The Nikon Laser Radar combined with Metrologic Group’s software suite, Silma X4 i-Robot and Metrolog X4 i-Robot, provides a flexible and accurate 3D metrology solution, designed for shop floor coordinate measuring machine-quality measurements in short time cycles. This single, intuitive software suite controls both the Laser Radar and the robot, thus simplifying part measurement programming and inspection.
Silma X4 i-Robot is a virtual offline programming and simulation tool capable of generating automatically optimized Laser Radar and robot positions. It takes care of the robot constraints (singularities, over speed, limits) but also of the Laser Radar specifics (line of sight, incidence angle, etc.) to combine optimized and collision-free trajectories. What was a complex programming operation is now as simple as a mouse click.
In addition, maintenance is easy as robot programming and inspection are totally intuitive and flexible. No need to reprogram when modifying a feature or a part. The metrologist simply updates trajectories in the software, as he would do with any conventional CMM.
- Inspection program execution: Metrolog X4 i-Robot controls and synchronizes the motions of the robot and the Laser Radar. It can accommodate any robot cell, including a 7th axis rail or a rotary table axis, or even multiple robots. The solution is independent of the robot accuracy; therefore, robot drift, warm-up and backlash do not influence the results. The system simply executes single or multiple part programs that can easily adapt to different part models or variations. Metrolog X4 i-Robot can be used to simply execute programs created in Silma X4 i-Robot or, such as on a CMM, easily create or update an inspection program combining robot and Laser Radar commands in one single measurement program. These flexibility, ease of use and reliability features are some but not all of this solution’s advantages. They show its capacity to fully integrate the automation process and comply with all the automation constraints and requirements.
- Absolute measurements: The Nikon Laser Radar combined with the Metrolog X4 i-Robot software provides absolute, accurate measurements on the shop floor many times faster than traditional CMM solutions. This allows the customer to increase greatly their measurement throughput giving them much better control over their manufacturing processes.
The Laser Radar mounted on a robot is particularly adapted to the automotive and aerospace industries, where flexibility and efficiency are major productivity factors,” says Nikon Metrology CEO, Hajime Kosawa. “This shop floor solution combined with Metrolog X4 i-Robot guarantees product quality and maximum production effectiveness of the measurement process, directly on the shop floor. I am very glad we started this project with Metrologic Group in 2012 to create this very unique solution.”
Metrolog X4 i-Robot is the first software enabling an easy-to-operate, intuitive, all-in-one robot-based inspection for the Laser Radar,” says Metrologic Group President Bertrand Gili. “It is important to highlight that the X4 i-Robot solution features the same software program to generate and drive both robot trajectories and the Laser Radar, manage the measurements, analyze the data and create customized easy-to-understand reports. Combined with the Laser Radar, it offers a uniquely flexible and extremely robust solution. It allows to managing complex scenarios with a very simple, user oriented interface: this is the result of Metrologic Group’s 35 years of excellence and focus in 3D metrology innovation.”
Related Glossary Terms
Reaction in dynamic motion systems where potential energy that was created while the object was in motion is released when the object stops. Release of this potential energy or inertia causes the device to quickly snap backward relative to the last direction of motion. Backlash can cause a system’s final resting position to be different from what was intended and from where the control system intended to stop the device.
Science of measurement; the principles on which precision machining, quality control and inspection are based. See precision machining, measurement.