Our experienced engineering and production team provides strong technical support throughout every stage. With reliable processes and precise execution, we turn ideas into high-quality products that meet customer requirements flawlessly.
Ultra-High Precision — Dimensional tolerance controlled within ±0.05 mm, ensuring consistent accuracy for complex contours.
High Efficiency & Flexibility — No need for custom molds; instant production switch via CAD file modification, ideal for both prototyping and mass production.
Superior Cut Quality — Smooth cutting edges with minimal burrs, reducing post-processing procedures and improving production efficiency.
Widely used in manufacturing precision components for lithography machines, data center electrical cabinet shells, solar energy bracket structural parts, and medical equipment enclosures.
Designed for frames and support components in industrial equipment, automation systems, and mechanical structures, offering excellent strength, rigidity, and dimensional consistency.
Special-shaped and complex contour sheet metal parts for new energy and industrial equipment, cut without molds to quickly realize personalized structural processing.
By applying heat, pressure, or a combination of both, metal workpieces are melted and fused at the joint. Different welding methods (such as argon arc welding and laser welding) use specific heat sources and shielding gases to form a permanent, metallurgically bonded connection between components.
Diverse Process Adaptability — Supports welding of carbon steel, stainless steel, aluminum alloy, and other materials to meet different structural strength requirements.
High Connection Reliability — Excellent structural stability and load-bearing capacity, suitable for heavy-duty structural components.
Precision & Aesthetics — Laser welding and argon arc welding ensure minimal deformation and clean weld seams, meeting high-end appearance requirements.
Core process for manufacturing industrial automation equipment frames, agricultural machinery structural components, large-scale welded assemblies, and data center aisle containment system connections.
Welded frames for industrial automation and equipment supporting, with stable structure and strong load-bearing capacity, enabling multi-material splicing and welding.
Integrated welded sheet metal assemblies for data centers and medical equipment, with flat welds and small deformation, meeting precision assembly requirements.
Driven by a CNC press brake, the upper mold presses the sheet against the lower mold. Following the preset bending angle and sequence, the sheet undergoes plastic deformation along the bending line, forming the required 3D structure such as right angles, U-shapes, and multi-angle bends.
Precise Forming Control — CNC programming and professional mold adjustment ensure consistent bending angles with tolerance within ±0.5°.
Strong Process Expertise — Skilled technicians master complex multi-step bending processes and solve interference problems in high-precision forming.
Cost-Effective Forming — No need for complex molds, low tooling costs, and fast response to small-batch custom bending needs.
Essential for forming electrical cabinet shells, server racks, RV equipment brackets, medical device housings, and solar energy structural frames.
Precision bending enclosures for electrical cabinets, server racks and equipment protection boxes, with accurate bending angles and seamless splicing, suitable for modular assembly.
Special-shaped bending parts for solar brackets, RV accessories and hardware connectors, with multi-angle bending and continuous bending to realize complex 3D structures.
Using CNC drilling machines or machining centers, the rotating drill bit exerts axial pressure to drill holes. With tapping tools, internal threads are processed to achieve precise positioning and functional hole processing.
Accurate Positioning — Hole position tolerance within ±0.1 mm, matching precision assembly requirements.
Integrated Functional Processing — One-stop processing for drilling, countersinking, counterboring, and tapping, improving efficiency.
Wide Adaptability — Supports various hole sizes and thread specs, meeting connection needs of different assemblies.
Applied to mounting holes for lithography machine brackets, threaded connection holes for electrical cabinet internal components, fixing holes for solar brackets, and assembly holes for industrial automation equipment.
Precision drilling and tapping parts for equipment mounting plates, brackets and connecting plates, with accurate hole positions and high thread engagement, directly suitable for bolt assembly.
Multi-hole positioning sheet metal parts for lithography machine accessories and automation equipment panels, with dense holes and equal high precision, meeting the assembly requirements of precision equipment.
Mold manufacturing involves precision processing of mold cores, cavities, and stamping dies to create customized stamping tools. During production, stamping presses drive the mold to apply high pressure to the metal sheet, enabling rapid blanking, bending, or forming. Regular maintenance ensures long-term dimensional accuracy and service life.
Core of High-Quality Stamping — High-precision molds ensure consistent accuracy of mass-produced parts and reduce defects.
Mass Production Efficiency — Specialized molds enable high-speed stamping and significantly improve capacity for large orders.
Long-Term Cost Savings — Professional maintenance extends mold life and reduces replacement frequency and long-term costs.
Core support for mass production of automotive sheet metal parts, agricultural machinery stamping components, standard electrical cabinet accessories, and high-volume solar bracket blanks.
Custom sheet metal stamping molds for automobile, home appliance and standard parts, including blanking molds, bending molds and punching molds, suitable for mass stamping production.
Mass sheet metal stamping parts processed by custom stamping molds, with uniform dimensions and high production efficiency, suitable for large-scale production of auto parts and electrical accessories.
High-frequency current generates pulsed discharge between the moving metal wire and the workpiece. The high temperature in the current locally melts and vaporizes the metal of the workpiece, ultimately achieving material removal.
Widely used in mold making, mechanical parts, aerospace, electronic devices, and medical equipment, especially for high-precision and complex geometry parts machining.
Performs well in cutting complex curves, holes, and irregular-shaped parts.
Customized according to requirements
Per customer design
