Please Choose Your Language
Induction Bearing heating is a device specifically designed for heating metal components such as bearings, utilizing the principle of electromagnetic induction to quickly generate heat and achieve uniform heating. Induction Bearing Heater The working process generates an alternating magnetic field by flowing current through the coil, inducing eddy currents to rapidly heat up the interior of the bearing, making it easy to install, disassemble, or perform subsequent processing. This device has the advantages of fast heating speed, low energy consumption, and safe operation, and is widely used in mechanical manufacturing, maintenance, and industrial production, improving work efficiency and processing quality.
Bearing induction heaters are indispensable tools in the world of power transmission repair and construction. They enable the seamless installation of bearings, eliminating the need for manual force that can lead to costly damage. Instead of wrestling bearings into place with hand tools, these advanced heaters gently expand the bearing, allowing for a smooth and precise fit.
But their utility extends beyond just bearings! You can also use bearing induction heaters to effectively warm a variety of other components. This includes items like gears, pulleys, bushings, and shrink rings, provided they form a closed electrical circuit. This versatility makes bearing induction heaters a valuable asset in many mechanical applications.
When it comes to bearing induction heaters, you'll primarily encounter two main types:
These heaters are designed to distribute heat uniformly across bearings that require an interference fit. A key feature of these bearing induction heaters is the external coil, which significantly reduces heating times and promotes efficient energy use. This design ensures that your bearings are heated evenly and quickly, preventing localized hot spots that could compromise their integrity.
As the name suggests, these bearing induction heaters offer the convenience of portability, making them ideal for on-site work or applications where moving the component to a stationary heater isn't feasible. While offering similar benefits in terms of controlled and damage-free heating, their compact design makes them highly versatile for a range of environments.
By understanding how bearing induction heaters work and their various applications, you can ensure proper component installation and extend the lifespan of your machinery.
Bearings, gears, pulleys, couplings, motor rotors, motor maintenance, etc
| No | Item | Data |
| 1 | Power | Three-phase 15KW/20KW/30KW |
| 2 | Rated voltage frequency | AC 380V/50Hz-60Hz |
| 3 | Voltage adaptation range | constant power output at 300 ~ 400V |
| 4 | Adapt to ambient temperature | -20ºC~50ºC |
| 5 | Adapt to environmental humidity | ≤95% |
| 6 | Heat conversion efficiency | ≥95% |
| 7 | Effective power | ≥98%(Can be customized according to user needs) |
| 8 | working frequency | 5~40KHz |
Induction Bearing heating is a device specifically designed for heating metal components such as bearings, utilizing the principle of electromagnetic induction to quickly generate heat and achieve uniform heating. Induction Bearing Heater The working process generates an alternating magnetic field by flowing current through the coil, inducing eddy currents to rapidly heat up the interior of the bearing, making it easy to install, disassemble, or perform subsequent processing. This device has the advantages of fast heating speed, low energy consumption, and safe operation, and is widely used in mechanical manufacturing, maintenance, and industrial production, improving work efficiency and processing quality.
Bearing induction heaters are indispensable tools in the world of power transmission repair and construction. They enable the seamless installation of bearings, eliminating the need for manual force that can lead to costly damage. Instead of wrestling bearings into place with hand tools, these advanced heaters gently expand the bearing, allowing for a smooth and precise fit.
But their utility extends beyond just bearings! You can also use bearing induction heaters to effectively warm a variety of other components. This includes items like gears, pulleys, bushings, and shrink rings, provided they form a closed electrical circuit. This versatility makes bearing induction heaters a valuable asset in many mechanical applications.
When it comes to bearing induction heaters, you'll primarily encounter two main types:
These heaters are designed to distribute heat uniformly across bearings that require an interference fit. A key feature of these bearing induction heaters is the external coil, which significantly reduces heating times and promotes efficient energy use. This design ensures that your bearings are heated evenly and quickly, preventing localized hot spots that could compromise their integrity.
As the name suggests, these bearing induction heaters offer the convenience of portability, making them ideal for on-site work or applications where moving the component to a stationary heater isn't feasible. While offering similar benefits in terms of controlled and damage-free heating, their compact design makes them highly versatile for a range of environments.
By understanding how bearing induction heaters work and their various applications, you can ensure proper component installation and extend the lifespan of your machinery.
Bearings, gears, pulleys, couplings, motor rotors, motor maintenance, etc
| No | Item | Data |
| 1 | Power | Three-phase 15KW/20KW/30KW |
| 2 | Rated voltage frequency | AC 380V/50Hz-60Hz |
| 3 | Voltage adaptation range | constant power output at 300 ~ 400V |
| 4 | Adapt to ambient temperature | -20ºC~50ºC |
| 5 | Adapt to environmental humidity | ≤95% |
| 6 | Heat conversion efficiency | ≥95% |
| 7 | Effective power | ≥98%(Can be customized according to user needs) |
| 8 | working frequency | 5~40KHz |
