Product Description

Rexroth Bosh's MAF130C-0100-FQ-M2-AG0-05-N1 motor provides precise and high torque values. Asynchronous motors are distinguished from other motors by their simple structure, ease of use, low maintenance, and high operational reliability. Their rotor winding does not require connection to external power sources, and the stator current is drawn directly from the alternating current (AC) power system. The MAF series includes a variety of types, specifications, and mechanical matchings due to the huge manufacturing volume and diverse use of asynchronous motors. Just like on the stator, the insulation windings are wound over the rotor.

The MAF130C-0100-FQ-M2-AG0-05-N1 has an M2 encoder, bearing, shaft and 0100-type winding. The cooling channel's cross-section is circular in the shaft of the rotor. The liquid runs axially from its front to the back of the shaft of the motor, just as it does in the stator. At the inlet and exit of the motor, the coolant pipe of the heat exchange system is linked to the cooling channels to assess thermal behavior. An absolute multi-turn encoder has additional toothed wheels and code wheels.

Higher-resolution wheels quantify the fractional rotation, while lower-resolution gear code wheels document the total number of shaft revolutions. Ball bearings are made up of a row of rolling balls. Two metal pieces that resemble an annulus are trapping them. These metal bits are called races. A stationary outer race allows the inner race to rotate freely. The motor's ball bearings have a low coefficient of rolling friction and a limited capacity to support loads. This is because the balls and races have a narrow region of contact. In addition to radial loads, they are capable of supporting axial loads in both directions.