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Views: 0 Author: Site Editor Publish Time: 2025-06-06 Origin: Site
High-Precision Marble Platforms and Three-Axis Gantry Systems: The Core of Precision Manufacturing
High-precision marble platforms, marble bed components, and three-axis gantry systems are core components in the field of precision manufacturing. Their collaborative application enables machining and inspection with micron-level accuracy. The following introduces them from the aspects of technical characteristics, structural design, application scenarios, and industry development:
Made from natural Jinan Green marble or artificial marble, they feature extremely low linear expansion coefficients (4.6×10⁻⁶/℃) and high compressive strength (2,290–3,750 kg/cm²), ensuring dimensional stability under temperature fluctuations and heavy loads. Their flatness accuracy can reach National Standard Grade 00 (2×(1+d/1000)μm, where d is the diagonal length), and some high-end products even achieve Grade 000, meeting nanometer-level measurement requirements.
Through mechanical processing, manual fine grinding, and nano-coating technology, the surface roughness can reach Ra0.1–0.8μm, significantly improving wear resistance and corrosion resistance. Compared with cast iron platforms, marble platforms are non-magnetic, non-rusting, require no lubrication maintenance, and have a service life of 50–100 years.
Traditional natural marble beds are prone to cracking. Modern designs enhance structural strength by embedding iron parts in concave grooves, supplemented with special adhesives and reinforcing bolts, enabling them to withstand the cutting forces of large machine tools.
The assembly of beds with guides and lead screws requires strict calibration to ensure the straightness and perpendicularity of each axis movement.
They are divided into fixed-beam type (crossbeam fixed, worktable moving), moving-beam type (crossbeam lifting, worktable moving back and forth), and moving-column type (gantry frame moving, worktable fixed). Driven by servo motors via ball screws or linear motors, combined with real-time synchronous interpolation technology, they realize the coordinated movement of the X, Y, and Z axes. For example, three-axis gantry robots controlled by PLC can complete complex tasks such as handling and welding with a positioning accuracy of ±0.02mm.
High-rigidity gantry frames and large-size linear guides can withstand inertial forces during high-speed movement, suitable for scenarios requiring high dynamic response such as laser cutting and semiconductor packaging.
• Precision Machining: Three-axis gantry machining centers are used for mold manufacturing. For example, GF machines can process workpieces weighing up to 1,000 kg, achieving seamless switching between light and heavy cutting.
• Inspection and Measurement: Marble platforms serve as reference surfaces for detecting the form and position tolerances of optical components and precision parts.
• Automated Production: Three-axis gantry robots integrated with vacuum screw suction systems are used for automatic screw locking in 3C products. Through PLC index registers, they enable fast teaching and coordinate memory for 50 points.
• Higher Precision: Nano-coating technology further reduces surface friction coefficients, improving measurement smoothness.
• Intelligence: Integrating AI algorithms to optimize motion trajectories, intelligent chip management systems, and CNC systems enable real-time monitoring of the machining process.
• Green Manufacturing: The popularization of artificial marble reduces natural stone consumption, while modular design reduces maintenance costs, aligning with environmental protection trends.
