Ningbo Ketian Magnet CO.,LTD.
Ningbo Ketian Magnet CO.,LTD.

Introduction and Classification of Magnet Assembly

Nov 18 , 2024

Introduction to Magnet Assembly


Magnet assembly combines magnetic and non-magnetic materials, possessing specific magnetic patterns, shapes, and magnetic field strengths, designed to optimize the magnetic circuit for maximum performance. These assemblies often use adhesives to bond small components together, achieving functionalities that independent magnets cannot. Magnet assembly not only enhances magnetic field strength but also provides good protection for fragile magnets. It can be used in various applications such as wind power generation, industrial automation, and the automotive industry.


Classification of Magnet Assembly


Wind Turbine Magnet Assembly


Applications: Wind Turbines


Wind turbine magnet assembly is core components of wind power equipment, enhancing generator efficiency and stability through strong magnetic fields. The magnet assembly from reliable magnet assembly factory can withstand high intensity and complex operational environments, offering high durability and excellent fatigue resistance, enabling wind turbines to operate efficiently over long periods in harsh outdoor conditions.


Laminated Magnet Assembly for Electric Vehicles


Applications: Drive motors of electric vehicles, hub motors, and rail transit motors


The drive systems of electric vehicles have extremely high performance requirements for magnet assembly, making laminated magnet assembly the mainstream choice. This magnet assembly effectively reduces eddy current losses through laminated structures, improving motor efficiency and energy utilization. It is not only widely used in the drive motors and hub motors of electric vehicles but also in the high-speed and stable rail transit motor systems, becoming indispensable key components in modern new energy vehicles and rail transit motors.


Servo Motor Rotor Assembly magnet assembly


Applications: Machine tools, air conditioning equipment, automation equipment


In precision-controlled servo motor systems, magnet assembly is used in rotor assemblies to effectively enhance system response speed and accuracy. This magnet assembly is particularly suitable for applications requiring high dynamic performance and precise control, such as machine tools, air conditioning compressors, and various automation devices. Servo motor magnet assembly has excellent temperature resistance and corrosion resistance, significantly extending the equipment's service life.


Halbach Array magnet assembly


Applications: Photonics equipment, robot rotors, suction cup assemblies


Halbach array magnet assembly utilizes a unique magnetic circuit design to achieve an efficient magnetic field using a small number of magnets, thereby enhancing the overall system performance. The distinctive feature of magnet assembly is that it not only possesses high adhesion but is also easy to assemble efficiently, with magnetic field simulation designs available based on customer requirements. These assemblies are widely used in precision components of photonics equipment, robot rotors, and various industrial suction cup systems, effectively improving equipment performance and stability.


Features and Advantages


Various types of magnet assembly have the following notable features:


Efficient Magnetic Field


A strong magnetic field is generated with a small number of magnets, improving energy conversion efficiency.


High Adhesion


Excellent adhesion provides stronger stability and reliability.


Efficient Assembly


Optimized structural design facilitates quick and efficient assembly.


Magnetic Field Simulation Design Technology


Advanced magnetic field simulation technology from professioanl neodymium magnets company supports customized designs, providing the best magnetic solutions for different application scenarios.


In summary, magnet assembly, with its excellent characteristics and advanced technologies, has become indispensable core components of many high-performance devices.