A micro electric sliding table is a method of using ultrasonic waves to obtain the driving force of the driver, and then using sliding friction to push the motor rotor and drive the motor. Below, let me provide a detailed introduction to the types and application scope of micro motors for everyone.

The types of micro motor structures can be roughly divided into three categories:

1. Inductive type, with a basic structure similar to that of a general electric motor, including components such as the motor stator, motor rotor, synchronous motor winding, carbon brush, etc., but with a particularly compact construction.

2. Integrated, there are generally two types: the composition of various micro motors; The composition of micro motors and electronic circuits. For example, the composition of DC motors and sensors, as well as the composition of parallel line motors in the X and Y directions.

3. Non inductive, the appearance design and structure are the same as inductive, such as rotating products made of cylindrical shape and parallel line products made of square shape, but the internal structure is very different due to its different principles.

Key applications include intelligent manufacturing systems, robotic arms, medical machinery, intelligent kitchens and bathrooms, small pan tilt cameras, and 3 playable handheld stabilizers, all of which have low output power, constant rotation speed ratio, and high torque machine equipment.

The main uses of micro motors are:

1. Aerospace industry: Airlines and space shuttles are typically subjected to extreme standards such as high vacuum pumps, extreme temperatures, strong radiation sources, and inability to properly lubricate, and the system has strict net weight regulations. Ultrasonic motors are the best choice for controllers among them.

2. Magnetic induction motors for precision instrument equipment use a gearbox to reduce speed to increase torque. Due to the presence of transmission gear gaps and return errors, it is difficult to achieve high precision levels. On the other hand, ultrasonic motors can immediately complete the drive and have fast response and good control characteristics, making them suitable for precision instrument equipment.

3. The joint driver of intelligent robots: Using ultrasonic motors as the joint controller of intelligent robots, the fixed and stationary parts of the joints and the fitness exercise parts can be integrated with the fixed and motor rotors of the ultrasonic motors, making the entire organization very compact.

4. Places where interference signals are strong or not allowed to cause interference signals: In the natural environment of magnetic resonance and under the standards of maglev train operation, magnetic induction motors cannot work normally, while ultrasonic motors can function.