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1. Robots specifically designed for use in industrial applications.
2. Industrial robots often lack the ability to adapt and handle dynamic changes in their working environment and tasks efficiently.
3. A task where industrial robots stack products or goods onto pallets for efficient storage or transportation.
4. A safety mechanism that immediately halts the operation of an industrial robot in case of an emergency or potential danger.
5. Physical barriers, shields, or protective devices used to safeguard operators and prevent contact with hazardous components of industrial robots.
6. A task where industrial robots examine products or components to ensure quality and identify defects or anomalies.
7. The process of identifying and evaluating potential hazards and risks associated with industrial robot operations, aiming to implement effective control measures and safety protocols.
8. Technology used in industrial robots to identify potential collisions with objects or humans, enabling the robot to avoid or minimize contact and prevent accidents.
9. The presence of industrial robots in the workplace can pose safety risks to humans, requiring additional safety measures and protocols.
10. A task where industrial robots remove edges, burrs, or imperfections from machined parts or components.
11. The ability of a robot to adapt and perform a wide range of tasks or operate in various environments.
12. A task where industrial robots use heat to join materials together, commonly used in industries like automotive and manufacturing.
13. Precautions and protocols implemented to reduce risks and ensure the well-being of workers when working with industrial robots in potentially hazardous environments.
14. The discipline focused on preventing and minimizing work-related accidents, injuries, and hazards, including those associated with industrial robots.
15. Tools or devices attached to the robotic arm that enable robots to interact with their environment and manipulate objects.
16. The degree of precision and correctness with which a robot can perform its tasks.
17. A task where industrial robots apply paint or coatings to surfaces, streamlining the painting process and ensuring consistency.
18. Industrial robots are designed to perform specific tasks and may lack the ability to handle a wide range of different tasks or adapt to new ones.
19. A task where industrial robots operate and tend to machinery, such as loading/unloading parts, monitoring processes, or performing maintenance.