Ultrasonic Motor Utilizing a Wave Spring
Ultrasonic motors are small motors, some measured in millimeters, which are being used in a variety of applications. A common usage for these kinds of motors is the auto focus feature on a camera lens. However other usages are seen in the automotive industry such as headrests or side mirrors, surgical equipment and robots. What made ultrasonic motors so ground breaking in the 1970s and early 1980s was the ability to create a motor that is extremely small, compact and virtually silent, with out sacrificing torque.
This ultrasonic motor is used in a camera lens for autofocusing. It consists of a stator, a rotating rotor and an output ring. A stator is a stationary part of a motor or turbine. The rotor is a non-stationary part of the motor, fitting inside or against the stator. A single turn closed wave spring is utilized to maintain the necessary pressure against the stator, holding the rotor in place since there are no screws or bolts in ultrasonic motors. The wave spring is a better choice in this application over coil or washer type springs. The wave spring is light weight, compact and can still manage the low to medium loads required of it while keeping its spring.
The stator of an ultrasonic motor is piezoelectric, meaning it has ceramic elements which when energized by AC voltage creates vibrations at the ultrasonic level. The vibrations of the stator and the pressure of the wave spring against the stator create friction which rotates the rotor that turns...
The stator of an ultrasonic motor is piezoelectric, meaning it has ceramic elements which when energized by AC voltage creates vibrations at the ultrasonic level. The vibrations of the stator and the pressure of the wave spring against the stator create friction which rotates the rotor that turns the output ring. The output ring is the transmission of the ultrasonic motor. It receives the input of the motor which then focuses the lens of the camera. The great advantage to using ultrasonic motors is that they are almost silent when in motion. This is excellent for cameras zooming in and out when taking video. Furthermore, the ultrasonic motor is extremely responsive for quick zooms or because of the high torque of the motor; it can slowly move the lens keeping it in place.
Published by Rotor Clip on Jul 01, 2013
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Technical Considerations for the Selection of Retaining Rings
Design engineers are challenged daily to come up with economical designs that reduce weight, size, raw materials, and labor. This competitive mandate affects every facet of the design, including the fasteners needed to hold components in place. One style of non-threaded fastener that has been widely used to accomplish these goals is the retaining ring. Knowing which ring to use in a given fastening situation can greatly contribute to the overall effectiveness and economy of a design.