Magnetic coupling
A magnetic coupling is a coupling that transfers torque from one shaft, but using a magnetic field rather than a physical mechanical connection.
Magnetic shaft couplings are most often used for liquid pumps and propeller systems, since a static, physical barrier can be placed between the two shafts to separate the fluid from the motor operating in air. Magnetic shaft couplings preclude the use of shaft seals, which eventually wear out and fail from the sliding of two surfaces against each another. Magnetic couplings are also used for ease of maintenance on systems that typically require precision alignment, when physical shaft couplings are used, since they allow a greater off axis error between the motor and driven shaft.
Applications
Some diver propulsion vehicles and remotely operated underwater vehicles use magnetic coupling to transfer torque from the electric motor to the prop. Magnetic gearing is also being explored for use in utility scale wind turbines as a means of enhancing reliability.[1] The magnetic coupling has several advantages over a traditional stuffing box.[2][3]
Some aquarium pumps are Magnetic Drive Pumps -- they use magnetic coupling between the motor on the dry side of an aquarium wall and the propeller/impeller in the water on the other side of that aquarium wall.[4] With two face-to-face magnetized disks -- one driving magnet on the dry side, and another driven magnet on the wet side of the glass -- there are two options for designing the magnetic pattern on each disk. One option balances the (attractive) section that transfers torque, with magnetic repulsion near the axis, to nearly cancel out axial load.[5][6] The other option designs the magnetic pattern to maximize the torque, and uses a mechanical thrust bearing to resist the attraction between the magnetized disks.
A magnetic stirrer is another example of magnetic coupling.
Magnetic couplings are often synchronous (output shaft speed equals input shaft speed, or 1:1).
The first few gears in the geartrain of an Omega Megasonic wristwatch have no teeth; instead magnetic north and south poles on neighboring gears act like the teeth and trough of neighboring spur gears, as each gear drives the next gear in the chain.[7] Such magnetic gears, like spur gears, always have gear ratios as the ratios of small integers.
More sophisticated magnetic gearing uses pole pieces to modulate the magnetic field; they can be designed to have gear ratios from 1.01:1 to 1000:1.[8]
See also
References
- ↑ "Could Magnetic Gears Make Wind Turbines Say Goodbye to Mechanical Gearboxes?". machinedesign.com.
- ↑ Eric Stackpole.... "Magnetically Coupled Drive"
- ↑ "Genesis DPV"
- ↑ Dana Riddle. "Making Gadgets for Your Aquarium".
- ↑ Scott Evans, and Ron Jewell. "Magnetic Attraction". 2013.
- ↑ R. Scott Evans. "Higher Performance and New Capabilities from Magnetic Materials" Archived April 27, 2015, at the Wayback Machine.ling". p. 7-8.
- ↑ Paul. "Omega Megasonic".
- ↑ "Magnets offer alternative to mechanical gears". 2013.