2 kW AC Vibration Motor, 3 Phase, 6 Pole 220V

2 kW AC Vibration Motor, 3 Phase, 6 Pole  220V
2 kW AC Vibration Motor, 3 Phase, 6 Pole 220V
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$4,589.69
Ex Tax: $4,589.69
  • Stock: In Stock
  • Model: SCJ009325
  • SKU: SCJ009325
Products Sold: 0
Product Views: 340

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  • Description

2 kW AC Vibration Motor, 3 Phase, 6 Pole, 220V

Brief

Low cost 2000W AC vibration motor, 6 pole, 3 phase, force 38 kN, speed of 970 rpm, insulation class F, powerful vibration motor are ideal choice for mining, metallurgy and construction industries.

Description

220 Volt AC vibration motor, three phase, 6 pole, frequency 50/60 Hz, 5.5 Amps rated current, excellent stator insulation performance, long service life of the motor.

Specification

ModelSCJ009325
Phase3 Phase
Pole6 Pole
Force2762 Kg, 38 kN
Speed970 rpm
Power2000W (2 kW)
Current5.5A
Voltage Class3 Phase 220V 50Hz/380V 50Hz
Weight206.5 kg
Frame No.80
Frequency50 Hz/60 Hz
Protection RankIP65
Insulation ClassF
CertificateCE
Warranty12 Months

2 kW Three Phase Vibration Motor Dimension (unit: mm)

2 kW AC Vibration Motor, 3 Phase, 6 Pole

ABCDEFGHILMNCable Gland
1802806833323603726168320343170310M32*1.5

3 Phase AC Vibration Motor Structure
2 kW AC Vibration Motor, 3 Phase, 6 Pole

Tips: Vibration motor controller vibration control system

The vibration motor controller control system consists of two parts. One controller is used to compensate the engine torque pulsation when the engine is started, and the other is used to control the torsional vibration of the drive shaft and the drive shaft due to the rapid increase and decrease of drive torque. Vibration motor controllers vary according to the method they use to detect the rotor position. Measurements can be made with the help of position sensors or using sensorless technology.

The vibration motor controller is used to adjust the speed and torque of the vibration motor. It can also start, stop and reverse its rotation. The vibration motor controller detects the position of the rotor by using a sensor or no sensor. The sensor measures the position of the rotor and sends this data. The controller receives the information and enables the transistor to switch the current at the appropriate time and energize the required stator winding.

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