Eugeny Semenov scite author profile

A new type of mechatronics drive is proposed for an intelligent wall climbing robot in order to satisfy strong load characteristics with velocity and force control on a large scale. The mechatronics drive consists of a pneumatics force piston-cylinder system, electromechanical subcontrol system, and electronic microprocessor control system. The power of mechatronics drive is achieved by means of a pneumatic force piston, and control is attained by internal and external feedback loops of the electromechanical system. The microprocessor system is intended for programming motion. The control moment transmitted from the electromechanical system to the self-braking worming mechanism and gears to the pneumatic piston. The sensory system measures the required parameters as position, pressure, and force. The pneumatic cylinder is mounted on the board of mobile robot. Data of the simulation and experimental investigation of the drive are presented. As the result of investigations, the drive realized the application for the intelligent wall climbing robot for the transportation the loads of more than 100kg on vertical surfaces.

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Possibilities of Using Wall Climbing Robots for Underwater Application

Gradetsky¹,

Knyazkov²,

Sukhanov³

et al. 2017

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Transport group control system of unmanned ground vehicles for various soils

Gradetsky¹,

Ермолов²,

Knyazkov³

et al. 2020

Rob. and Tech. Cyb. J.

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The Influence of Various Factors on the Control of the Exoskeleton

Gradetsky

Ермолов

Knyazkov

et al. 2018

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Eugeny Semenov

Random rearrangements and operators

Mechatronics Drive for Intelligent Wall Climbing Robot

Possibilities of Using Wall Climbing Robots for Underwater Application

Transport group control system of unmanned ground vehicles for various soils

The Influence of Various Factors on the Control of the Exoskeleton

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