Purpose: <\\/strong>Provide multi-axis motion support with lightweight, high-strength structure.<\\/p> Challenge:<\\/strong> Balance torque capacity, stiffness, and compact size while allowing frequent assembly cycles.<\\/p> Manufacturing:<\\/strong>CNC machining of aluminum 6061-T6 \\/ 7075-T6 for structural parts 5-axis machining for asymmetric surfaces and motor integration Optional SLM 3D printing for lattice-optimized lightweight design<\\/p> Outcome: <\\/strong>Durable shoulder joint prototypes validated for load, alignment, and mechanical efficiency.<\\/p> Purpose:<\\/strong> Support actuators and linkages while maintaining lightweight and stiffness.<\\/p> Challenge: <\\/strong>Achieve precise geometry for bearing and motor fit, while minimizing mass.<\\/p> Manufacturing:<\\/strong>Hybrid fabrication using sheet metal frames and machined joints <\\/p> Surface finishes:<\\/strong> anodizing, sandblasting, and polishing for aesthetics and wear resistance Tolerance verification through CMM and optical inspection<\\/p> Outcome: <\\/strong>Precision structural brackets optimized for balance, rigidity, and assembly accuracy.<\\/p> Purpose:<\\/strong> Enable robots to handle delicate or variable-shaped objects with precision.<\\/p> Challenge:<\\/strong> Design parts that combine strength, accuracy, and flexibility for soft-touch or adaptive gripping.<\\/p> Manufacturing: <\\/strong>CNC machining of aluminum and PEEK for mechanical strength Insert or overmolded soft TPU fingers for compliant surfaces Integration of quick-change couplers and mounting interfaces<\\/p> Outcome: <\\/strong>Functional gripper prototypes tested for accuracy, load capacity, and repeatability.<\\/p>
产品详情
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