With deep expertise in precision manufacturing, TTD delivers efficient, accurate, and cost-effective machining services for automation systems and robotics. Adhering to strict industry standards, we ensure quality from material selection to final delivery, accelerating the innovation of intelligent automation.
At the crossroads of precision engineering and robotic innovation, TTD transforms components into performance drivers—streamlining your path from concept to production.
Across ultra – precision machining, material mastery, and advanced process synergy, TTD embeds precision and innovation into every automation & robotics component. We don’t just build parts—we engineer reliability, durability, and performance, turning manufacturing capabilities into the driving force behind smarter, more capable robotic systems.
Precision is automation and robotics’ lifeline. TTD refines processes for extreme precision: robot joints with ±0.001mm tolerance enable smooth motion (e.g., surgical robotics, electronics assembly). 5 – axis machining + laser – guided measurement shape complex parts like aerodynamic links in sorting robots. From harmonic drive gears (Ra ≤ 0.2μm) to servo housings, details minimize friction, wear, and extend system life.
Harsh automation environments need robust materials. TTD uses: carbon – fiber polymers for logistics cobots (high strength – to – weight, less energy, faster speed); heat – treated alloy steel grippers for heavy – duty tasks (thousands of deformation – free grasps). Smart materials like shape – memory alloys in robotic fingers self – adjust to grip shapes, pushing boundaries for smarter robots.
Manufacturing fuses craft and tech: precision casting for large robot bases; 3D printing for new end – effectors. Automated CNC turning ensures consistent mass – produced axles. For custom parts (e.g., unique sensor mounts), AI – guided manual machining balances cost and innovation, tackling bold designs.
From industrial production lines to public services, from general scenarios to niche demands, TTD’s application – oriented solutions always focus on “real – scenario adaptability”. Instead of exaggerated specs, we rely on precise manufacturing, reliable materials, and flexible designs to make automation and robotics “practical from day one”. Whether for production line efficiency, daily service optimization, or niche scenario breakthroughs, there’s always a fitting component solution — truly acting as a “down – to – earth assistant” for industries to reduce costs, boost efficiency, and overcome bottlenecks.
TTD supplies wear – resistant gripper bushings, precision links and servo axes for stable 5 – 50kg workpiece handling (1200 transfers/hour) and ±0.1mm screw – locking accuracy, suitable for multi – model production.
Commercial cleaners use TTD’s waterproof seals and radar brackets for IP67 protection and ≤2mm obstacle avoidance; delivery robots with our UV – resistant frames and shock – absorbing shafts stably carry 15kg packages outdoors.
E – commerce sorters with TTD’s wear – resistant rollers and bearing sleeves run at 0.5m/s with ≤65dB noise; AGVs use our forged drive wheels and balanced shafts for < 5mm error under 2 – ton load, suitable for 24 – hour transfers.
PV lines use TTD’s anti – static suction cups and vacuum flanges for < 0.1% wafer chipping; cold – chain stackers with our low – temperature steel forks and anti – freezing sleeves accurately fork 1 – ton goods at – 25℃.
Ready to take your robotic systems and automated production lines to new peaks in performance, reliability, and innovation?
We support small – batch customization with a minimum order quantity as low as 10 units. Our flexible production lines can meet both pilot testing and mass production needs without compromising quality.
Using additive manufacturing and rapid processing technology, prototypes of regular components can be delivered within 2 – 4 weeks. The specific time depends on part complexity and material selection.
Yes. Our engineers participate in design – for – manufacturing (DFM) consultation at the initial stage of the project, providing suggestions on material adaptation, structural simplification, and cost control to balance innovation and mass production feasibility.
All components undergo dimensional accuracy inspection (e.g., CMM measurement), functional simulation testing, and environmental adaptability verification. We also support quality control in accordance with industry standards such as ISO 13485 and ISO 44001.
Yes. Automated production equipment combined with AI – optimized processing processes ensures stable dimensional tolerances and performance parameters of mass – produced components. Quality remains consistent even when production volume increases from 100 to 10,000 units.
