A bus bar unit includes a bus bar for energizing a coil wound around a stator; and a bus bar holder formed by an insulating member and holds the bus bar. The bus bar holder includes an engaged part which is configured to be engaged with an engaging part formed at an extending part extended from the stator in axial direction of the stator.

An assembly and a method for connecting ends of generator stator coils with a manifold are presented. The assembly includes an adapter having a sleeve connection conduit connected to a sleeve of the manifold and two hose connection conduits. Two hoses are connected between the two hose connection conduits and end of top stator coil and end of bottom stator coil respectively. The adapter provides two separate coolant flow paths from one sleeve of the manifold to the top stator coil and the bottom stator coil through two hoses. The assembly provides a simple modification to resolve connection issues between generator stator coils and manifold during stator coil rewinding as well as a possibility to monitor coolant temperatures of top and bottom stator coils independently.

A stator for a rotating electrical machine includes a stator core, two insulators, and conductive wires forming coils. At least one of the insulators includes guide grooves and through-grooves. The through-grooves include at least two first grooves each of which divides at least two of the guide grooves. Each of the first grooves has a recess that is recessed in the circumferential direction with respect to the rest of the first groove at a portion that divides one of the at least two guide grooves divided by the first groove. The conductive wires extending through the corresponding through-grooves and outward in the radial direction of the insulator base are guided in the circumferential direction by the corresponding guide grooves. The conductive wires extend through the recesses in the corresponding first grooves.

An axial field rotary energy device can include a rotor comprising an axis of rotation and a magnet. In addition, a stator can be coaxial with the rotor. The stator can include a plurality of stator segments that are coupled together about the axis. Each stator segment can include a printed circuit board (PCB) having a PCB layer comprising a coil. Each stator segment also can include only one electrical phase. The stator itself can include one or more electrical phases.

A bracket assembly for supporting terminal leads in an auxiliary generator of an aircraft, which includes a first bracket adapted and configured to be fastened to a stator housing of the generator to retain a main stator within the stator housing, and a second bracket adapted and configured to be fastened to a top surface of the first bracket to support a plurality of terminal leads in such a manner so that they are not susceptible to damage from resonance and vibration.

A stator bar mold insert includes an upper portion and a lower portion. A central cavity is disposed between, and defined by, the upper portion and the lower portion. The central cavity is configured for use with a stator bar. A low friction material lines the central cavity, and the low friction material substantially surrounds the stator bar located inside the stator bar mold insert.

A stator includes a stator core, a first coil and a second coil inserted into slots, and an insulating sheet arranged between the first and second coils. The first coil has a first portion accommodated in a first slot, and the second coil has a second portion accommodated in the first slot. The insulating sheet includes a sheet-like insulating parts projecting from respective end surfaces of the stator core, and leg parts. Each of the sheet-like insulating parts is arranged between a first coil end of the first coil extending from the first portion to the outside of each of the end surfaces and a second coil end of the second coil extending from the second portion to the outside of each of the end surfaces, and the leg parts include a first leg part inserted into the first slot and arranged between the first and second portions.

A stator of an electric machine has first and second hairpin winding terminals connected with a first electrical phase and extending axially away from end windings of the stator. A hairpin winding of a second electrical phase is located circumferentially between the first-phase terminals and spaces them from one another. A jumper has spaced-apart C-hooks oriented face-to-face relative to one another and wrapping around respective exposed ends of the first-phase hairpin winding terminals. The jumper forms a bridge spanning between the first-phase hairpin winding terminals and over the second-phase hairpin winding terminal. During manufacturing of the stator, the C-hooks are slid axially downward onto respective non-insulated ends of the first-phase stator hairpin winding terminals. The C-hooks abut against and are axially positioned relative to the first-phase terminals by ledges defined by insulative coatings that cover portions of the first-phase hairpin winding terminals.

Provided is a motor including a shaft; two rotors attached to the shaft and spaced from each other in an axial direction by a predetermined distance; a stator arranged between the two rotors; a busbar unit arranged on one axial side of at least one of the two rotors, and arranged to hold a busbar; and a housing arranged to hold the stator and house the two rotors therein. The stator includes a plurality of cores arranged in a circumferential direction, and coils wound around the cores. A lead wire drawn out from the coils is arranged to extend, radially outside of the one of the rotors, from the corresponding core to a position on the one axial side of the one of the rotors, and is connected to the busbar at the position. The busbar unit is housed in the housing.

A motor includes a rotation shaft, a magnet unit fixed to the rotation shaft to rotates with the rotation shaft, and a coil unit arranged to face the magnet unit in an axial direction. The magnet unit includes a magnet ring in which magnets are arranged in a circumferential direction of the rotation shaft, and a holding ring provided at an outer peripheral side of the magnet ring to hold the magnet ring. The holding ring includes a composite material in which a carbon fiber is impregnated with resin. The carbon fiber includes a pitch-based carbon fiber and a PAN-based carbon fiber. A volume ratio of the pitch-based carbon fiber is larger than that of the PAN-based carbon fiber in a portion at an outer peripheral side; a volume ratio of the PAN-based carbon fiber is larger than that of the pitch-based carbon fiber in a portion at an inner peripheral side.