The Nachi Robot Simulator is a powerful offline programming tool designed to revolutionize the way you program your Nachi robots. It creates a virtual environment that mirrors your actual robotic workspace, allowing you to program, test, and optimize robot movements before deploying them on the physical robot.
The Nachi Robot Simulator is an Excellent for initial studies for installing robots
- Can be used as an operation instruction tool
FD on Desk Regular (option)
- Offline programming
- Working envelope & layout considerations
- Cycle time simulation
- PLC programming editing
FD on Desk Pro (option)
- Create programs from CAD
- Multiple control units supported
Key Features of Nachi Robot Simulator:
- 3D CAD Model Integration: Import 3D CAD models of your robots, tools, workpieces, and surrounding environment to create a realistic virtual workspace.
- Accurate Robot Kinematics and Dynamics: The simulator accurately reflects the movement capabilities and limitations of your Nachi robots, ensuring program compatibility with the real world.
- Collision Detection: Identify potential collisions between robots, tools, workpieces, and other objects within the virtual environment, allowing you to refine your programs for smooth and safe operation.
- Path Optimization Tools: Analyze and optimize robot movements for efficiency and cycle time reduction.
- Intuitive Programming Interface: The user-friendly interface allows you to program robot movements through various methods, including jog mode, teaching pendant emulation, and script-based programming.
- Data Export and Integration: Export robot programs directly from the simulator for seamless deployment on your actual Nachi robots.
Benefits of Offline Programming with Nachi Robot Simulator:
- Reduced Downtime: Program robots offline, eliminating the need to dedicate production time for teaching and debugging programs on the actual robot. This maximizes production efficiency and minimizes downtime.
- Enhanced Safety: Test and refine robot programs in a risk-free virtual environment before implementing them on the shop floor. This eliminates the potential for collisions or damage to equipment during physical programming.
- Improved Program Quality: Simulate robot movements, identify potential interference issues, and optimize program paths for efficiency and accuracy in a controlled virtual space. This leads to smoother, faster, and more reliable robot operations.
- Simplified Training: Train operators on robot programs and procedures within the safe and controlled environment of the simulator. This reduces training time and costs associated with on-robot training.
- Increased Innovation: Experiment with new functionalities and applications for your robots without any risk to production processes. This fosters innovation and allows you to explore the full potential of your robotic investment.
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