Dongmok Kim scite author profile

In this paper, a new concept of a wall-climbing robot able to climb a vertical plane is presented. A continuous locomotive motion with a high climbing speed of 15m/min is realized by adopting a series chain on two tracked wheels on which 24 suction pads are installed. While each tracked wheel rotates, the suction pads which attach to the vertical plane are activated in sequence by specially designed mechanical valves. The engineering analysis and detailed mechanism design of the tracked wheel, including mechanical valves and the overall features, are described in this paper. It is a self-contained robot in which a vacuum pump and a power supply are integrated and is controlled remotely. The climbing performance, using the proposed mechanism, is evaluated on a vertical steel plate. Finally, the procedures are presented for an optimization experiment using Taguchi methodology to maximize vacuum pressure which is a critical factor for suction force.

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Optimal design and kinetic analysis of a stair-climbing mobile robot with rocker-bogie mechanism

Kim

Hong

Kim

et al. 2012

Mechanism and Machine Theory

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Excavator tele-operation system using a human arm

Kim

Lee

et al. 2009

Automation in Construction

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Optimal design of hand-carrying rocker-bogie mechanism for stair climbing

et al. 2013

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Contact angle estimation and composite locomotive strategy of a stair-climbing mobile platform

Hong

Kim

et al. 2013

Robotics and Computer-Integrated Manufacturing

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Dongmok Kim

Development of a wall-climbing robot using a tracked wheel mechanism

Optimal design and kinetic analysis of a stair-climbing mobile robot with rocker-bogie mechanism

Excavator tele-operation system using a human arm

Optimal design of hand-carrying rocker-bogie mechanism for stair climbing

Contact angle estimation and composite locomotive strategy of a stair-climbing mobile platform

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