Industries

Pipeline Magnetic Separators are widely used in the processing production lines of flour, sugar, milk powder, seasonings, etc. They are used to remove ferromagnetic impurities in powder, granular or liquid food during the material transportation process, ensuring food safety and stable equipment operation.     It is usually installed in the conveying pipeline and utilizes the magnetic field generated by the built-in high-strength magnetic rods to adsorb tiny metal impurities such as iron filings and nails in the flowing materials, preventing them from entering the next process or the finished product.

  Electromagnetic lifter is equipped with a coil inside. When it is energized, a strong magnetic field is generated inside the coil, firmly attracting ferromagnetic objects (such as steel plates, billets, scrap steel, etc.) at the bottom. After the power is cut off, the magnetic field disappears and the object is released automatically.  Electromagnetic lifters are usually equipped with an electromagnetic disconnection retention device or a battery-powered control system to prevent material drops caused by sudden power outages and enhance safety. It is widely used in industries such as metallurgy, machinery, and scrap steel recycling.

  The belt separator is composed of a permanent magnet system, a drive belt and a drive device. When materials or sludge mixed with ferromagnetic particles flow through the equipment, the magnetic field adsorbs the iron impurities on the surface of the magnetic poles. With the rotation of the belt, they are carried away from the main material flow. In the non-magnetic area, the impurities are automatically removed by the scraper or its own gravity, achieving continuous iron removal.  

The permanent magnet rotor is made of neodymium magnet. They embedded inside the rotor. When the motor stator is energized, a rotating magnetic field is formed, which interacts with the rotor magnetic field to produce an electromagnetic torque that drives the rotor to rotate, thus achieving high efficiency and low energy consumption power output.   Mainly used as the core component of the motor, it is widely used in drive motors, power generation systems and various auxiliary motors of new energy vehicles.  

Magnetic chuck are composed of strong permanent magnets (such as neodymium magnets). It utilizes magnetic force to firmly adsorb steel workpieces to achieve clamping, handling or positioning. Adsorption and release of the workpiece is realized by turning the handle to turn on and off the magnetic circuit, thus controlling the release or elimination of the suction force. It does not require continuous power supply, which is safe and energy-saving. Magnetic suction cups are composed of strong permanent magnets (such as neodymium magnets).   

  Magnetic wheels mainly utilize magnetic fields to achieve non-contact transmission or braking. Their working principle is to transfer the rotational motion of the driving end to the driven end in a non-contact manner through the interaction force between magnets, thereby reducing wear, lowering noise, and extending service life.   These magnetic wheels are a game-changer for robots that need to tackle tough jobs on metal surfaces. Made with powerful neodymium magnets, they offer unbeatable grip, letting your robots climb walls like they're walking on the sidewalk.  Need to inspect ships, maintain wind turbines, or clean skyscraper exteriors? These wheels are up for the challenge.     Here's what makes them so practical: Super Strong Grip: Neodymium magnets ensure your robots stick to ferrous surfaces like glue, no slipping or sliding. Size Options Galore: Choose the perfect wheel size (from 25mm to 180mm) to fit your specific robot needs. Heavy Duty Hauler: These wheels can handle robots weighing up to 337kg (when used in sets of four). Go the Extra Mile: Want even more grip? Add optional non-slip rubber rings for ultimate stability. Built to Last: These wheels work flawlessly in a wide range of temperatures, from -40°C to 80°C.

Halbach arrays are used in permanent magnet generators (PMGs) for their unique magnetic field enhancement characteristics, which improve magnetic field strength and efficiency. Through the special arrangement of the magnets, the magnetic field is enhanced on one side and weakened on the other, resulting in a stronger directional magnetic field, reduced magnetic leakage, and improved power generation efficiency and power density.

Magnetic linear guides use magnetic force to achieve non-contact or frictionless motion. This non-contact feature brings many advantages, including no wear, maintenance-free, ultra-high precision, etc., which are particularly suitable for semiconductor manufacturing and medical equipment applications that require a clean environment.   In the field of precision manufacturing, linear motor guides have become an indispensable core component. Semiconductor manufacturing is a typical example. Processes such as wafer processing, photolithography, and packaging testing require extremely high precision and stability of motion control. Linear motors can achieve sub-micron positioning accuracy, meeting the stringent requirements of semiconductor equipment for ultra-clean environments and vibration-free operation.   Laser processing is another important application area. The combination of linear motors and laser technology is hailed as a "golden partner" by the industry. In processes such as laser cutting, engraving, and welding, the high-speed and high-precision motion platform provided by linear motors can perfectly achieve complex trajectory control.   Industrial automation production lines widely use linear motor-driven material handling systems. Compared with traditional chain drives or wire rope traction methods, linear motor systems have the advantages of low noise, high speed, and flexible control. In industries such as electronic assembly and automobile manufacturing, linear motor modules are used in processes such as precision pick and place, component assembly and quality inspection, significantly improving production efficiency and product consistency.

Magnetic grate are widely used in food processing industries such as dairy products, fruit juices, sauces, and syrups.They form a magnetic field by installing high-strength magnetic rods inside the fluid pipeline, which can effectively adsorb metal contaminants such as iron filings and iron powder, achieving the effect of removing ferromagnetic impurities in liquid or paste foods.  They can prevent metal impurities from entering the final product, prevent equipment wear, and ensure the purity of the product and food safety. Easy to clean magnetic grate Normal magnetic grate  

Pipeline Magnetic Separators are widely used in the processing production lines of flour, sugar, milk powder, seasonings, etc. They are used to remove ferromagnetic impurities in powder, granular or liquid food during the material transportation process, ensuring food safety and stable equipment operation.  It is usually installed in the conveying pipeline and utilizes the magnetic field generated by the built-in high-strength magnetic rods to adsorb tiny metal impurities such as iron filings and nails in the flowing materials, preventing them from entering the next process or the finished product.    

Magnetic couplings are widely used in wind energy, hydrogen energy, lithium batteries and photovoltaic systems. It is composed of an inner magnetic rotor and an outer magnetic rotor, with a non-magnetic isolation sleeve in the middle. Two sets of magnetic rotors are coupled through magnetic fields.  When the driving end rotates, the magnetic field drives the driven end to rotate synchronously, thereby achieving power transmission. The entire process has no physical contact, thus avoiding wear and leakage problems. It is widely used in wind energy, hydrogen energy, lithium batteries and photovoltaic systems.

Drawer magnetic separators are usually installed in the discharge port of powder or granular materials, which are suitable for removing iron from dry materials such as flour, milk powder, granules, etc.. They utilizes the magnetic field formed by the built-in high-strength magnetic rods.  When powder or granular materials flow through the equipment, the they will adsorb the ferromagnetic impurities in them, achieving the purification and separation of the materials. Impurities are regularly cleaned to ensure continuous and efficient operation.