Gear Design
Gears are the core components of mechanical transmission systems.
The tooth profile, module, material, and heat treatment method are selected based on the transmission ratio, torque, speed, and operating environment to ensure smooth transmission and durability. The challenge lies in balancing strength and contact efficiency in the tooth profile, and ensuring low noise and high reliability transmission performance through precision milling, hobbing, and grinding of the tooth pitch, tooth surface roughness, and center distance.
Multi-Gear Structure Development: Specializing in the design and development of helical gears, spur gears, internal gears, planetary gears, worm gears, differential gears, and special structures, suitable for high-precision machinery and heavy-duty applications.
Materials and Heat Treatment Optimization: Based on application requirements, high-strength alloy steel, powder metallurgy, stainless steel, and engineering plastics are selected, combined with surface strengthening technologies such as carburizing, nitriding, and induction hardening to improve wear resistance and fatigue life.
Transmission Efficiency and Dynamic Testing: Dedicated dynamic testing equipment is used to inspect the performance characteristics of gear sets under dynamic meshing conditions, ensuring that accuracy requirements meet expectations.
Quality Management: Two-dimensional and three-dimensional measuring equipment are used to inspect gear dimensional tolerances and meshing tolerances to ensure that products meet the highest quality standards.
Product introduction
Product introduction