Synchronous Magnetic Coupling
Elevate your mechanical systems with Synchronous Magnetic Coupling, offering synchronized, contact-free torque transmission that maximizes efficiency, mitigates maintenance demands, and delivers unyielding reliability across various industrial applications.
Synchronous Magnetic Coupling
The permanent magnet’s magnetic field connects a new type of coupling with a protection function to the driving and load ends. The rare earth permanent magnet’s strong magnetic field interacts to transmit torque through the air, achieving soft start and soft connection.
Synchronous Magnetic Coupling Working Principle
The permanent magnet’s magnetic field connects a new type of coupling with a protection function to the driving and load ends. The rare earth permanent magnet’s strong magnetic field interacts to transmit torque through the air, achieving a soft start and soft connection.
Synchronous Magnetic Coupling Features
- The motor’s starting current can be reduced, as well as the shock and vibration of the transmission chain.
- The transmission efficiency is almost 100%.
- It allows for misalignment and is maintenance-free, with a normal service life of over 20 years.
- This technology is widely used in various industries, including electric power, steel, mining, coal, chemical, lifting, paper, textile, shipbuilding, cement, and aerospace. (The following products are available: air preheater, water pump, fan, centrifuge, mixer, and injection molding machine.)
Note: In this document, L refers to the body length, L1 refers to the load shaft extension length (when the actual shaft extension length is less than 110mm, the value of L1 is 110mm), L2 refers to the shaft extension length of the motor (when the actual shaft extension length is less than 120mm, the value of L2 is 120mm).
D refers to the body diameter, dl refers to the load shaft diameter, and d2 refers to the motor shaft diameter.
Please note that our engineers will determine the shape and installation dimensions based on the data provided by the customer and the measurements taken on-site.
Synchronous Magnetic Coupling Parameter
| Model | Diameter D(mm) | Length L(mm) | Input shaft extension L1(mm) | Output shaft extension L2(mm) | Speed(r/min) |
| OTB-1 | 186 | 220 | 110 | 80 | 4500 |
| OTB-2 | 216 | 255 | 120 | 90 | 3600 |
| OTB-4 | 240 | 270 | 120 | 90 | 3600 |
| OTB-6 | 266 | 315 | 140 | 120 | 3000 |
| OTB-9 | 298 | 350 | 140 | 140 | 3000 |
| OTB-13 | 342 | 374 | 170 | 140 | 2700 |
| OTB-18 | 420 | 389 | 170 | 160 | 2700 |
| OTB-25 | 466 | 415 | 170 | 170 | 2700 |
| OTB-32 | 494 | 420 | 170 | 170 | 2400 |
| OTB-40 | 542 | 452 | 210 | 170 | 2400 |
| OTB-56 | 580 | 501 | 210 | 170 | 2400 |
| OTB-80 | 632 | 556 | 250 | 210 | 2200 |
| OTB-100 | 714 | 601 | 250 | 250 | 2200 |
| OTB-125 | 728 | 640 | 300 | 250 | 2000 |
| OTB-180 | 822 | 667 | 300 | 250 | 1800 |
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