In the case of chamber mining of solid minerals, the number of downhole equip ment is sharply reduced, and robotics (a combine harvester, a turning scraper conveyor, and self-propelled manipulators) can be used instead. Positioning of complex mechanisms is performed using the Adams dynamic programming package based on hinges with movement along lines, in plane and in volume (Revolute joint, Translational joint, Primitives, Planar). The design schemes of these mechanisms, the features of the trajectory of movement, the distri bution of reactions in the hinges, and their acceleration were established; Studies have been conducted to substantiate them and clarify the scope of application. A testing information system has been created to monitor the results of multibody models. It is implemented on the basis of the experimentally analytical Artobolevsky method, using discrete cycles of move ment of mechanisms in a spreadsheet. This makes it possible to develop basic robotics designs and technologies for their application to a small-component chamber excavation. This makes it possible to develop basic technological designs of robotics and schemes for their application to a small-component chamber excavation. The results obtained can be used to analyze the manufacture and strength of parts, areas of their intense wear.
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