3 Phase Asynchronous Motor

An induction motor or asynchronous motor is an AC electric motor in which the electric current in the rotor needed to produce torque is obtained by electromagnetic induction from the magnetic field of the stator winding.^[1] An induction motor can therefore be made without electrical connections to the rotor.^[a] An induction motor's rotor can be either wound type or squirrel-cage type.

Three-phase squirrel-cage induction motors are widely used as industrial drives because they are self-starting, reliable and economical. Single-phase induction motors are used extensively for smaller loads, such as household appliances like fans. Although traditionally used in fixed-speed service, induction motors are increasingly being used with variable-frequency drives (VFD) in variable-speed service. VFDs offer especially important energy savings opportunities for existing and prospective induction motors in variable-torque centrifugal fan, pump and compressor load applications. Squirrel-cage induction motors are very widely used in both fixed-speed and variable-frequency drive applications.

What is Asynchronous Motor?

Definition: An electric motor that works with alternating current is known as the asynchronous motor. This motor mainly works on the induced current within the rotor from the rotary magnetic field of the stator. In this motor design, the movement of the rotor cannot be synchronized through the moving stator field. The rotating stator field of this motor can induce a current within the windings of the rotor. In turn, this current will generate a force to push the rotor in the direction of the stator. In this motor, as the rotor is not in phase with the stator, then the torque will be generated.
This is the most common type of motor. In particular, an asynchronous motor with 3-phase is used in the industry due to the reasons like it is a low cost, maintenance is easy and simple. The performance of this motor is good to compare with the single-phase motor. The main feature of this motor is, the speed cannot be changed. The operating speed of this motor mainly depends on the frequency supply as well as the no. of poles.

Construction of Asynchronous Motor

In this motor construction, the motor doesn't include any magnets. In this motor design, the phases can be connected with the coils. So that the magnetic field can be generated. In this motor, the current flow within the rotor can be activated through an induced voltage from the rotating field. Once the magnetic field is applied to pass the rotor then the voltage will be induced at the rotor. Because the rotor's magnetic field can be generated through the stator's magnetic field. Basically, the magnetic field of the rotor runs asynchronously toward the magnetic field of the stator or with a delay in time. So the delay among the two magnetic fields can be known as 'Slip'.

     Induction furnace is used for smelting or insulating ferrous metals, non-ferrous metals, sponge iron, such as scrap iron, scrap steel, copper, aluminum and so on. Complete working equipment such as continuous casting machine, rolling mill, mainly used for the production of billet, steel bar, angle steel, H-beam, I-beam, etc. Using KGPS, IGBT, single or double power supply technology, PLC (Siemens) can be realized throughout the monitoring.
 
       Main supply list: 2 sets of electric furnace body, 2 sets of hydraulic or mechanical tilting electric furnace mechanism, 1 set of control platform, 1 set of intermediate frequency control cabinet (6 pulse 1, 12 pulse 2, 24 pulse 4), low voltage control cabinet (6 pulse 1, 12 pulse 2, 24 pulse 4), 1 set of capacitor cabinet, 4 or 8 water-cooled cables; 1 water temperature alarm, 1 leakage alarm; 1 crucible mold, 1 liquid One batch of pressure steel pipe, one set of copper row, three water tanks. Transformer, cooling tower, furnace builder, furnace lining ejector, furnace cover.

KGSP Induction Electric Furnace


GW-8-4000-0.5J KGSP Induction Electric Furnace


GW-1-750-1JJ Medium frequency coreless electric furnace


GW-50-22000-0.2J No induction melting furnace


GW-0.25-160-1JJ melting electric furnace

GW-1.5-1000-1J Medium frequency induction furnace




 
Note:
(1) GW - means medium frequency induction furnace, - 1 - means induction furnace capacity of 1 ton, - 500 - means furnace rated power of 500 KW, / 1 - means furnace operating frequency of 1000 Hz, / 0.5 - means melting furnace frequency of 500 Hz, - J - means hydraulic tilting furnace (furnace shell is steel shell), - JJ - means mechanical tilting furnace. (the shell of the furnace is aluminum alloy).

(2) The above quoted price is for routine configuration. Other configurations can be added, such as leak alarm, water temperature alarm, furnace switch, cover mechanism, lining ejector and transformer, cooling device (open and close cooling tower, closed cooling tower, plate heat exchanger)

3) If necessary, send technicians to carry out the commissioning: the domestic section is free; the overseas section travel expenses, accommodation and food are borne by the user and each person is subsidized 150 US dollars per day.

4) I quote EX-W at a price including simple packing, including shipping charges to Shanghai port area and all inland charges in China.

V) The above electric furnace voltage levels are 380V, 690V and 950/1000V, and the frequency is 50HZ. If the user equipment requirements are different from the above voltage levels and frequencies, each item needs to be increased by 15000USD.