This research aims to develop a climbing robot, that against to the operating environment for the climbing robot and operating properties of the robot is proposed performance requirements for these design requirements for the body structure and the transmission mechanism and control system, related to the important parts of its simulation analysis using Solidworks match each other so that the assembly, and use the 3D printer printed transmission main material ABS material possessed easy processability, appearance, low creep resistance and excellent dimensional stability and high impact strength. Determine the drive to achieve a robot walking on the wall and reliable operation. Presents a wireless control or self-propelled may ferrous metal vertical surface in wall-climbing robot, equipped with video detection and surveillance, wireless communications for remote transmission, navigation track positioning and other functions, provide the hull iron metals, chimneys, nuclear power plants, oil sump, robot platform gas tank and other dangerous workplaces, this article will use neodymium iron boron (NdFeB) permanent magnets force strong absorption features, with the robot crawler mechanism consisting indeed perform work-ferrous metal vertical surfaces of market demand for special purposes. Research will focus on wall-climbing robot design and overall structure of the robot's mechanical and electrical systems integration.