This product is a new type of mobile, wall-climbing intelligent industrial robot that can strongly adhere to ferromagnetic metal surfaces and move freely and flexibly on both flat and curved surfaces at positive and negative angles. It is suitable for grinding, cleaning, washing, and coating removal of surface contaminants such as stains, rust, paint flakes, and other adhering substances from secondary lining formwork supports, ships, chemical storage tanks, wind turbine towers, and similar structures. Additionally, as a mobile robotic platform, it can be equipped with various end-effectors—including welding guns, cutting torches, and non-destructive testing devices—to expand its functionality into tasks such as welding, cutting, non-destructive testing, and the handling of hazardous chemicals.
Basic parameters:
| External dimensions: | 730mm long × 650mm wide × 180mm high; |
| Equipment self-weight: | Approximately 55 kg; |
| Walking mechanism: | Magnetic suction tracked (on ferromagnetic metal surfaces); |
| Control method: | Wireless remote control: manual/semi-automatic/fully automatic; |
| Maximum walking speed: | 200 mm/s; |
| Maximum obstacle clearance height: | 15 mm; |
| Maximum span width: | 80mm (working surface > 135°); |
| Maximum load weight: | 60 kg (working surface > 90°); |
| Maximum jet pump pressure: | 800 bar (customizable upon request); |
| Theoretical cleaning efficiency: | Approximately 145 m²/h; |
| Product Expansion: | Support the development and application of secondary operation tools and vehicles; |
| Platform Expansion: | Can be customized and developed according to requirements; |
Advantageous features:
Strong surface applicability: Adopting an innovative suspension-type magnetic adsorption adaptive walking mechanism, it can firmly adhere to curved surfaces at various positive and negative angles, enabling stable walking and flexible rotation.
High work efficiency: While walking, the process is carried out continuously, with sweeping and spraying performed simultaneously in one go. In actual testing, it takes only 0.5 days to complete surface template work that would traditionally require six workers two days—more than 20 times the efficiency of conventional manual labor.
Wide range of applicable scenarios: Lightweight, ultra-thin body design, utilizing ultra-high-pressure water jetting that produces no dust, making it suitable for operations in narrow gaps and enclosed spaces.
Simple to operate and use: Equipped with built-in upper and lower template conveying lift tables, featuring path planning assistance, and capable of being operated manually or fully automatically.
Good homework results: Equipped with front and rear cameras, it uses AI-based image algorithms to automatically identify and assess the area to be worked on as well as the post-work condition, and automatically adjusts the work path plan to ensure both work quality and efficiency.
Highly scalable: With a payload of 60 kg, it can be equipped with different robotic arm tools to perform various tasks such as painting, welding, non-destructive testing, and handling hazardous chemicals.
High security: 120kg ultra-strong adsorption force, equipped with built-in edge detection sensors to prevent the robot from falling off edges, and features automatic shutdown and power cut in case of malfunction.
Domestically produced: The key components—including chips, drivers, motors, and reducers—are all based on 100% domestically developed technologies, ensuring independent controllability and a secure and stable supply.
System Composition:
Robot Body System
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| High-pressure water pump system | Robot Transport Platform | Control system |
Dynamic demonstration video
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| Arc-shaped lateral walking | Arc-shaped longitudinal walking | 360° curved rotation | Arc-shaped protrusion for obstacle crossing | Arc-shaped 60kg weight-bearing crawl |
Real-world engineering application cases: Surface cleaning and spraying of the secondary carriage formwork at the Yuku High-Speed Railway construction site.
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Comparison of Polishing and Cleaning Results |
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Construction site
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Video Assignment
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Real-world engineering application cases: Surface cleaning and spraying of the secondary carriage formwork at the high-speed railway construction site from Nantong to Ningbo.
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Construction site
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Video Assignment
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Robot Cleaning Performance |
Manual Polishing Result |
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Demonstration Video for Cleaning theFormwork Carrier |
Construction site
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Real-world engineering application cases: Surface cleaning and spraying of the secondary carriage formwork at the Wu-Mei High-Speed Railway construction site.
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Construction site |
Video Assignment |
Construction site |
Real-world engineering application cases: Wind Turbine Tower Operation Test
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Test Site |
Test Site |
Test Site |
Keywords:
Wall-climbing intelligent industrial robot
Responsible person:
Mr. Lu
Category:
Related products
Contact Information
Address: 4th Floor, North Building, No. 1 Factory, Zhengxin Science and Technology Park, No. 2 Gao Hua Road, Nanning City
