YiHe steel balls, known for their high precision, high strength, low friction, and fatigue resistance, have been widely applied to critical components of industrial robots. Based on customer use cases and data gathered from publicly available sources, the following summarizes the key applications of micro steel balls in industrial robots:

1. Joint Drive Systems

The joint drive system is the core of industrial robots, and its performance directly determines the robot's flexibility and operational accuracy. Micro steel balls are extensively used in the rolling bearings and sliding bearings of joint transmissions to provide stable support and smooth motion.

2. Linear Guide Systems

Linear guide systems enable high-precision linear motion for robot end effectors, making them an essential component in high-speed operations. Micro steel balls are commonly integrated into linear slides and rolling elements to optimize frictional performance and motion stability in the guide rails.

3. End Effectors

End effectors directly interact with objects, demanding exceptional flexibility, response speed, and precision in their movements. Micro steel balls are employed in the joint bearings and gripping mechanisms of end effectors to enhance gripping actions and mechanical performance.

4. Harmonic Drives

Harmonic drives are a critical component of robotic transmission systems, converting high-speed input into precise low-speed output. Micro steel balls are utilized in the flexible bearings and wave generators of harmonic drives to improve transmission efficiency and reduce wear.

5. Suspension and Shock Absorption Systems

In scenarios involving heavy-duty transportation or high-speed operation, industrial robots require effective suspension and shock absorption systems to mitigate vibrations and absorb impact forces. Micro steel balls are employed in shock absorbers to optimize load distribution and enhance impact absorption.

Performance Enhancements Provided by YiHe Steel Balls

Precision and Efficiency

The high precision and low friction properties of YiHe steel balls significantly enhance the accuracy and efficiency of robotic operations.

Stability and Reliability

Optimized frictional and wear resistance characteristics ensure stable and reliable performance of key components during prolonged operation.

Adaptability and Durability

Superior corrosion resistance and fatigue performance enable YiHe steel balls to function effectively in extreme environments and challenging applications.

Cost Optimization

Reduced wear and maintenance requirements lower operating costs, extending the service life of robotic systems.

YiHe steel balls provide advanced solutions to meet the growing demands of modern industrial robots, contributing to improved efficiency, durability, and reliability in diverse application scenarios.