


Our core manufacturing capabilities (high-precision die-casting, CNC machining, injection molding, mold replication and 3D printing) can offer end-to-end precision manufacturing solutions for the robot automation and artificial intelligence industry, from research and development verification to mass production delivery. During the research and prototype stages, we use 3D printing, CNC and mold replication technologies to quickly achieve design verification and functional sample production, helping customers accelerate innovation and iteration; during the trial production and mass production stages, we provide seamless transitions from mold development, small-batch trial production to large-scale die-casting/injection molding, especially in automotive lightweight components, aerospace key structural parts and medical implants, achieving high precision and high reliability manufacturing. For industries with strict regulations such as aviation and healthcare, we also provide a complete system support covering process certification (such as AS9100/NADCAP), material compliance (such as ISO 13485) and full traceability throughout the process, helping customers overcome technical barriers and compliance challenges, and ultimately efficiently and stably converting cutting-edge designs into marketable products.

Common applications


Cameras

Motors

Sensors

Controllers

Microcontroller

Robotic Arms

Manipulators

Feedback devices


Robot Automation

In the field of robot automation, the "design - prototype - mass production" full-process capability we have built based on precision casting, CNC machining, and rapid prototyping is becoming a key support for enabling robot innovation and implementation. You can provide high-performance manufacturing solutions for core components: through aluminum alloy/magnesium alloy casting to produce lightweight, highly rigid robot joint housings, bases, and dexterous hand structures, meeting their extreme requirements for strength-to-weight ratio; using precise CNC machining to ensure micrometer-level accuracy and reliability of key components of harmonic reducers, sensor brackets, and connection flanges; leveraging 3D printing and mold replication technology to rapidly iterate and verify the designs of robot exterior components, grasping fixtures, and non-standard customized components. Further, you not only provide robot components but also manufacture high-precision assembly fixtures and testing tools for the production process, forming a dual value from "manufacturing robots" to "providing manufacturing services for the robot industry". This field is highly aligned with the automotive industry in terms of cost control, rapid response, and lightweight requirements, and your experience in multi-material application and large-scale production will become a unique advantage for helping robot enterprises move from the laboratory to the broad market.


