In terms of materials: In the early days, suspended platforms were mostly made of ordinary metal materials, such as steel. Although these materials can meet the basic strength requirements, they have problems such as heavy weight and easy corrosion. With the advancement of materials science, new materials such as high-strength lightweight alloys and carbon fiber composite materials are gradually used in the manufacture of suspended platforms. For example, the use of carbon fiber materials not only greatly reduces the weight of the hanging basket, making installation and movement more convenient, but also significantly improves the carrying capacity and weather resistance of the hanging basket, extending its service life. At the same time, the research and development of new anti-corrosion and wear-resistant materials has also effectively solved the problem of the hanging basket being susceptible to corrosion due to long-term exposure to the outdoors, reducing maintenance costs and safety hazards.

In terms of structural design: The traditional hanging basket structure is relatively simple, with limited stability and wind resistance. Modern suspended platforms use advanced computational fluid dynamics (CFD) technology and finite element analysis (FEA) methods for structural optimization. For example, the frame structure of the hanging basket is improved, the strength of the supporting components is increased and the arrangement is reasonable, so that the hanging basket can reduce weight while maintaining strength, and improve wind resistance and stability. In addition, the introduction of modular design concepts is also a major innovation. The hanging basket is divided into multiple modules, which are easy to disassemble, assemble and maintain, convenient for transportation and rapid deployment on site. Different modules can also be flexibly combined according to different construction scenarios and needs to achieve diversified functions.

In terms of safety performance: the safety devices of the early suspended platforms were relatively simple, mainly relying on basic rope fixation and simple braking devices, and the degree of safety protection was low. Nowadays, the safety performance of the hanging basket has been greatly improved. On the one hand, a variety of anti-tilt and self-locking mechanisms have been added. By installing sensors to monitor the posture of the hanging basket in real time, once the tilt angle exceeds the preset threshold, the system will automatically trigger the braking device and lock the suspension mechanism to ensure the stability of the hanging basket. At the same time, some suspended platforms also use a double insurance self-locking mechanism to further improve the safety factor. On the other hand, the application of intelligent monitoring and early warning systems has also become an important means of safety protection. The system uses multiple sensors, such as accelerometers, gyroscopes, torque sensors, etc., to monitor the working status and environmental conditions of the hanging basket in real time, such as wind speed, temperature, load, etc. When abnormal behavior or potential risks are detected, an alarm will be immediately issued and the data will be transmitted to the ground control center so that managers can remotely monitor and take timely measures.

In terms of drive and control systems: In the early days, most suspended platforms were manually operated, which was labor-intensive and inefficient. With the development of technology, electric drive systems have gradually replaced manual drives, making operation more convenient and efficient, greatly improving construction efficiency. Moreover, modern suspended platforms have been integrated with intelligent control systems, with functions such as automatic balance adjustment and anti-sway mechanisms. They can automatically adjust the operating parameters of the suspended platform according to changes in the working environment, improving the accuracy and safety of operations. For example, some suspended platforms can automatically adjust the posture of the suspended platform according to the wind speed to reduce the impact of wind on the suspended platform; other suspended platforms can use intelligent algorithms to achieve automatic obstacle avoidance functions to avoid collisions with buildings or other obstacles.

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