Comparison of Advantages Between GF Bearings and Traditional Bearings
Low Friction and High Wear Resistance
GF bearings feature a significantly low friction coefficient, which can greatly reduce energy consumption during operation. Compared with traditional bearings, they can operate smoothly without additional lubrication, effectively avoiding stalling caused by insufficient lubrication. At the same time, their high wear resistance greatly reduces the degree of wear. This means that during long - term use, the service life of GF bearings is significantly extended, reducing the cost and time consumption of frequent bearing replacements and providing a strong guarantee for the stable operation of the solar tracking system.Maintenance - Free Feature
For applications with long - service - life requirements, the complexity of maintenance work is often an important consideration. GF bearings show great advantages in this regard. They rarely need or completely do not need lubrication, and this characteristic makes them have no special requirements for the operating environment. Whether in the hot and arid desert areas or in the humid and dusty coastal environments, GF bearings can work stably without regular maintenance. This not only reduces labor costs but also reduces the risk of failures that may be caused by improper maintenance, ensuring that the solar tracking system can operate continuously and efficiently.Cost Reduction of the System
From the perspective of the overall system cost, the advantages of GF bearings are very prominent. Since they do not require hardening and processing of grease channels, the manufacturing cost of the shaft is reduced. In addition, GF bearings adopt a compact one - piece structure. This design not only saves valuable space and reduces the weight of the system but also makes the assembly process more convenient and faster. In the construction of large - scale solar power plants, these advantages can accumulate to save considerable costs for the project.Robust Aluminum Housing
GF bearings use an aluminum housing, which is characterized by being sturdy, durable, and not easily deformed. Through strict experimental verification, its metal housing can maintain good working conditions in high - temperature environments of up to 70°C and low - temperature environments as low as - 30°C. This means that regardless of the harsh climate conditions in which the solar tracking system is located, GF bearings can effectively protect the internal precision components with their robust housing, ensuring the normal operation of the system and demonstrating strong environmental adaptability.Application of Environmentally - Friendly Materials
With the continuous enhancement of environmental awareness and the increasingly strict environmental regulations, the environmental performance of products has become more and more important. GF bearings comply with this trend and are manufactured using non - greasy and lead - free environmentally - friendly materials. This measure not only meets the current environmental standards but also reflects its positive attitude towards sustainable development, contributing to the construction of a green and environmentally - friendly solar energy industry.Patent Design - Widened Arc Surface Design
During the daily operation of horizontal single - axis photovoltaic tracking brackets, they are mainly affected by axial and radial forces. The patent design of GF bearings - the Widened Arc Surface Design can perfectly cope with the radial forces. When subjected to radial forces, the bearing core of ordinary bearings may be pushed out due to excessive force, leading to system failures. However, through this unique design, the bearing core of GF bearings can still maintain a stable working state when facing radial forces, effectively avoiding the risk of the bearing core being pushed out and greatly improving the reliability and stability of the solar tracking system.In conclusion, GF bearings, with their series of advantages such as low friction, high wear resistance, maintenance - free, cost reduction of the system, robust housing, environmentally - friendly materials, and patent design, have brought excellent performance improvements to solar tracking systems and have become an important driving force for the efficient development of the solar energy industry.