Efficiency analysis: The copper loss of the axial flux motor is 80% of the traditional motor, and the iron loss is 20% of the traditional motor. Therefore, the motor efficiency can be greatly improved, even exceeding the national first-class energy efficiency level.
Description of application advantages: Lightweight and small size, suitable for equipment and vehicle design layout, lightweight and high-efficiency motors help improve battery life and save battery costs. For some products, the weight of the motor is the main item, and the lightweight motor will halve the weight and volume of the product, reducing transportation and installation costs: The motor efficiency is increased from the traditional three-level energy consumption to the first-level energy consumption, saving 15%-255% energy, For a large-scale enterprise with an annual electricity bill of 2 million to 200 million, the annual saving of electricity bills from pumps, fans, air compressors, and production equipment is comparable to equipment investment. Axial flux motors are suitable for high torque and are used in direct drive applications. The direct-drive saves the transmission system and has 2 advantages: high precision, which can be used for direct drive control (DDR motor) of precision equipment. With high efficiency and small size, it can be used for large cooling fans, large industrial ceiling fans, and large water cooling towers; it can also be used for conveyor belt direct drive motors in factories and mines. Compact high-power motor: The hundreds of kilowatt motors are only 100 kilograms, which is 1/5-1/6 of the traditional motors, and the weight is lighter: megawatt motors are used for ship dragging, large generator sets, and wind power units, compared with the size of the traditional motor, the axial flux motor has a small installation space and is convenient to transport.
Axial flux motors also offer other advantages:
Servo control with high precision, with special design to ensure stable torque, used in precision equipment.
Reliability: heat and cold resistance, insulation, waterproof, dustproof and anti-corrosion, etc., the corresponding structure and materials are configured according to the application requirements.
Life design: According to load requirements, motor bearings and anti-corrosion coatings are selected to ensure motor life.
The control method is the same as that of the traditional permanent magnet motor, and the traditional controller can be directly used.
Sealing grade: from IP21 to IP68, the corresponding sealing structure is designed according to the application requirements.
Cooling scheme: According to the application scenario and power level, it can be configured as water cooling, oil cooling submersible cooling, coaxial air cooling, forced air cooling, and passive cooling.
Anti-vibration design: prevent the impact of vibration on the reliability of the motor during use and transportation, safety protection design, etc.