Abstract: A wind turbine includes a dynamoelectric machine including a liquid-cooled stator and a rotor interacting with one another. The stator includes a magnetically conductive body and a winding system which is embedded in slots of the magnetically conductive body and which includes a main insulation arranged between a conductor of the winding system and a slot wall and including at least one recess provided in a cooling-channel impression of the main insulation to form at least one axial cooling channel extending between the main insulation and the slot wall, so that the at least one cooling channel borders the slot wall without insulation in direct contact with the slot wall. The winding system includes end windings which are also liquid-cooled. A can separates the stator and the rotor from one another and enables different cooling media for the stator and the rotor.

Abstract: A device for deflecting a coil includes a preformed body including a first portion configured as a circular arc to rest on the coil for bending, and a second portion adjoining the first portion and configured as a chord to rest on the coil for bending, wherein the first portion and the second portion are interchangeable.

Abstract: A wind turbine includes a dynamoelectric machine including a liquid-cooled stator and a rotor interacting with one another. The stator includes a magnetically conductive body and a winding system which is embedded in slots of the magnetically conductive body and which includes a main insulation arranged between a conductor of the winding system and a slot wall and including at least one recess provided in a cooling-channel impression of the main insulation to form at least one axial cooling channel extending between the main insulation and the slot wall, so that the at least one cooling channel borders the slot wall without insulation in direct contact with the slot wall. The winding system includes end windings which are also liquid-cooled. A can separates the stator and the rotor from one another and enables different cooling media for the stator and the rotor.

Abstract: An active part of an electric machine includes a plurality of coils, each having a sub-conductor. The coils are formed by windings of the sub-conductors thereof. The windings of a coil each have a predetermined winding length. In addition, the active part has a carrier part, in the grooves of which, the coils are arranged. The coils have a winding head region which projects from an end surface of the carrier part. The coils are also arranged in the form of a tiered winding. At least one of the coils has a V-shaped cross-section in the winding head region, as a result of an arrangement of its sub-conductor.

Abstract: An active part of an electric machine includes a plurality of coils, each having a sub-conductor. The coils are formed by windings of the sub-conductors thereof. The windings of a coil each have a predetermined winding length. In addition, the active part has a carrier part, in the grooves of which, the coils are arranged. The coils have a winding head region which projects from an end surface of the carrier part. The coils are also arranged in the form of a tiered winding.

Abstract: Electric machine has a rotor movable relative to a stator divided into stator segments, each having first and second transition regions and a central region between the transition regions. The stator segment has a yoke extending over the central region and the first transition region. Central groove webs in the central regions and first transition webs in the first transition regions extend from the yoke towards the rotor. The first transition webs end below the central groove webs. The stator segment has in the second transition region a transverse web from which second transition webs extend towards the rotor. The second transition webs end level with the central groove webs. A spacing of the first transition webs from the rotor at least corresponds to a spacing of a lower edge of the transverse web. Transition regions of adjoining stator segments overlap one another and are disposed one above the other.

Abstract: Electric machine has a rotor movable relative to a stator divided into stator segments, each having first and second transition regions and a central region between the transition regions. The stator segment has a yoke extending over the central region and the first transition region. Central groove webs in the central regions and first transition webs in the first transition regions extend from the yoke towards the rotor. The first transition webs end below the central groove webs. The stator segment has in the second transition region a transverse web from which second transition webs extend towards the rotor. The second transition webs end level with the central groove webs. A spacing of the first transition webs from the rotor at least corresponds to a spacing of a lower edge of the transverse web. Transition regions of adjoining stator segments overlap one another and are disposed one above the other.