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Address: Shenzhen Haomaier Technology Co., Ltd
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Phone: tel:+86 19879359717
Who we Serve
Our core clientele consists of system architects in the robotics field and motion control algorithm engineers. They are technical pioneers pursuing high dynamic response, extreme motion precision, and structural lightweighting. They are dedicated to ensuring that every joint, link, and end-effector precisely reproduces commands on a micron-level trajectory in high-speed reciprocating automation scenarios, providing a solid hardware foundation for intelligent manufacturing and automation applications.
Focused Problems —— Manufacturing Bottlenecks: High-Dynamic Performance & Rigidity
These professionals face stringent manufacturing bottlenecks where standard machining capabilities fail to meet high-dynamic performance and high-rigidity requirements:
Balance of Lightweighting & High Rigidity (Material Properties):
Robot joints and links frequently utilize high-strength aluminum alloys (e.g., 7075-T6) or carbon fiber composites to reduce motion inertia and improve response speed. However, these materials are prone to vibration and thermal deformation during high-speed cutting. The core challenge is ensuring structural rigidity under high-frequency loads while reducing weight.
Precision Control of Complex Assembly Surfaces (Geometric Tolerances):
Robot bodies consist of numerous precision parts. Reducer mounting surfaces, bearing seats, and motor housing bores have extremely high requirements for flatness, coaxiality, and position tolerance. Any microscopic machining error is amplified during multi-axis linkage, directly leading to reduced end-effector precision or abnormal noise.
Rapid Iteration & Supply Chain Response (Lead Time):
The robotics industry evolves rapidly, with short product cycles ranging from collaborative robots to AGVs. Traditional machining models often struggle to balance "rapid prototyping" with "consistency in mass production," extending R&D cycles and causing missed market windows.
Our Solutions for Robotic Precision Manufacturing
We utilize advanced 5-axis CNC machining and turn-mill composite processing to deliver solutions that address these specific pain points:
High-Rigidity Machining & Stress Relief:
We employ optimized cutting parameters and intermediate stress relief annealing processes to eliminate internal stress in materials. This ensures the long-term dimensional stability of robot joints, flanges, and actuator housings, preventing fatigue failure.
Micron-Level Tolerance Control:
Our precision machining capabilities allow us to hold tight tolerances (up to ±0.005mm) for precision shafts, bearing bores, and gear housings. This precision is critical for ensuring the absolute accuracy and smooth motion of the robot.
Monolithic Structural Design:
Instead of assembling multiple stamped or cast parts, we use multi-axis CNC technology to machine complex integrated structural components. This reduces assembly time, minimizes assembly errors, and increases the overall structural rigidity of the robot arm.
Surface Finish & Hard Anodizing:
We provide high-quality surface finishing services, including hard anodizing and precision grinding, to enhance the wear resistance and corrosion resistance of aluminum robot parts.
Capabilities & Applications
Reducer & Gearbox Housings: Precision machining of Harmonic Drive housings, RV reducer casings, and planetary gearbox components. We ensure perfect concentricity and surface finish for smooth gear meshing.
Robot Arm & Structural Parts: Manufacturing of robot arms, links, brackets, and end-effectors. We specialize in lightweight aluminum machining and titanium machining for high-strength applications.
AGV & Mobile Robot Chassis: Fabrication of complex AGV chassis, motor mounts, and wheel hubs with high dimensional accuracy for precise navigation.
Precision Shafts & Joints: Production of robotic joint axes, motor shafts, and couplings that require high torque transmission and zero backlash.
Why Partner With Us?
We are not just a machine shop; we are a strategic partner in robotics automation. By combining high-speed CNC machining with rigorous quality inspection (including CMM and roundness testing), we help you build robots that are faster, more accurate, and more durable. Whether you need rapid prototyping for a new cobot design or volume production for industrial arms, we have the capacity to support your growth.