Robot
• Application scenarios:
Industrial robots: Industrial robots are widely used in modern manufacturing, especially in industries such as automobiles, home appliances, and electronics. Robots obtain high-precision position feedback through magnetic grid technology, thereby achieving precise tasks such as welding, spraying, and assembly.
Specific application: In the automotive production line, robots are responsible for body welding, using magnetic grid rulers to obtain accurate position and angle data, ensuring that welding points are accurate and consistent, meeting strict quality standards.
Example: In the electronic assembly industry, magnetic grid technology is used to control the precise positioning of robots in the assembly of small components, ensuring that product components are error free.
Humanoid robots: Humanoid robots are widely used in fields such as services, healthcare, and education. Magnetic grid technology provides high-precision feedback to assist robots in performing complex human behaviors such as walking, retrieving items, and communicating with humans.
Specific applications: In hospitals, humanoid robots are used for ward services, and magnetic grid technology precisely controls the robot's arm and leg movements to provide services to patients.
Example: In some hospitals in Japan, robot nurses use magnetic grids to precisely control their limb movements and perform daily tasks such as delivering medication to patients and providing care.
Mobile Robots (AGV/AMR): Automated Guided Vehicles (AGVs) and Autonomous Mobile Robots (AMRs) are widely used in the warehousing and logistics industry, with magnetic grid systems providing precise navigation and positioning to ensure that materials can be quickly and accurately transported to designated locations.
Specific application: In intelligent warehouses, AGVs use magnetic grid feedback systems to accurately adjust their paths, avoiding collisions with other AGVs or obstacles and improving logistics efficiency.
Example: In Amazon's automated warehouse, AGV robots optimize the storage, retrieval, and classification of warehouse goods through a magnetic grid navigation system.
• Technical features:
Micron level accuracy: The magnetic grid ruler provides extremely high precision, ensuring the accuracy of the robot in precision operations.
Anti interference capability: Magnetic grid technology is not affected by external factors such as electromagnetic interference and vibration, ensuring the stability of robots in complex environments.
Real time positioning and feedback: The magnetic grid system can provide real-time position information, ensuring that the robot can dynamically adjust its actions and perform efficient and accurate tasks.