Abstract
The conical silo and wedge-shaped hopper in the discharge system of ceramic press are important devices for storing and transferring ceramic powder. The conical silo stores ceramic powder and delivers the powder to the wedge-shaped hopper, which distributes the powder evenly in the grating. In order to provide sufficient supply quantity for brick pressing or improve the production efficiency of brick pressing, it is necessary to accurately predict the discharge rate of conical silo and wedge-shaped hopper. Based on dynamic arching theory and considering the influence of structure size, this paper deduces the prediction model of discharge rate of conical silo and wedge-shaped hopper, and proves the accuracy of the prediction model through discharge experiment.
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