Linear Induction Motor generates 2,900 N at 3% duty cycle.
June 15, 2011 -
Operating at 400 Vac, 75 Hz, Model LMG-06-650-SSE features synchronous velocity of 675 ips. Non-contacting linear motor is encapsulated in stainless steel enclosure using 400°F potting compound, which protects components and seals against moisture. Three-phase coil assembly can be directly connected to AC line for single-speed applications or to adjustable frequency drive for variable speed control of motor. Model LMG-06-650-SSE is reversible and can be dynamically braked.
(Archive News Story - Products mentioned in this Archive News Story may or may not be available from the manufacturer.)
Original Press release
H2W Technologies, Inc.
26470 Ruether Ave. #102
Santa Clarita, CA, 91350
USA
High Thrust, High Speed AC Linear Induction Motor
H2W engineers have developed a new Linear Induction Motor (LMG-06-650-SSE) that is capable of generating 2900 N at a 3% duty cycle. Operating at 400 VAC, 75 Hz, the synchronous velocity of this LIM is 675 in/sec [17 m/s]. This LIM was designed for high speed operation, however it can also be operated at stall (zero speed) in order to produce static thrust. This motor is encapsulated into a stainless steel enclosure using high temperature (400 F) potting compound which protects the components and seals it from moisture.
A LIM is a non-contacting, high speed, linear motor that operates on the same principal as a rotary, squirrel cage, induction motor. They are typically used in applications where accurate positioning is not required.
The 3-phase coil assembly can be directly connected to the AC line for single speed applications or to an adjustable frequency drive for variable speed control of the motor. The motors are reversible and can also be dynamically braked.
The laminated coil assembly is used in conjunction with a customer supplied aluminum and steel reaction plate to produce a force. A customer supplied bearing system is required to maintain the .060" - .125" [1.5 - 3.0 mm] air gap between the coil assembly and the reaction plate. The length of the reaction plate is typically equal to the coil assembly length plus the stroke.
Advantages: Only 2 Parts, Wide Speed Range, No Maintenance, Non-contact, Ease of Control and Installation
Applications: Conveying Systems, Cranes Drives, Baggage Handling, Personal Rapid Transport Systems, Theme Park Rides
|
|
|
|
|
|
|
|
