Abstract
The work is devoted to the experimental determination of the energy parameters of a machine with a complex movement of the working capacity. An experimental installation of a galvanizing machine has been developed, in which the working capacity performs a complex spatial movement, where it is possible to vary in the required range by two factors of influence. Experimental studies of the moment of resistance and power consumed on the drive shaft of such a machine during its operation with a loaded working array to the tank using a digital two-channel USB-oscilloscope VM-8020. On the basis of a complete factorial experiment, the regression equation in natural quantities is obtained. The regression equation describes the dependence of the maximum power consumed by the machine on the drive shaft on the mass of the bulk medium and the angular velocity of the drive shaft. It is established that the power of the machine consumed on its drive shaft increases with increasing mass of bulk medium, which is loaded into the working tank, as well as with increasing angular velocity of the driving shaft of the machine. The previously obtained analytical dependences were checked experimentally and their adequacy was confirmed.
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