The present disclosure provides a system for inserting insulation strips into slots in a wound stator and a method therefor. The system includes a first provider, a second provider and an inserting component. The first provider is configured to provide a first insulation strip. The second provider is configured to provide a second insulation strip. The inserting component is configured to simultaneously insert the first insulation strip and the second insulation strip spacing apart from the first insulation strip into two slots of the wound stator, respectively. The present disclosure further provides a system for manufacturing a stator core. The system includes a winding mechanism and at least one positioning component. The winding mechanism is configured to wind and release a sheet having several notches at intervals. The at least one positioning component is located under the winding mechanism and corresponds to the notches.

Electrical machines, components thereof, and methods for manufacturing the same are provided. In one aspect, methods for additively manufacturing a rotor assembly for an electrical machine is provided. The method includes additively printing the rotor core and shaft of the same material composition. In another aspect, an electrical machine is provided. The electrical machine includes a stator assembly that includes a stator core having a plurality of poles with magnetic slot wedges positioned between adjacent poles to reduce tooth harmonics. The electrical machine also includes a rotor assembly having a rotor core that is formed as a solid core. In yet another aspect, a rotor assembly for an electrical machine is provided that includes slots that reduce eddy current losses in the rotor core during operation of the electrical machine.

A stator of an electric motor is provided. The stator includes a plurality of segments, each of the segments including a tooth having a magnetically-permeable material, an electric coil surrounding the tooth, and at least one insulator. The stator also includes a plurality of connectors, each connector including first and second terminals, the first terminal adapted to be inserted into the at least one insulator and to couple to the electric coil of each of the plurality of segments and a circuit board coupled to input power lines and including apertures adapted to receive the second terminals of the plurality of connectors. The circuit board is coupled to the electric coils of each of the plurality of segments via when the second terminals are received in the apertures.

The disclosure provides a device and a method for manufacturing a wire for a wound stator of an automotive generator. The wire includes a core and a coating surrounding the core. The wire manufacturing device includes a coating removing component, a movable holding component, a deforming component and a flattening component. The coating removing component is configured for removing the coating at a first position. The movable holding component is configured for holding and moving the wire from a first position to a second position. The deforming component is configured for deforming the wire into a waved shape. The flattening component is configured for flattening several parts of the wire that are spaced apart from each other.

The present disclosure provides an electrical connection cap of a stator. The electrical connection cap includes a housing and at least one connection sheet. The housing has a first opening and a second opening. The at least one connection sheet is embedded within the housing and has a first receiving part positioned in the first opening, and a second receiving part positioned in the second opening.

The present disclosure provides a system and a method for inserting a wire having a wavy shape into a stator core. The system includes a rotating receiver, a confining component, an expanding component and a pressing component. The rotating receiver is for rotating around an axis and receiving the wire. The rotating receiver includes multiple slots circumferentially disposed thereon. The slots extend along the axis. The confining component is for confining two adjacent linear segments of the wire separate within a space defined by the confining component. The expanding component is for adjusting the two adjacent linear segments so that they are separated from each other by a predetermined interval inside the space. The pressing component is for pressing the two linear segments into two of the multiple slots.

The present invention was contrived through attention being focused on the following in a prior-art distributed-winding coil: a solenoid configuration in which winding wires are to be wound is preserved when initially formed, but this configuration tends to be loosened during subsequent steps, and the initial winding sequence of the winding wires, or the position of the winding wires relative to each other, tends to be disrupted, and accordingly must be prevented, when a certain force is applied and the necessary bending or deformation is induced in coils with distributed winding in which the solenoid configuration is preserved, or when the coils are ultimately inserted into slots. Therefore, as a solution, the present invention provides a holding tool 30 provided with: at least two substrates 32 linked at one end so as to be able to open and close; an outlet 31 formed at the other end of the substrates 32; and a holding space 32a capable of opening on the outlet 31 side, and holding the first accommodation portion 11a or the second accommodation portion 11b of a coil 10 while maintaining the alignment state of the winding wires 10A that constitute part of the first accommodation portion 11a and the second accommodation portion 11b when the substrates 32 are closed; the holding tool 30 being capable of forming a twist portion at a first coil end and a second coil end and reducing the size of the coil ends of the coils while maintaining the alignability of the winding wires that constitute part of the first and second accommodation portions of the coil 10.

A motor includes a rotor and a stator, a substrate electrically connected to the stator, a sheet-metal cover accommodating the stator and the substrate, and a wiring electrically connected to the substrate. The cover includes a through-hole open to a wall of the cover and communicating an outside and an inside of the cover. The wiring includes cables extending from the inside to the outside of the cover through the through-hole, and a bush with a tubular shape into which the cables are inserted, the bush being attached to the through-hole and elastically deformable. The cover includes a first cup body accommodating the stator and a second cup body accommodating the substrate. The bush is located radially between the second cup body and the substrate.

A stator includes a core back that has an annular shape and that extends in a circumferential direction about a central axis that extends in a vertical direction, teeth that extend in a radial direction from the core back, bobbins attachable in the radial direction to the teeth, and coil wires wound around the bobbins. The bobbins each include a cylindrical portion that extends in the radial direction and a protrusion that protrudes in the radial direction from an upper end portion of the cylindrical portion on a core back side and that is fixed to the core back.

Provided is a stator of a rotary electric machine in which a bonding portion of ends of coil segments is formed at a coil end of the stator without being inflated toward the opposite side to a stator core, and the coil end can be minimized in an axial direction. The stator of the rotary electric machine includes a stator core (10) having a plurality of slots and a coil segment (30) which is disposed in the stator core to form a stator winding (3). The ends of the coil segments are overlapped in the axial direction, and bonded through the bonding portion. The bonding portion is formed in a shape such that the bonding portion is melted and flows down from the end (6a) of the coil segment on the opposite side to the stator core toward the end (5a) of the coil segment on a side near the stator core.