Company Website : www.akerf.com

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A vacuum-based adhesion wall climbing robot can fundamentally change the way of high-altitude operation. Its adhesion technology enables the robot to climb stably on various surfaces such as concrete, glass, wood, and metal. As a comprehensive mounting platform, it can carry various professional equipment and be applied in multiple industries and scenarios. 

Description:

Operating principle: The multi-functional AI+ wall climbing maintenance robot utilises the vacuum adsorption principle. As a versatile carrying platform product, it is capable of operating at high altitudes and transporting various equipment to minimise the risks associated with working at heights. Additionally, the robot can transport tools for conducting inspections and tasks in narrow or enclosed spaces. 
 
Characteristics: 

• Intelligent Integrated Control System: Equipped with various sensing sensors, it realises automatic obstacle avoidance, autonomous control, and path planning, suitable for multiple scenarios and interfaces. 
• Original Adhesion System: Uses self-developed special materials to ensure excellent adhesion performance. 
• Spatial Positioning System: Provides precise spatial positioning, enabling the robot to accurately locate in complex working environments. 
• Multiple Power Supply Modes: Supports various power supply methods to ensure stable operation under various conditions, without fear of power failure. 
• Built-in Self-Diagnosis System: Equipped with an abnormal alarm function, it can timely detect and solve potential problems, improving the reliability and stability of the robot. 
• Data Integrated Management Platform: The independently developed data integrated management platform integrates the functions of image transmission, data, and management, providing users with comprehensive data support and further enhancing the operational and management efficiency of the multi-functional AI climbing robot. This makes the multi-functional AI climbing robot an innovative product with high intelligence, safety, and reliability. 

Expected end-users: 
Building, renewable energy, emergency response, etc. industries. 

Benefits:

• multi-functional platform design
  Using the vacuum adsorption principle, to create a multi-functional carrying platform product, can carry a variety of equipment, to achieve high-altitude autonomous work, to minimise the risk of personnel working at altitude. At the same time, tools can be carried out inspection and detection in narrow and closed areas to ensure the safety of infrastructure operation to the greatest extent.
• international leading technology
  The technology involved, especially the integrated application of self-moving climbing robots and AI recognition algorithms, is regarded as international leading technology. The application in the field of structural engineering inspection and inspection is relatively new, and there is a lack of large-scale cases that can be directly referred to, so it is internationally innovative and leading.
• the difference in adsorption principle
  Unlike the mature wall-climbing robot technology at home and abroad, which adopts the magnetic adsorption principle, the project adopts the vacuum adsorption principle, allowing the robot to effectively adsorb on various surfaces, including non-metallic surfaces. This difference gives the project unique applicability, compared to existing competitors, the multi-functional climbing AI robot project provides a new solution for infrastructure inspection, beyond the traditional inspection methods. It has certain innovation.

Applications:

• construction: many structural diseases are not easy to detect, and these are often the root cause of the overall damage and collapse of the structure.
• new energy: photovoltaic panel cleaning, automatic inspection, testing, installation and maintenance.
• transportation: aircraft, ships, high-speed rail and other surface cleaning, polishing, painting, testing and maintenance.
• emergency/security/military fields: some special scenarios.

Project References:

• Hong Kong Polytechnic University
• Beijing Building Materials Inspection and Research Institute Co., LTD
• Shanghai Tunnel Engineering Quality Inspection Co., LTD
• Shanxi Huang he Zhi Chuang Technology Co., Ltd
• China Railway Construction Engineering Group Co., Ltd