Adoption of front and rear axle twin drive system! Mass production capable of processing fine holes with a diameter of 0.1 or less.
The "Σ-D Series" is a CNC ultra-high-speed, high-precision drilling machine that employs a front and rear axis twin drive system. It pursues stable processing with a drilling accuracy of within 15μm (3σ). It achieves a high-speed hit rate of approximately 7000 hits/min at the actual processing level. 【Features】 ■ Equipped with PC-based NC "Ez-Panel" ■ GUI (Graphical User Interface) that realizes high operability ■ Adoption of front and rear axis twin drive system ■ Pursues stable processing with a drilling accuracy of within 15μm (3σ) ■ Lineup of 1, 2, and 6-axis machines *For more details, please refer to the PDF materials or feel free to contact us.
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【Specifications (Σ-621D)】 ■ Number of spindles: 6 ■ Processing range for each axis (XYZ): 710・540・70mm ■ Spindle speed: 20,000–200,000 min-1 (Optional: 250,000 min-1・300,000 min-1) ■ Table feed speed: 70 m/min ■ Machine dimensions: 4,315×2,115×1,900 mm ■ Machine weight: 9,200 kg *For more details, please refer to the PDF document or feel free to contact us.
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For more details, please refer to the PDF document or feel free to contact us.
Company information
Rokuroku Smart Technology is a machine tool manufacturer founded in 1903. In 1996, as the demand for further miniaturization and high performance was expected to rise, particularly in the electronic device industry, our company, which had primarily been manufacturing general-purpose machines, named high-precision and high-quality processing for small workpieces "microprocessing" and began the development, manufacturing, and sales of processing machines specifically designed for this purpose, called "microprocessing machines." Microprocessing machines are composed of high-precision positioning with high followability, high-speed spindles with dynamic runout accuracy, and machine structures with minimal thermal displacement and high recoverability. To fully realize their performance and achieve stable high-precision and high-quality processing, we proposed a "four-in-one" concept that emphasizes not only the pursuit of the machine itself but also the provision of optimally developed dedicated tools and CAM software, as well as the importance of creating the optimal environment (temperature and humidity), offering it as a total solution. We focus on achieving "visualization" of the machine's condition through sensors installed at key points of the machine, and we have realized a processing style called "four-in-one + ONE," which allows the machine's latent capabilities to be unleashed through operator intervention.