Audited Supplier
various types
Online Service
1 Year
Motor
ISO9001: 2000
Both New and Second-Hand
Lizheng Machinery
Standard Package
Changsha
Product Description
An electric motor is a fascinating marvel of contemporary engineering, a rotary electric machine ingeniously devised to transform electrical energy into powerful mechanical energy. At the heart of this transformation is the electromagnetic coil winding or the distributed stator winding, both crucial in generating a substantial magnetic field. The essential components, notably the rotating armature or rotor, operate seamlessly, driven by this magnetic field. As the dynamic rotating magnetic field within the stator winding springs into action, an electric current flows through the armature's robust squirrel cage aluminum frame, propelling it into motion by the sheer force of generated magnetic forces. These adaptable machines, versatile as both electric motors and generators, hold the vital role of converting electrical energy into mechanical energy, thereby empowering a broad spectrum of applications.
Working Principle:
Motors are outstanding instruments ingeniously engineered to transmute electrical energy into vibrant mechanical energy. Central to their operation is the dynamic rotating magnetic field, expertly generated by energized coils known as stator windings. This formidable magnetic field engages effortlessly with a closed aluminum frame rotor of the squirrel cage type, resulting in the creation of magnetic electric rotational torque. Electric motors are divided into two principal categories: DC motors and AC motors, each uniquely defined by its power source. AC motors, notably prevalent in power systems, are further divided into synchronous and asynchronous types, the latter known for possessing non-synchronous speeds between the stator magnetic field and rotor rotation. Crucial components, such as the stator and rotor, are indispensable to an electric motor's operation. The motion of the energized wire within the magnetic field relies on both the direction of current and the direction of magnetic field lines. Essentially, the operational principle of electric motors is founded on the magnetic field applying a force on the current, which in turn induces rotational movement. These innovative devices play a crucial role in various applications, driving efficiency and performance across numerous industries.
Working Principle:
Motors are outstanding instruments ingeniously engineered to transmute electrical energy into vibrant mechanical energy. Central to their operation is the dynamic rotating magnetic field, expertly generated by energized coils known as stator windings. This formidable magnetic field engages effortlessly with a closed aluminum frame rotor of the squirrel cage type, resulting in the creation of magnetic electric rotational torque. Electric motors are divided into two principal categories: DC motors and AC motors, each uniquely defined by its power source. AC motors, notably prevalent in power systems, are further divided into synchronous and asynchronous types, the latter known for possessing non-synchronous speeds between the stator magnetic field and rotor rotation. Crucial components, such as the stator and rotor, are indispensable to an electric motor's operation. The motion of the energized wire within the magnetic field relies on both the direction of current and the direction of magnetic field lines. Essentially, the operational principle of electric motors is founded on the magnetic field applying a force on the current, which in turn induces rotational movement. These innovative devices play a crucial role in various applications, driving efficiency and performance across numerous industries.
