A method for forming a coil, including the steps of: forming a spiral coil-segment forming member that includes a plurality of coil-segment forming portions each having a shape corresponding to a coil segment including a straight slot body that is accommodated in a slot of a stator core and a non-straight coil end that projects from the stator core in a rotational axis direction of the stator core; and dividing the spiral coil-segment forming member to form a plurality of the coil segments from the plurality of coil-segment forming portions.

An apparatus for bending ends, arranged in annular layers, of bar conductors for an electrical machine are arranged in a stator main body having multiple coaxially arranged coupling elements with coupling recesses, by which the ends of the bar conductors can be taken layer by layer and plastically deformed. Each coupling element has a driving platform, which can be moved in the axial direction together with the coupling element. The coupling element belonging to a driving platform can be rotated on the driving platform. All of the driving platforms move axially on a common climbing linkage. Each driving platform has a dedicated first driving device for axially moving the driving platform and a dedicated second driving device for rotating the coupling element on the driving platform, wherein the two driving devices are moved axially, together with the driving platform. The apparatus is of a simple construction requiring little installation space.

A method of manufacturing a stator for a rotary electric machine. The stator includes a stator core and coil segments including protruding portions that are twisted by a first twist angle, except small-twisted protruding portions which are ones of the protruding portions and which are twisted by a second twist angle that is smaller than the first twist angle. The method is executed by using a tubular-shaped tool having engaging grooves having a first groove width, except small-twisting engaging grooves which are ones of the engaging grooves and which have a second groove width that is larger than the first groove width. The tubular-shaped tool is spirally rotated relative to the stator core, with the protruding portions being inserted in the engaging grooves except the small-twisted protruding portions that is inserted in the small-twisting engaging grooves, whereby the protruding portions including the small-twisted protruding portions are concurrently twisted.

A method and a device by which conductor ends of hairpins sticking out from stator slots are shaped to form coil windings. The ends are shaped in the radial direction using different widening tools allowing the ends to be engaged individually or in pairs so that a first part is at a first radial position, a second part is at a second radial position and a third part is at at least one intermediate position in between. Subsequently, the ends are shaped in the circumferential direction using twisting tools, wherein a twisting tool located further out has inwardly open inner receiving pockets, and a twisting tool located further in has outwardly open outer receiving pockets. At least one of the twisting tools has both inner and outer receiving pockets, one of these located at the at least one intermediate position to shape the third part of the ends.

An apparatus for twisting welding portions of a segment type stator coils is provided. The welding portions are in a number of layers and inserted into slots of a stator core. The apparatus includes a frame, a number of twisting jigs, and a partition member detachably provided at one of a pair of neighboring twisting jigs, and blocking the coil receiving recesses facing each other of the twisting jigs forming the pair. Each of the twisting jigs is provided for each layer of the stator coils, along a radial direction of the stator core, forming coil receiving recesses along a circumferential direction facing another twisting jig forming a pair, installed on the frame to be rotatable in different directions depending on layers of the stator coils, and is generally ring-shaped.

An apparatus for assembling a coil includes a blade inserted into a slot of a stator core in a state where insulating paper is inserted into the slot. In a method for assembling the coil, the insulating paper is inserted into the slot of the stator core, the blade is inserted into the slot into which the insulating paper is inserted, the coil is inserted into the slot into which the blade is inserted, the coil being inserted in a direction opposite to a direction in which the blade is inserted. When the coil is inserted into the slot, the blade is pulled out from the slot along with the insertion of the coil into the slot.

An electric machine has a plurality of phases. A winding is associated with each phase. An interconnection arrangement includes an annular carrier element with a plurality of axial cutouts, each for passage of a portion of a winding and a plurality of concentrically arranged, hollow-cylindrical switching rings. Each switching ring is adapted to contact a winding. The carrier element and the switching rings are adapted to radially positively engage one inside the other in an axial contact zone.

To automate a sub-process during the production of a component, which is to be equipped with coils, of an electric machine, a wire end shaping device is used, which is equipped with coils, of an electric machine, for shaping wire ends which protrude from an annular housing of the component, comprising a bending device for bending wire ends in a circumferential direction, a relative movement device for moving the housing and the bending device in a relative manner in an axial direction, and a controller. The receiving and rotating units, which receive the wire ends, of the bending device are held to be axially static relative to one another, wherein differences in length compensation and/or in a turning angle of the wire ends are handled by means of different movement profiles of the rotational movements of the receiving and rotating units.

A device for twisting hairpin ends of a coil formed from hairpins for an electric machine includes: a plurality of coaxially arranged twisting rings having: two outer twisting rings and, therebetween, at least at least two inner twisting rings. The twisting rings have, in each instance, at an axial end facing hairpin ends, a plurality of pockets distributed over a circumference for receiving a hairpin end, respectively. The twisting rings are twistable in opposite directions relative to one another, the twisting rings having couplings by which twisting rings with like rotational direction are connectable.

An apparatus for assembling a coil includes a blade inserted into a slot of a stator core in a state where insulating paper is inserted into the slot. In a method for assembling the coil, the insulating paper is inserted into the slot of the stator core, the blade is inserted into the slot into which the insulating paper is inserted, the coil is inserted into the slot into which the blade is inserted, the coil being inserted in a direction opposite to a direction in which the blade is inserted. When the coil is inserted into the slot, the blade is pulled out from the slot along with the insertion of the coil into the slot.