In many areas of engineering, precise dimensional and distance control is critical. As a key technical parameter, 325 pitch is widely used in the design and manufacturing of transmission systems such as chains, conveyor belts, and gear racks. It plays a vital role in improving transmission efficiency and optimizing equipment performance.

In the chain drive system, 325 pitch is the basic parameter to measure the length of the chain unit, that is, the distance between the centers of two adjacent chain links is 325 mm. In the lifting chains of heavy industrial machinery such as cranes and excavators, as well as the conveyor chains of logistics transportation equipment such as assembly lines and elevators, 325-pitch chains are used due to their moderate pitch design. It also enables higher transmission efficiency. Especially in scenarios that need to carry large loads and transmit over long distances, the advantages of 325-pitch chains are particularly obvious.

In the field of conveyor belts, 325 pitch plays a key role. Depending on the type, volume, and weight of the material being conveyed, as well as the speed and length of the conveyor line, engineers can select the appropriate pitch of the conveyor belt. 325 pitch conveyor belts are suitable for medium load and long conveying distance applications. Its reasonable pitch design helps reduce material shaking and conveyor belt wear during transportation, thereby extending the service life of the conveyor belt and reducing operating costs. In the rack and pinion transmission system, the 325-pitch rack design also has significant application value. Moderate tooth pitch can ensure the tight meshing of the rack, reduce vibration and noise during transmission, and improve transmission accuracy and efficiency.

In precision transmission fields such as automation equipment, lifting platforms, and robot joints, the use of 325-pitch rack and pinion can ensure smooth operation and rapid response of the equipment. In the elevator traction system, the 325 pitch also plays an important role. The pitch design of the traction wire rope will affect the stability and safety of the elevator operation. The use of 325-pitch traction wire rope can ensure that the force on the wire rope is even when wrapped around the traction wheel, reducing the swing amplitude during operation, thereby improving the comfort and safety of the elevator operation. At the same time, appropriate pitch design can also reduce the wear of the wire rope during operation, extend its service life, and reduce maintenance costs.