An embodiment of the present disclosure may further provide an armature comprising: an iron core; a plurality of patch cords, each of the plurality of patch cords being disposed in a notch on the iron core independently; and at least one end module, wherein: each of the at least one end module includes a plurality of circuits; and the at least one end module is mounted to an end portion of the iron core along an axial direction such that the plurality of patch cords electrically connect to each other individually through a corresponding circuit of the plurality of circuit to form a winding. The present disclosure also provides at least one end module for an armature and a method for assembling an armature.

An apparatus for fixing a power line terminal may include a terminal guide configured to be mounted at one end of a motor cover to support a motor coil terminal and to have an upper surface provided with a plurality of insertion grooves, and a plurality of insert nuts configured to be inserted into the plurality of insertion grooves, the insert nuts manufactured separate from the terminal guide.

A method is provided for manufacturing a terminal member that is electrical conductive with a conductive member. The terminal member is formed by working a workpiece having a plate shape with a first surface and a second surface extending from one end toward the other end, by cutting out a recessed portion at the one end from the first surface to the second surface. In this method, the recessed portion is supported by being abutted against a supporting member, and a portion spaced from the recessed portion toward the other end side is fixed, and both side portions along the one end from the recessed portion are bent while being pressed from the first surface toward the second surface side, thereby forming, as a pair of conductive surfaces for conduction with the conductive member, second surface portions facing each other with the supporting member interposed therebetween.

A motor wiring structure of the present invention relates to motor wiring for supplying electric power to coils which are respectively wound around split cores provided in a stator. The motor wiring structure includes a power supply-side terminal disposed on a power supply side, multiple coil connection-side terminals configured to be connected respectively to winding wire terminals of the coils, and multiple conductor wires each independently connecting the power supply-side terminal and one of the multiple coil connection-side terminals to each other. Moreover, the motor wiring structure includes a positioning and heat-dissipating protrusion which is provided to the coil connection-side terminal, and which is configured to position the coil connection-side terminal with respect to the stator and dissipate heat during thermal crimping with the coil.

The invention relates to a method for repairing an electric generator, preferably in a wind turbine generator (WTG), the electric generator (10) having a stator and a rotor (30) rotatably mounted relative to the stator. The method of repairing the electric generator provides a rotor connecting ring (40) with a first conductor assembly and a second conductor assembly in two different planes, each assembly with a plurality of conductive arc segments. Each of the first and the second plurality of conductive arc segments form a ring-like shape in their respective plane, both ring-like shapes being concentrical to the central shaft (132) when the rotor connecting ring is mounted. First electrical connections (50) from the central shaft connect to the rotor connecting ring for the multiple phases (K,L,M). Second electrical connections (60) further connect from the rotor connecting ring to the respective windings of the multiple phases (K,L,M) on the exterior part of the rotor facing the stator. The rotor connecting ring enhances rotational and thermal stability of the electric generator.

A stator of a rotary electric machine in which a power line to be connected to a coil can be fixed stably without requiring an additional part. The stator of a rotary electric machine has a stator core which has a plurality of radially protruded teeth at intervals in a circumferential direction; three-phase coils which are wound around the teeth and which each have a coil end protruding from an axial end face of the stator core; power lines which are respectively connected to three input-side ends of the three-phase coils via a joint part; and a resin mold which integrally fixes the coil end and the joint part.

A clamp jig includes: a pair of clamp bodies that extend in the radial direction of a stator core and that clamp, from both circumferential sides of the stator core, an end part of an electric conductor that is inserted into and welded to the stator core; and a sandwiched part that is supported so as to be able to rotate with respect to the clamp bodies and that abuts against the end part of the electric conductor when the end part of the electric conductor is clamped between the pair of clamp bodies. The sandwiched part has a plurality of abutting surfaces that can abut the end part of the electric conductor in a direction of rotation of the sandwiched part.

A brushless DC motor fan is provided. The brushless DC motor fan includes a rotor and a stator module. The rotor has a shaft disposed on an inner side of the stator module and rotating relative to the stator module. The stator module has a coreless coil and a lead frame, wherein the lead frame includes six pins electrically connected to the coreless coil.

A wire conductor alignment apparatus aligns wire conductors of coil members provided in a core of a dynamo electric motor or generator for welding the ends thereof. The apparatus has a plurality of circumferentially arranged first passages and a plurality of circumferentially arranged second passages. Each first passages is overlapped with a second passage to form a pair, each pair of passages form a combined third passage, and each third passage is configured to receive at least one end portion of at least two wire conductors of a coil member of a dynamo electric machine. The apparatus also has an actuator for moving at least one of the plurality of first passages and the plurality of second passages relative to one another in a circumferential direction to cause a respective end portion of a wire conductor for welding thereof.

A stator (1) includes a plurality of divided cores (3) arranged in circumferential direction to constitute a stator core (2), and a holder (4). Stator coils (5) are wound around the individual divided cores (3). The divided core (3) includes a tooth part (6), and an insulator (13) around which the stator coil (5) is wound. A plurality of projection portions (5a) are formed in the stator coil (5) when the stator coil (5) is wound around the insulator (13). The projection portions (5a) are wound on only short sides of the insulator (13), resulting that the stator coil (5) does not protrude from the long sides of the divided core (3), and when the divided cores (3) are arranged in the circumferential direction to constitute the stator (1), the stator (1) is normally driven without the stator coils (5) of the neighboring divided cores (3) contacting each other.