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A wide range of medical devices, digital imaging or scanning applications, and laboratory automation rely on linear motion. For laboratory automation, the need for increased productivity, higher accuracy, and better reproducibility of experimental results are driving the increased use of linear motion. Sophisticated medical devices and digital imaging or scanning applications are increasingly relying on linear motion control systems which have become crucial for the successful development, progress, and deployment of these vital medical tools. Here are some examples from PBC Linear:
Artists Bruce Rosenbaum and Ben Cowden earned film credits recently for prop design on the PBS documentary The Lie Detector: A Truly Unbelievable Story. This ambitious historical account of real-life inventors, marketers, law enforcement professionals, and snake oil salesmen traces the interconnected lives of John Larson, William Marston and Leonarde Keeler.
When motion system designers need complex, high-speed, multiaxis motion, they might first think of elaborate, prepackaged robot arms. Or, if they need only a few axes, they might configure a separate profile or round rail for each axis. But hiding between those options is simple and proven ball spline technology. This multiaxis motion solution has existed for years and is still highly relevant to today’s complex motion schemes. Ball splines use a unique architecture integrating rotary and linear motion on a single shaft. This gives them more flexibility to implement complex motion schemes in tighter spaces, providing a two-for-one deal in motion control.