The design concept of stage lift mainly includes the following aspects:
Versatility: The stage lift is designed with versatility in mind, and can be flexibly adjusted in plane and height to meet the needs of various performances and performances. For example, the overall telescopic stage can not only be flexibly changed in plane and height, but also has the ability to rotate and tilt, so as to adapt to different performance scenes and effects.
Safety and stability: In addition to meeting the load-bearing requirements, the design of the lifting platform also focuses on beautiful appearance and economical and reasonable cost. For example, the design of the single-layer platform and the double-layer platform takes into account factors such as the depth of the foundation pit and the travel of the stage surface to ensure safety and stability during use.
Drive mode: Common drive modes for modern stage lifts include hydraulic drive, electric traction, chain drive, wire rope traction and gear rack drive. Hydraulic drive and electric traction are the two most common methods. They convert energy through the prime mover, start, stop and complete other actions to meet various usage needs.
Computer-aided design: In recent years, computer technology has been widely used in stage machinery design. The development of computer-aided design (CAD) and digitally controlled hydraulic components can improve the quality of hydraulic products, optimize performance, reduce costs, and greatly shorten production and delivery cycles.
Innovation and Creativity: The design concept of stage lifts focuses on innovation and creativity, and can flexibly adjust the size, shape or height of the stage according to performance requirements. For example, the telescopic stage can flexibly change the shape and height of the stage as needed, providing actors with a wider performance space.
