Shenzhen Go-Gold Motor Co., Ltd.
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Lead time:
| Quantity | 1-1000 | 1001-10000 | ≥10000 |
| Lead days | 15 | 30 | To be negotation |
Product Description
| Voltage | 230V | Power | 86W |
| Torque | 316±10%mN.m | Speed | 2600RPM |
Essential details
Brand Name: Go-Gold
Rated Voltage: 230V
Noise: Low
Direction: CCW
Output Power: 86W
Rated Torque: 316±10%mN.m
Customized Accept: Yes
Warranty: 3years
Model Number: KG-12520M23
No-load Current: 0.1±10%
Application: Commercial Oven
Place of Origin: Guangdong, China
Drawing
Sample
Application
An induction motor canbe treated as a rotating fransformer ile. one in which primary winding is stationary but the secondaryis free to rotate.
An induction motor (also known as an asynchronous motor) is a commonly used AC electric motor. In an induction motor, the electric current in the rotor needed to produce torque is obtained via electromagnetic induction from the rotating magnetic field of the stator winding. The rotor of an induction motor can be a squirrel cage rotor or wound type rotor. Induction motors are referred to as ‘asynchronous motors’ because they operate at a speed less than their synchronous speed.
Synchronous speed is the speed of rotation of the magnetic field in a rotary machine and it depends upon the frequency and number poles of the machine. An induction motor always runs at a speed less than synchronous speed because the rotating magnetic field which is produced in the stator will generate flux in the rotor which will make the rotor to rotate, but due to the lagging of flux current in the rotor with flux current in the stator, the rotor will never reach to its rotating magnetic field speed. i.e. the synchronous speed.
Working Principle of Induction Motor
The motor which works on the principle of electromagnetic induction is known as the induction motor. The electromagnetic induction is the phenomenon in which the electromotive force induces across the electrical conductor when it is placed in a rotating magnetic field.
When the three phase supply is given to the stator, the rotating magnetic field produced on it. The figure below shows the rotating magnetic field set up in the stator.
The polarities of the magnetic field vary by concerning the positive and negative half cycle of the supply. The change in polarities makes the magnetic field rotates.
The conductors of the rotor are stationary. This stationary conductor cut the rotating magnetic field of the stator, and because of the electromagnetic induction, the EMF induces in the rotor. This EMF is known as the rotor induced EMF, and it is because of the electromagnetic induction phenomenon.
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