Linear Motor
With the rapid development of automatic control technology, the positioning accuracy requirements of various automatic control systems are getting higher and higher. The traditional rotary motor combined with a set of conversion mechanism to form a linear motion device is far from satisfying the accuracy requirement. Direct linear drive is One of the contents of modern servo drive technology research, linear motor is one of the key technologies. Linear motor applications are also widely used, and direct-drive linear motors are superior to rotary motors in devices that require linear motion. Since the motion conversion mechanism is omitted, the control accuracy can be improved.
Molecular motor
With the development of MEMS, nano-electromechanical systems (NEMS) have emerged, and the feature sizes may range from a few hundred to a few nanometers, some of which have important potential uses in the biomedical field. Ricky K. Soong of Cornell University in the United States integrated a single biomolecular motor with a nanoscale inorganic system to form a hybrid nanomechanical device driven by a molecular motor. The biomolecule (less than 8 nm in diameter and 14 nm in length) motor can generate a maximum torque of 80-100 pN•nm by hydrolyzing ATP (adenosine triphosphate) in the active system, and the size of nanomechanical structures that can currently be produced. Compatible with mechanical constants. This new technology is expected to play a role in vascular cleansing.
If you want to buy a medical device motor, please pay attention to Medical Motors.
