Automatic Bicycle Industry
Anxin specializes in precision machining and assembly of high-performance components for the automatic bicycle industry. We craft custom parts including lightweight alloy frames, durable brake brackets, and precision gear components, all engineered to enhance riding stability and mechanical efficiency. Backed by strict quality control protocols, our solutions meet the rigorous standards of bicycle manufacturers and aftermarket suppliers worldwide.
Customized Solutions for the Automatic Bicycle Industry
1. Core Drive Component Precision Machining
High-precision CNC machining for e-bike core drive parts (motor housings, gear shafts, brake calipers, pedal spindles) with strict tolerance control, ensuring transmission stability and running safety of e-bike power systems.
2. Lightweight & High-Strength Part Customization
Tailored machining for e-bike special materials (high-grade aluminum alloy, magnesium alloy, carbon steel), optimizing cutting and forming processes to balance the lightweight design of frames/parts and structural strength for load-bearing and anti-fatigue needs.
3. Custom Machining for Functional Accessories
One-stop customized machining for non-standard e-bike functional parts (battery brackets, controller housings, suspension components, handlebar connectors), flexibly meeting personalized design and model upgrading requirements of e-bike manufacturers.
4. Surface Treatment & Durability Customization
Customized industrial surface finishing (anodizing, powder coating, electroplating, sandblasting) for e-bike machined parts, enhancing corrosion resistance, scratch resistance and wear resistance, adapting to outdoor riding and complex environmental use.
5. Assembly-Friendly Structural Machining
Optimize component dimensional accuracy and fitting structure combined with e-bike assembly processes, ensuring seamless matching of precision parts, reducing assembly debugging time and improving the overall production efficiency of e-bike production lines.
Why Choose Us?
Anxin is a reliable machining partner for the e-bike industry, with high-precision core part machining, lightweight high-strength material processing, durable surface treatment and flexible customization, delivering stable and reliable machining solutions for e-bike core components and accessories.
*High-Precision Core Part Machining
Strict tolerance control for motor housings, gear shafts and brake parts, ensuring e-bike transmission stability and riding safety.
*Lightweight & High-Strength Machining
Tailored processing for aluminum/magnesium alloy, balancing e-bike lightweight design and structural load-bearing strength.
*Durable Surface Treatment
Anodizing, powder coating and electroplating, enhancing parts’ corrosion and scratch resistance for outdoor complex use.
*Flexible Customized Production
Support non-standard accessory customization and small-batch production, adapting to e-bike model upgrading and personalized design needs.
Our Manufacturing Services
Anxin offers one-stop manufacturing services, covering precision CNC machining, sheet metal fabrication, 3D printing, and a full range of capabilities. From complex precision components to large structural parts, we deliver efficiently to meet your diverse manufacturing needs.
CNC Machining
Anxin offers services for both metal and non-metal parts from prototypes to on-demand production. You can receive immediate quotations and choose from over 40 materials and more than 10 surface treatments.
CNC Turning
It is usually suitable for precision machining of a variety of materials and complex parts. It has the advantage of composite processing and simplifies subsequent processes.
5 Axis CNC Machining
ANXIN’s 5-axis machining services offer unparallel speed and flexibility. With an extensive range of advanced 5-axis CNC machines and a long list of materials.
Sheet Metal Fabrication
We transform flat sheets of metal into precise, functional components and enclosures through cutting, bending and assembly.
Die Casting
Die casting is an efficient metal casting process in which molten metals (such as aluminum, zinc, magnesium alloy) are injected into precision steel molds at high speed and cooled in a short time.
Injection Molding
Injection molding is a kind of molding process in which molten plastic is injected into a closed mold cavity by high pressure, and plastic products are obtained after cooling and curing.
3D Printing
Bring Your Ideas to Life.We transform digital designs into physical objects, layer by layer. Perfect for prototyping, custom parts, or creative projects.
Wire EDM
We specialize in machining ultra-hard metals and complex shapes using controlled electrical sparks. The ideal solution when traditional CNC cutting is impossible or inefficient.
Automatic Bicycle Industry
Materials & Surface Finishes
Materials
We provide an extensive range of materials — from durable metals and versatile plastics to high-strength composites — to support your diverse project requirements.
View all Materials
Surface Finishes
Our superior surface finishing solutions enhance both the longevity and aesthetic quality of your components, perfectly addressing the needs of applications requiring smooth or custom-textured surfaces.
View all Surface Finishes
Applications of Automatic Bicycle Parts
Our precision-machined e-bike
components deliver superior structural stability and operational reliability,
engineered to meet the performance, safety and durability demands of electric
bicycles and intelligent riding equipment.
- Power Systems: Motor housings, gear shafts and
transmission fittings, ensuring smooth power output and stable operation for
e-bike drive systems.
- Brake & Safety Components: Precision brake caliper parts, rotor
fittings and lock components, guaranteeing responsive braking and riding
safety.
- Frame & Structural Fittings: Lightweight connection parts, bracket
components and pivot shafts, balancing structural strength and e-bike
lightweight design.
- Control & Accessory Parts: Controller housings, sensor mounts and
battery bracket fittings, matching the precise assembly and functional
stability of intelligent e-bike systems.