An electric machine may include a housing, a stator arranged in the housing, and a rotor arranged in the stator and mounted on the housing so as to be rotatable about an axis of rotation. The rotor may have a rotor shaft, which may be led out through a front wall of the housing. The rotor shaft may have, on an outer side of the front wall, a drive element, which serves for transmission of torque between the rotor and a drivetrain. The rotor shaft may be rotatably mounted in a front bearing, which is inserted into the front wall. The front bearing may be, at an inner side of the front wall, sealed off with respect to an interior of the housing by way of a labyrinth seal.

A starter-generator for a vehicle includes a housing, an electric motor-generator, a structural electronic substrate board, a printed circuit board and a fan. The electric motor-generator has a rotor disposed in the housing, a shaft fixed to the rotor, and a stator fixed relative to the housing. The structural electronic substrate board includes a metal base plate defining a first housing closure at a first end of the housing with the shaft extending therethrough. The printed circuit board is inside the housing on a side of the rotor opposite the structural electronic substrate board. The fan is fixed to the shaft between the rotor and the structural electronic substrate board.

A claw pole member for an electric machine including a plurality of claw pole segments. Each of the plurality of claw pole segments includes a radial projecting member, an axial outer surface extending to a cantilevered end portion, and an axial inner surface extending axially outwardly of the radial projecting member to a cantilevered end section. A first side surface extends between the axial outer surface and the axial inner surface from the radial projecting member to the cantilevered end portion and the cantilevered end section, and a second side surface extends between the axial outer surface and the axial inner surface from the radial projecting member to the cantilevered end portion and the cantilevered end section. The first and second side surfaces define a taper of the claw pole segment. Each of the first and second side surfaces includes a recessed portion that extends into the claw pole segment.

An axial flux motor includes a first motor body part to which a stator including ferromagnetic stator cores and coils has been attached, a second motor body part attached to the first motor body part, a rotor including a number of magnets between the first and the second motor body parts, arranged against the stator in such a manner that an air gap remains between the rotor and the stator; and at least one bearing between the rotor and the stator. The axial flux motor further includes a bearing block cover attached to cover the bearing. A bearing block cover, elevator and a method of compensating manufacturing tolerances in an axial flux motor are also provided.

A fitness device includes two support frames mounted in a box, two driving motors mounted on the two support frames, a pull rope reel connected to the driving motors, a fitness pull rope wound around the pull rope reel and extending out of the box, and a control system for controlling the driving motors. The control system includes a main controller, a power module, a communication module connected to the main controller, a driving circuit and a sampling module electrically connected to the driving motors and the main controller. The power module is electrically connected to the main controller and the communication module. The driving circuit is electrically connected to the power module, the main controller and the driving motors. The two symmetrical driving motors are used to drive the pull rope reel to drive the fitness pull rope, such that shakes and vibrations generated during exercise can be offset.

A radial flux permanent magnet elevator motor includes a motor frame forming the stator frame having fixing points to be fixed to an elevator guide rail, which frame has a back wall facing and/or abutting with the guide rail, which motor frame includes an axially extending flange protruding away from the back wall in the direction of the rotor, and which motor frame includes at least one axially extending first wall section in a defined radial distance from the axis of the motor frame, which first wall section is configured to support a stator winding of the motor. The rotor includes a central hub protruding into the flange of the motor frame and is rotatively supported within the flange via bearings, which rotor includes a traction sheave in a first radial distance from the motor axis and a ring-like support wall in a second radial distance from the motor axis for supporting permanent magnets, which second distance is larger than the first distance, and whereby the stator winding and the permanent magnets form a radial air gap.

An electric machine arrangement for a motor vehicle drivetrain, having a machine housing which can be fixed to a drivetrain housing, a stator which is fixed relative to the machine housing, a rotor which is mounted, concentrically with respect to the stator, within the machine housing and which has a rotor axis, wherein an air gap is defined between the stator and the rotor. Here, the rotor has a rotary bearing section which is mounted, with a radial clearance, rotatably relative to a housing bearing section of the machine housing, wherein the radial clearance is smaller than the air gap.

A technique for mounting an engine to a frame so that it is coupled to a load, such as a generator, but the mounting apparatus allows the engine to be disconnected quickly and removed from the frame so that a replacement engine can be installed in the frame. A removable rear engine mount houses an engine pulley and a belt that connects the engine pulley to a generator pulley. During removal of the engine, the front and rear engine mounts are disconnected, and the engine assembly including the rear engine mount and the engine pulley and belt are lifted somewhat and then laterally removed from the generator which remains connected to the frame.

A hoisting machine includes an axial flux motor including a rotor having rope grooves and arranged in rotor compartment between a body part and a protection plate, and a stator arranged against the rotor in such a manner that the rotor is separated by the stator by an air gap. The hoisting machine further includes a first cover plate and a second cover plate, arranged at opposite sides of the hoisting machine, and both being equipped with a damper. The tightness between the first cover plate and the second cover plate is adjustable. An elevator assembly and method of damping vibration of a hoisting machine are also disclosed.

An electrical machine for driving a pulley, including: a shaft whereon the pulley is mounted; a motor for driving the shaft; at least one brake; a first front bearing for supporting the motor, the first front bearing being arranged on one side of the pulley, carrying a front ball bearing and being supported by at least one damping element; and a second front bearing arranged on the opposite side, carrying at least one ball bearing and supported by at least one damping element. The machine does not contain a rigid connection between the first front bearing for supporting the motor and the second front bearing.