Planetary Gearbox Stepper Motors
Geared Stepper Motor 2.2 Nm 3.0A
Geared Stepper Motor Torque: 2.2 NmGeared Stepper Motor Reduction: 1:5Geared Stepper Motor Current: 3.0 AmpsGeared Stepper Motor Flange: 57x57Geared Stepper Motor Length: 32+82=114 mmGeared Stepper ...
Planetary Geared Stepper Motor 2.2 Nm 3.0A
Planetary Geared Stepper Motor Torque: 2.2 Nm Planetary Geared Stepper Motor Reduction: 1:5 Planetary Geared Stepper Motor Current: 3.0 Amps Planetary Geared Stepper Motor Flange: 57x57 Planet...
Planetary Geared Stepper Motor 4.5 Nm 4.2A
Planetary Geared Stepper Motor Torque: 4.5 NmPlanetary Geared Stepper Motor Reduction: 1:5Planetary Geared Stepper Motor Current: 4.2 AmpsPlanetary Geared Stepper Motor Flange: 86x86Planetary Geared S...
Planetary Geared Stepper Motor 8.5 Nm 4.9A
Planetary Geared Stepper Motor Torque: 8.5 NmPlanetary Geared Stepper Motor Reduction: 1:5 Planetary Geared Stepper Motor Current: 4.9 AmpsPlanetary Geared Stepper Motor Flange: 86x86Planetary Ge...
Planetary Geared Stepper Motor 12 Nm 4.2A
Planetary Geared Stepper Motor 3D Planetary Geared Stepper Motor Torque: 12 NmPlanetary Geared Stepper Motor Reduction: 1:5Planetary Geared Stepper Motor Current: 4.2 AmpsPlanetary Geared Stepper...
Planetary Geared Stepper Motor 28 Nm 5.6A
Planetary Geared Stepper Motor Torque: 28 NmPlanetary Geared Stepper Motor Reduction: 1:8Planetary Geared Stepper Motor Current: 5.6 AmpsPlanetary Geared Stepper Motor Flange: 110x110Planetary Geared ...
Planetary Gearbox Stepper Motor Types
Planetary Gearbox Stepper Motor Prices
Frequently Asked Questions About Three Phase Stepper Motors
Planetary gearbox is a type of gear mechanism and is used to increase power transfer and torque between gear wheels. Such gearboxes are designed to convert one rotational movement into a different rotational movement through another set of gears.
Planetary gear system is a gear mechanism used to increase power transfer and torque. The working principle of this gear mechanism is as follows; First, the power input is through the outer gear ring and transmitted to the inner gear ring and output shaft via planetary gears. Then the planet gears rotate in the gear slots between the outer gear ring and the inner gear ring. This movement ensures that the torque is transferred between the gears and converted to a higher speed or a different rotational movement on the output shaft. Thus, the planetary gear system works.
The main differences between bipolar and unipolar stepper motors are their magnetic structure, terminals and driver circuit requirements. The choice should be made based on application requirements, budget, and performance expectations. When combined with a planetary gearbox, both types of stepper motors can be used in applications requiring high torque, increasing the torque of the motor and making it run more efficiently at low speeds.
The gearbox can cause energy losses when transferring mechanical power to the output shaft of the stepper motor. Planetary gearbox tends to provide higher efficiency than other types of gearboxes, but still the quality and design of the gearbox can affect energy efficiency. A planetary gearbox produced with low friction and high quality materials provides higher efficiency by minimizing energy loss.