+86 0769-83039332

Your Current Location :Home » News » Industry new  » Working principle of air suspension blower

Working principle of air suspension blower

Author:谢工 Source: Time:2024-08-26 17:05:32 views:

The working principle of the Smed air suspension blower is mainly based on air suspension bearing technology, high-speed permanent magnet synchronous motor, and high-efficiency ternary flow impeller design, achieving frictionless and high-efficiency gas transportation.

  & nbsp; The working principle of the Smed air suspension blower is mainly based on air suspension bearing technology, high-speed permanent magnet synchronous motor, and high-efficiency ternary flow impeller design, achieving frictionless and high-efficiency gas transportation.

  & nbsp; The Smad air suspension blower fully utilizes the principles of aerodynamics and modern high technology. Its core components include air suspension bearings, high-speed permanent magnet motors, and high-efficiency ternary flow impellers. The following will delve into the working mechanism of the fan:

  & nbsp; Air Suspension Bearing Technology

  & nbsp; Friction free operation: Air suspension bearings use aerodynamic principles to generate support force, keeping the rotor in a suspended state during high-speed rotation, thereby avoiding the friction loss of traditional ceramic bearings.

  & nbsp; Dynamic pressure effect: A high-pressure gas film is formed between the rotor and the bearing, which supports the rotor and maintains it in a suspended state, reducing mechanical contact and friction. For frequent start stop problems, although there is a possibility of wear, the overall energy loss caused by friction is reduced.

  & nbsp; High speed permanent magnet synchronous motor

  & nbsp; High efficiency transmission: using efficient impellers in conjunction with high-speed permanent magnet motors, directly driven without additional variable speed devices, reduces energy consumption and improves transmission efficiency.

  & nbsp; Energy saving performance: The motor automatically adjusts its power consumption based on the output air volume to maintain high efficiency in equipment operation, which is particularly important for energy saving.

  & nbsp; Efficient impeller design

  & nbsp; Three element flow impeller: Made of aviation aluminum, the three element flow impeller has high strength and deformation resistance, ensuring stable operation under high-speed rotation.

  & nbsp; Improving compression efficiency: The design of the impeller affects the efficiency and energy consumption of the fan. Smed's impeller design optimizes the gas flow path and reduces energy loss.

  & nbsp; intelligent control system

  & nbsp; Adaptive speed regulation: The fan can automatically adjust the motor speed through an efficient frequency converter according to actual needs, achieving adaptive adjustment of 10-100% air volume.

  & nbsp; Remote monitoring: The integrated control system supports remote operation and monitoring, providing convenient operation and maintenance methods, reducing manual intervention, and improving system reliability.

  & nbsp; High system integration

  & nbsp; Easy installation: Due to the high integration of the blower, the installation process is simple, while saving space. The low-noise design improves the working environment.

  & nbsp; Cooling system: using a combination of air and water cooling to effectively protect the motor and allow the fan to quickly respond to start and stop.

  & nbsp; Overall, the Smad air suspension blower utilizes advanced air suspension dynamic pressure bearing technology, high-speed permanent magnet motor, and efficient ternary flow impeller design to achieve frictionless operation and high energy efficiency of the blower. This not only provides users with an energy-saving and emission reduction solution, but also greatly improves the convenience of operation and maintenance through intelligent control systems and highly integrated designs. Despite high equipment costs and maintenance requirements, its high efficiency, energy-saving features, and remote monitoring capabilities make it highly valuable in modern industrial applications, especially in the wastewater treatment and aquaculture industries.