What are the advantages of having steel balls on both the inner and outer rings for the overall assembly?

The inner and outer rings in the Fully Automatic Micro Bearing Assembly Instrument are equipped with steel balls. This design optimizes the overall bearing assembly process. The primary advantage of this design is its ability to evenly distribute the load on the bearings. By evenly distributing steel balls in the inner and outer rings, the bearing capacity is improved, making the bearing more stable during operation. This evenly distributed design helps reduce vibration and noise, improving bearing efficiency and performance. At the same time, the durability of the bearing is also enhanced because the load is more evenly distributed, reducing wear and damage of the bearing during operation.

At the same time, the design of both inner and outer rings equipped with steel balls simplifies the overall assembly steps. By having inner and outer rings already equipped with steel balls, the number of parts that need to be considered and handled during assembly is reduced. This simplified design helps improve production efficiency and reduces possible assembly errors. The complexity of bearing assembly is reduced, making the production process smoother and easier to operate and manage.

The evenly distributed steel balls help improve the accuracy of positioning and alignment during the assembly process, ensuring that the bearing components are in the correct position, thereby improving the overall assembly accuracy. This is especially important for miniature bearings, as the tiny dimensions require greater precision.

The design of both inner and outer rings equipped with steel balls also increases the stability of the bearing. This is essential for the bearing to distribute and transfer loads more efficiently when subjected to vertical and radial loads. Through this design, the bearing is better able to cope with various working conditions, improving its reliability in practical applications.

This design also helps reduce friction and wear. Evenly distributed steel balls reduce friction between components and slow down the bearing wear process. This is critical to the service life of the bearing, extending its life while also reducing maintenance costs.