18406313. DRIVING TOOL simplified abstract (MAKITA CORPORATION)
Contents
DRIVING TOOL
Organization Name
Inventor(s)
Norikazu Baba of Anjo-shi (JP)
Kiyonobu Yoshikane of Anjo-shi (JP)
Toshiya Murakami of Anjo-shi (JP)
DRIVING TOOL - A simplified explanation of the abstract
This abstract first appeared for US patent application 18406313 titled 'DRIVING TOOL
The abstract of the patent application describes a lock member that is slidably provided in a pusher to restrict the ON operation of a contact arm by engaging a locking portion of the contact arm.
- The lock member is slidably provided in a pusher.
- It restricts the ON operation of a contact arm by engaging a locking portion.
- The lock member is relatively retracted against a lock biasing member when pressed against the contact arm.
Potential Applications: - This technology could be used in various mechanical systems where controlled movement of components is required. - It can be applied in industrial machinery to ensure safety and prevent accidental activation of certain functions.
Problems Solved: - Prevents unintended activation of the contact arm. - Enhances the overall safety and efficiency of mechanical systems.
Benefits: - Improved safety measures in mechanical systems. - Enhanced control over the operation of driven members. - Increased reliability and performance of industrial machinery.
Commercial Applications: Title: "Enhancing Safety and Control in Industrial Machinery with Lock Member Technology" This technology can be utilized in manufacturing plants, assembly lines, and other industrial settings to improve safety protocols and optimize the performance of machinery.
Questions about Lock Member Technology: 1. How does the lock member prevent the ON operation of the contact arm? - The lock member engages a locking portion of the contact arm to restrict its operation, ensuring controlled movement of components. 2. What are the potential applications of this technology beyond industrial machinery? - This technology can also be applied in automotive systems, robotics, and other fields where precise control over mechanical components is essential.
Original Abstract Submitted
A lock member is slidably provided in a pusher that pushes driven members in a feed direction. An engaging portion of the lock member engages a locking portion of a contact arm to restrict an ON operation of the contact arm. The lock member is relatively retracted against a lock biasing member when the engaging portion is pressed against the contact arm.
