery, which includes a rotatable protective cover that automatically switches between open and closed states, eliminating the need for manual closure by the operator.
- Output electrode protective structure for batteries
- Includes a rotatable protective cover
- Cover switches between open and closed states automatically
- Restoring member applies force to switch cover states
- Eliminates manual closure by operator
Potential Applications: - Battery technology - Electronic devices - Automotive industry
Problems Solved: - Eliminates the need for manual closure of protective cover - Ensures protection of output electrode - Enhances user convenience
Benefits: - Improved safety - User-friendly design - Automatic protection mechanism
Commercial Applications: - Battery manufacturing companies - Electronic device manufacturers - Automotive industry suppliers
Questions about Output Electrode Protective Structure: 1. How does the restoring member work to switch the protective cover between open and closed states? 2. What are the potential cost implications of implementing this technology in battery production?
Frequently Updated Research: - Stay updated on advancements in battery safety technology and automatic protection mechanisms.
Original Abstract Submitted
Provided are an output electrode protective structure, a battery and a power consuming device. The output electrode protective structure includes: an output electrode base having a mounting face; a protective cover mounted to the output electrode base, the protective cover being rotatable relative to the output electrode base to switch between an open state in which the mounting face is exposed and a closed state in which the mounting face is concealed; and a restoring member mounted to the output electrode base, the restoring member being configured to apply an acting force to the protective cover to switch same from the open state to the closed state. With the arrangement of the restoring member, an operator does not need to close the protective cover manually after completing an operation, and the protective cover can automatically return to the closed state under a restoring effect of the restoring member.