,
ZD series brush separately excitation 0.5 hp dc motor has excellent motor performance: simple to operate, easy to maintain, low noise, low vibration. Universal dc motor has the characteristics of good starting torque, good fixed speed characteristics, easy speed control, self-adjustment, and small speed changes. Separately excited dc machine is generally used for acceleration, deceleration or constant speed driving of industrial machinery with constant output,constant torque and square torque loads. Brushed electric motor can be used as fiber machinery, packing machinery, conveying machinery, feeder, grinder, flour milling machine etc.
Product Feature
Motor Type: 0.5 hp dc motor
Output Power: 1/4, 1/2, 1, 2, 3, 5, 7.5, 10HP
Armature Voltage: 0-80, 0-195
Excitation Voltage: 100, 110/220
Torque(KG*CM): 10, 20, 40, 80, 120, 200, 300, 400
Rated Current(A): 1.2, 3, 4, 10, 15, 24, 35, 42
Duty: S1
Start Torque: 125% above
Cooling Method: IC411
Adjustable Speed Range: 30-1800RPM
Insulation Class: B/F
Excitation Method: Separate Excitation
Temperature: -5℃-50℃
Product Parameter (specification)
Production Details
230v dc motor and dc 220v motor and 220v dc motor
Know More Us
Why Us
Service and Packing
FAQ
The difference between DC motor and AC motor
The direct difference between a DC motor and an AC motor is the external power supply, one is DC and the other is AC. The function of the motor is to convert electrical energy into mechanical energy. Electric motors are divided into AC motors and DC motors. The direct current motor uses direct current as the power source. The AC motor is powered by AC.
From the structural point of view, the working principle of the DC motor is relatively simple, but its structure is complex and maintenance is difficult. The working principle of an AC motor is complicated, but its structure is simpler than that of a DC motor, and it is easy to maintain.
The DC motor introduces current into the rotor armature through brushes and commutators, so that the rotor rotates under the action of the stator magnetic field. An AC motor (such as a commonly used AC asynchronous motor) connects the AC with the stator windings and generates a rotating magnetic field in the air gap between the stator and the rotor. The rotating magnetic field generates an induced current in the rotor windings, which causes the rotor to rotate under the action of the stator magnetic field.
