Robotic

Service Overview

OEMach specializes in the machining of aerospace components, leveraging advanced technologies and rigorous standards to deliver high-precision, high-strength parts for the industry. The aerospace components we manufacture encompass fuselage structural parts, engine components, and more, ensuring that every part meets the stringent requirements of aviation standards. From precision machining to the forming of complex structures, OEMach leverages outstanding craftsmanship and rigorous quality control to support the advancement of aerospace, safeguarding flight safety at every stage.

Form

Material Process

Process planning is carried out according to the design requirements of the robot, determining the appropriate machining methods and process flow. For metal parts, forging or casting is typically used to produce the blanks, which are then finished to precise dimensions and surface quality through machining. For plastic or composite parts, methods such as injection molding and 3D printing are commonly employed. Throughout the manufacturing process, high-precision fixtures and measuring equipment are used to ensure dimensional accuracy, while heat treatment and surface finishing processes are applied to enhance the mechanical properties and wear resistance of the parts.

Robot Precision Parts Processing Services_Robot Joint/Gear/Shell Customization Services_OEMach

Processing Materials

Processing materials include: aluminum alloy, alloy steel, engineering plastics, carbon fiber composite materials, etc

Aluminum alloy

With its low density, relatively high strength, and excellent corrosion resistance, aluminum alloy is a commonly used material in robotics. For example, 6061 aluminum alloy is widely utilized in robotic arms and frames, effectively reducing the overall weight of the robot while maintaining structural strength and lowering energy consumption.

Alloy steel

Grades such as 45 steel and chromium-molybdenum alloy steel offer high strength and excellent toughness. After proper heat treatment, they are used for manufacturing critical transmission components in robots, such as gears and shafts, ensuring reliability under heavy loads and frequent motion.

Engineering plastics

Materials like polycarbonate (PC) and polyoxymethylene (POM) feature low weight, self-lubricating properties, and low noise. These plastics are commonly used to produce non-critical load-bearing parts in robots, such as casings and linear guide sliders. This not only reduces costs but also minimizes friction between moving components.

Carbon fiber composites

Known for their high specific strength and high specific modulus, these materials significantly reduce weight while maintaining superior strength. They are often used for key load-bearing components in high-end robots, such as the arms of large industrial robots, thereby enhancing both the speed and precision of robotic movement.

Application Fields

The application areas include: industrial manufacturing, logistics and warehousing, medical field, service industry, etc

Industrial manufacturing: In industries such as automotive and electronics manufacturing, components like joints, robotic arms, and bases for industrial robots are produced. The high-precision machining of these parts ensures the accuracy and stability of industrial robots in tasks such as assembly, welding, and painting, ultimately increasing production efficiency and product quality.

Logistics and warehousing: We manufacture components such as chassis, drive wheels, and transmission mechanisms for logistics robots (including AGVs and sorting robots), enabling automated material handling and sorting operations in the logistics and warehousing sector. This improves logistics efficiency and reduces labor costs.

Medical field: We produce precision instrument components, joint connectors, and support structures as well as moving parts for surgical robots and rehabilitation robots. The high precision and reliability of these parts ensure the safety and effectiveness of medical robots during surgical procedures and rehabilitation therapy.

Service industry: We machine casings, transmission assemblies, and sensor mounting parts for service robots, such as robotic vacuum cleaners and reception robots. High-quality parts manufacturing enhances the appearance and operational stability of service robots, providing users with an improved service experience.