This paper presents the results of studies to assess the efficient use of the equipment with flexible thrust coupling used as working bodies. Such mechanisms are known as wave mechanisms, where the transformation of motion is carried out due to the deformation of the flexible link. A number of constructive diagrams of wave gears and the kinematics of the movement of their working bodies were analyzed in the work. On the basis of an asymmetric diagram of the motion law of flexible coupling, the basic design of an inertial conveyor with a spring tab has been developed by equation.
This paper presents the results of studying a set of equipment including a centrifugal mill and a separator. It presents data on the plant’s design and operation, defines a rational shape of the working surface of the mill’s accelerating discs providing highly effective collision of particles moving in oncoming flows. As a result of theoretical studies, we established that the generatrix of such a surface should have the form of a logarithmic curve. Experimental studies have shown that the best quality of the plant operation is achieved with certain combinations of parameters, such as rotor speed, the distance between the ends of rotating rotors, and the air flow rate.
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