SWC-BF universal drive shaft is a high-precision universal joint coupling, suitable for steel mills and other heavy industry fields, with high load-bearing capacity, high transmission efficiency, smooth transmission, and low noise characteristics.
SWC-BF universal drive shaft is a cross axis universal joint widely used in mechanical shaft systems of metallurgy, lifting, engineering transportation, mining, petroleum, shipbuilding, coal, rubber, papermaking machinery and other heavy machinery industries to transmit torque. This type of coupling adopts an integral fork head, eliminating the weak link of bolt compression on the bearing seat (cover), completely avoiding the common malignant damage caused by bolt loosening or fracture, and increasing the service life by 30% -50% compared to other types of couplings. Its structural features include:
The structure is reasonable and adopts an integral fork head, which improves the reliability and durability of the coupling.
High load-bearing capacity, capable of withstanding large torques and loads.
High transmission efficiency, with transmission efficiency reaching 98.7% -99.9%, significant energy-saving effect, and can reduce power consumption by 5% -15%.
Smooth transmission, low noise, generally 30-40dB (A), providing a smoother and quieter working environment.
The SWC-BF universal drive shaft is divided into various types, including BH, BF, DH, CH, WH, WF, and WD, to meet the needs of different application scenarios. This type of coupling consists of two universal joints and an intermediate shaft. In order to make the angular velocity of the driving shaft and the driven shaft equal, certain conditions must be met, including equal inclination of the points between the middle and the driving and driven shafts, and the fork heads at both ends of the intermediate shaft being in the same phase.
In summary, the SWC-BF universal drive shaft has become an indispensable transmission component in steel mills and other heavy industry fields due to its high precision, high efficiency, and high reliability, ensuring the stable operation and long-term use of mechanical equipment